US20210147575A1 - Antibodies targeting quiescin sulfhydryl oxidase (qsox1) and uses of same - Google Patents
Antibodies targeting quiescin sulfhydryl oxidase (qsox1) and uses of same Download PDFInfo
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- US20210147575A1 US20210147575A1 US17/087,765 US202117087765A US2021147575A1 US 20210147575 A1 US20210147575 A1 US 20210147575A1 US 202117087765 A US202117087765 A US 202117087765A US 2021147575 A1 US2021147575 A1 US 2021147575A1
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
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- A01K—ANIMAL HUSBANDRY; AVICULTURE; APICULTURE; PISCICULTURE; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
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- C07K2317/30—Immunoglobulins specific features characterized by aspects of specificity or valency
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- C07K2317/00—Immunoglobulins specific features
- C07K2317/50—Immunoglobulins specific features characterized by immunoglobulin fragments
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- C07K2317/70—Immunoglobulins specific features characterized by effect upon binding to a cell or to an antigen
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Definitions
- the present invention in some embodiments thereof, relates to antibodies targeting QSOX1 including cross-species-specific antibodies, and, more particularly, but not exclusively, to the generation and use of same.
- Monoclonal antibody therapy has become an integral part of cancer diagnostics and treatment.
- the success of antibody-based therapy stems from the high specificity and affinity that antibodies offer compared to other anti-tumor agents.
- tumors express on their cell-surfaces many potential targets for antibody therapeutics.
- Antibodies supplied extracellularly can both neutralize the function of their cell-surface antigen and recruit the immune system for a more extensive anti-tumor response.
- tumor stroma has a major role in supporting tumor development and metastasis inspired antibody-based cancer therapies targeting extracellular matrix (ECM) components in addition to targeting tumor cells directly.
- ECM extracellular matrix
- Examples for such agents are antibodies that affect the extracellular glycoprotein tenascin or fibroblast activation protein, found in stromal fibroblasts of most human carcinomas.
- ECM proteins are good candidates for antibody therapy because they are both accessible and abundant in most tissues, making the same ECM components a target in various cancers.
- a major component of the ECM that is over-expressed, reorganized, and cross-linked in tumorigenesis is collagen. Collagen cross-linking by the enzyme lysyl oxidase (LOX) is increased in several cancers and contributes to matrix stiffening, thereby promoting cell adhesion and migration.
- Inhibitors of LOX activity including monoclonal antibodies, significantly inhibited tumor growth and metastasis in gastric carcinoma.
- Laminin is another abundant scaffolding ECM protein that interacts with integrins to mediate cell adhesion and migration, a requirement for metastasis.
- laminin is over-expressed in various cancers, and its chain isotypes serve as tumor biomarkers. Like collagen cross-linking and integrin blocking, laminin incorporation into the matrix may serve as a complementary target for antibody-based cancer therapeutics.
- QSOX1 Quiescin sulfhydryl oxidase 1
- the enzyme QSOX1 is a fusion of two thioredoxin (Trx) domains and an Erv-fold sulfhydryl oxidase module ( FIG. 1A ).
- QSOX1 contains two CXXC motifs as redox-active sites that cooperate to relay electrons from reduced thiols of substrate proteins to molecular oxygen.
- the Trx active site transfers two electrons to the Erv CXXC motif through an inter-domain disulfide intermediate ( FIG. 1C ).
- the electrons proceed to the adjacent flavin adenine dinucleotide cofactor, which in turn reduces oxygen to hydrogen peroxide, leaving QSOX1 oxidized and ready for another catalytic cycle.
- QSOX1 is localized downstream of the endoplasmic reticulum (ER). It is found in the Golgi apparatus and secreted from quiescent fibroblasts into the ECM, where it affects ECM composition and especially laminin incorporation [Ilani T. et al. (2013), supra].
- QSOX1 affects the incorporation of laminin isoforms that contain an ⁇ 4 chain [Ilani T. et al. (2013), supra], a known marker for tumor progression. Together with the over-production of QSOX1 in various adenocarcinomas and associated stroma, these findings point to a possible role of QSOX1 in stimulating tumor cell migration via laminin incorporation.
- MAb492.1 which blocks substrate access to the Trx CXXC redox-active site of human QSOX1 (HsQSOX1) ( FIG. 1B ) [Grossman I. et al. (2013)1 Mol. Biol. 425: 4366-4378].
- MAb492.1 efficiently inhibited HsQSOX1 activity, and consequently inhibited adhesion and migration of cancer cells to and through fibroblasts from corresponding tissues [Ilani T. et al. (2013), supra]. Accordingly, MAb492.1 may serve as an anti-metastatic drug in antibody-based cancer therapy.
- an antibody targeting a human protein is sufficient for pre-clinical trials in animal models due to the availability of xenograft and tumor graft models.
- a major disadvantage of these models is the artificial interaction of the tumor with surrounding tissues.
- eventual recruitment of mouse fibroblasts will create an inhomogeneous tumor microenvironment composed of both mouse and human constituents.
- mouse models with a natural organization of murine cancer cells and stroma such as genetically modified mice that develop spontaneous tumors, may be preferable for studying metastasis development.
- the lead compound e.g., antibody which recognizes the human protein, is often irrelevant.
- U.S. Patent Application no. 20140141015 discloses tumor treatment by administering an inhibitor of QSOX1, e.g., an antibody.
- an inhibitor of QSOX1 e.g., an antibody.
- U.S. 20140141015 discloses the use of QSOX1 inhibitors for the treatment of tumors that over-express QSOX1, pancreatic ductal adenocarcinoma (PDA) and breast adenocarcinoma.
- PDA pancreatic ductal adenocarcinoma
- an antibody comprising an antigen recognition domain exhibiting species cross reactivity to human QSOX1 and murine QSOX1.
- an antibody comprising an antigen recognition domain exhibiting species cross reactivity to human QSOX1 and murine QSOX1, the antigen recognition domain comprising complementarity determining regions (CDRs) as set forth in SEQ ID NOs: 46-51.
- CDRs complementarity determining regions
- a pharmaceutical composition comprising as an active ingredient the antibody of some embodiments of the invention and a pharmaceutically acceptable carrier.
- a method for preventing or treating a laminin-associated disease or condition in a subject in need thereof comprising administering to the subject a therapeutically effective amount of the pharmaceutical composition of some embodiments of the invention.
- the antibody of some embodiments of the invention for the manufacture of a medicament identified for preventing or treating a laminin-associated disease or condition in a subject in need thereof.
- an article of manufacture comprising the antibody of some embodiments of the invention being packaged in a packaging material and identified in print, in or on the packaging material for use in the treatment of a laminin-associated disease or condition.
- an antibody comprising an antigen recognition domain comprising CDRs as set forth in SEQ ID NOs: 26-31, wherein the antibody specifically binds murine QSOX1.
- a method for in vivo determining the efficiency of an antibody in reducing a laminin-associated disease or condition in a murine animal comprising administering to the murine animal the antibody of some embodiments of the invention and monitoring progression of a laminin-associated disease or condition in the murine animal, thereby determining the efficiency of the antibody.
- an isolated polynucleotide comprising a nucleic acid sequence encoding the antibody of some embodiments of the invention.
- an isolated polynucleotide comprising a nucleic acid sequence encoding an antibody comprising the CDRs set forth in SEQ ID NOs: 46-51.
- an isolated polynucleotide comprising a nucleic acid sequence encoding an antibody comprising the CDRs set forth in SEQ ID NOs: 26-31.
- a method of producing an antibody which comprises an antigen recognition domain exhibiting species cross reactivity to QSOX1 comprising: (a) introducing at least one point mutation in the antigen binding domain of an antibody which binds QSOX1 of a first species, which the at least one point mutation increases the water-mediated hydrogen bonding in the interaction interface between the antigen binding domain of the antibody and the QSOX1 of the first species, and alternatively or additionally the at least one point mutation reduces aromatic interactions between the antigen binding domain of the antibody and the QSOX1 of the first species, wherein the at least one point mutation does not substantially affect affinity of the antibody to the QSOX1 of the first species; and (b) testing binding of the antibody having the at least one point mutation to QSOX1 of a second species, wherein when the antibody having the at least one point mutation binds the QSOX1 of the first species and the second species with substantially the same affinity the antibody is considered having cross reactivity to QSOX1.
- the antibody comprises a lower content of aromatic amino acids in CDRs of the antigen recognition domain as compared to that of a species-specific antibody to the human QSOX1.
- the aromatic amino acids comprise tyrosine.
- the antibody comprises at least one charged amino acid in CDR3 of a variable heavy chain of the antibody.
- the charged amino acid comprises aspartic acid.
- the antibody inhibits QSOX1 activity in mediating laminin incorporation in the basement membrane.
- the activity is assayed by at least one of an immunofluorescence (IF) staining assay of the extracellular matrix or western blot assay detecting for soluble laminin.
- IF immunofluorescence
- the antibody is an antibody fragment.
- the antibody is selected from the group consisting of a Fab fragment, an Fv fragment, a single chain antibody and a single domain antibody.
- the antibody is a monoclonal antibody.
- the monoclonal antibody is MAb492gen and comprises CDRs SEQ ID NOs: 46-51.
- the antibody is a single chain antibody.
- the single chain antibody is seFV492gen and comprises CDRs SEQ ID NOs: 46-51.
- the antibody is humanized.
- the antibody is a chimeric antibody.
- the antibody is immobilized to a solid support.
- the antibody is attached to a detectable moiety.
- the antibody comprises an amino acid sequence as set forth in SEQ ID NOs: 44 and 45.
- the method further comprises administering to the subject a chemotherapeutic agent.
- the use further comprises the use of a chemotherapeutic agent.
- the article of manufacture further comprises a chemotherapeutic agent.
- the laminin-associated disease or condition is a tumor.
- the tumor is a metastasizing solid tumor.
- the tumor is an adenocarcinoma.
- the tumor is a cancer selected from the group consisting of a prostate cancer, a lung cancer, a breast cancer, a cervical cancer, an urachus cancer, a vaginal cancer, a colon cancer, an esophagus cancer, a pancreatic cancer, a throat cancer, a stomach cancer and a myeloid leukemia.
- the laminin-associated disease or condition is associated with fibrosis.
- amino acid sequence is as set forth in SEQ ID NOs: 9 and 10.
- the antibody is a monoclonal antibody.
- the at least one point mutation is in a CDR sequence of the antibody.
- the at least one point mutation which reduces aromatic interactions is in a tyrosine.
- the at least one point mutation which reduces aromatic interactions comprises an amino acid comprising a flexible side chain.
- the at least one point mutation which increases the water-mediated hydrogen bonding comprises at least one charged amino acid.
- the at least one point mutation which increases the water-mediated hydrogen bonding is an aspartic acid.
- FIGS. 1A-1B are schematic illustrations of QSOX1 domain organization and inhibition by MAb492.1.
- FIG. 1A shows that the two modules of mammalian QSOX1 enzymes are linked by a flexible linker (black).
- the amino--terminal module, QSOX1 Trx is composed of two Trx-fold domains, the first of which has a redox-active CXXC motif (yellow balls).
- a second redox-active CXXC motif is located in the carboxy-terminal Erv domain. This domain binds an FAD cofactor (fused hexagons).
- the domain labeled ⁇ Erv is a degenerate Erv domain lacking active-site cysteines and a FAD cofactor; and FIG.
- FIG. 1B shows the surface presentation of a complex of a Fab fragment of Mab492.1 (Fab492.1) and HsQSOX1 Trx (PDB code: 4IJ3) showing that Fab492.1 inhibits HsQSOX1 by burying the Trx CXXC active site (yellow spheres).
- FIG. 1C is a schematic illustration of the catalytic cycle of QSOX1 oxidizing two free thiols in a substrate molecule to a disulfide bond, and reducing oxygen to hydrogen peroxide.
- Different chemical enzyme states in the cycle are designated with numbers 1-5.
- state 3 an inter-domain disulfide requires a conformational change that leads to physical proximity of the two CXXC motifs.
- Fused yellow balls represent disulfide bonds. Separated yellow bills indicate reduced cysteines.
- Orange FAD hexagons represent oxidized FAD, whereas yellow hexagons indicate reduced FAD.
- FIGS. 2A-2D illustrate that MAb492.1 is species specific.
- FIG. 2A shows the turnover numbers of various mammalian QSOX1 enzymes in the absence and presence of 250 nM or 1 ⁇ M MAb492.1. Activity was evaluated using an oxygen consumption assay;
- FIG. 2B shows the sequence alignment of HsQSOX1 and other mammalian QSOX1 orthologs in the region bound by MAb492.1. Residues involved in interactions with MAb492.1 are indicated in bold. Residues from MmQSOX1, RnQSOX1, and CpQSOX1 that differ from the corresponding HsQSOX1 residues are colored red; FIG.
- 2C shows superposition of the Fab492.1-HsQSOX1 Trx complex structure (PDB code: 4IJ3) and the structure of MmQSOX1 Trx (PDB code: 5D8I),
- the two chains of MmQSOX1 Trx from the crystal asymmetric unit are light (chain B) and dark (chain A) gray, and HsQSOX1 Trx is pink.
- Left close-up of the expected clash between CDR L3 and Asn117 from MmQSOX1. Only chain B of MmQSOX1 Trx is shown for simplicity; and FIG.
- 2D shows the percent activity for different MmQSOX1 mutants in the presence of MAb492.1.
- Oxygen consumption measurements were conducted with 100 nM enzyme, 250 nM MAb492.1, and 200 ⁇ M DTT. Percent activity was calculated according to the results of the same measurements in the absence of antibody. Error bars represent standard deviations from an average of three measurements.
- FIGS. 3A-3I illustrate the evaluation of binding and inhibition constants of antibodies targeting MmQSOX1.
- FIG. 3A shows histograms of fluorescence (APC-conjugated streptavidin) reporting MmQSOX1 Trx binding to the surface of yeast displaying scFv492.1 or a scFv492.1 mutant (mutant d, Table 3). Each histogram represents 50,000 yeast cells.
- the scFv492.1 mutant shows an increase in APC fluorescence compared to wild-type scFv492.1;
- FIG. 3B shows a dose-response curve of MAb492gen to 150 or 25 nM MmQSOX1, based on results from a colorimetric assay quantifying RNase A oxidation.
- the inhibitory activity is expressed as absorbance at 412 nm, representing free thiols that reacted with 5,5′-dithiobis-(2-nitrobenzoic acid). Error bars represent standard deviations from an average of three measurements.
- the IC 50 values were determined by nonlinear regression analysis and yielded values close to the MmQSOX1 concentration;
- FIG. 3C shows the inhibition curve of MAb492gen to 50 nM MmQSOX1, based on results from oxygen electrode assays at a range of MAb492gen concentrations.
- Inhibitory activity is expressed as the ratio of the inhibited rate to the uninhibited rate (v i /v 0 ). Error bars represent standard deviations from an average of three measurements.
- FIG. 3D shows the same as FIG. 3C only for MAb316.1
- FIGS. 3E-3H show representative images of laminin immunostaining in cultures treated with no antibody ( FIG. 3E ), MAb492.1 ( FIG. 3F ), MAb316.1 ( FIG. 3H ), or MAb492gen ( FIG. 3G ).
- Scale bar is 20 ⁇ m
- Additional images are presented in FIGS. 4B-4I ; and
- FIG. 3I shows quantification of adhesion of fluorescently labeled epithelial cells to a mouse fibroblast monolayer grown in the absence or presence of MAb492.1, MAb316.1, or MAb492gen. Error bars are standard error of the mean. Sample images are shown in FIGS. 4J-O .
- FIG. 3J illustrates a sequence alignment of MAb492gen and MAb492.1 variable regions. Mutated residues are colored red.
- FIGS. 3K-3L illustrate histograms of red fluorescence (APC bound to streptavidin) representing MmQSOX1 Trx binding at various concentrations to the surface of yeast displaying scFv492gen ( FIG. 3K ). Each histogram represents 50,000 yeast cells; and FIG. 3L shows a quantification of FIG. 3K .
- the mean APC fluorescence was measured and plotted as function of MmQSOX1 Trx concentration. Data were fit to a binding isotherm, yielding an apparent K d of 65 ⁇ 10 nM for MmQSOX1 Trx binding on the surface of yeast.
- FIG. 4A illustrates a MmQSOX1 immunoblot with a rabbit polyclonal antibody (dilution 1:1000). Lane 1, recombinant MmQSOX1. Lane 2, the supernatant of confluent mouse fibroblasts, showing that MmQSOX1 is secreted. Recombinant MmQSOX1 is truncated at the carboxy-terminus and so migrates faster than endogenous secreted MmQSOX1. Endogenous MmQSOX1 appears as two bands due to its two splice variants.
- FIGS. 4B-4I illustrate additional representative images of laminin immunostaining, as shown in FIGS. 3E-I .
- Scale bar is 40 ⁇ m.
- FIGS. 4J-4O illustrate representative images of adherent epithelial cells to a MEF monolayer. Fifteen such fields were quantified in each treatment ( FIG. 3I ). Scale bar is 100 ⁇ m.
- FIGS. 5A-5E are schematic illustrations of the structure of the Fab492gen-MmQSOX1Trx complex.
- FIG. 5A shows a surface presentation of the Fab492gen-MmQSOX1Trx complex (PDB code: 5D96) showing that Fab492gen binds MmQSOX1 in the same mode as Fab492.1 with respect to HsQSOX1Trx, by burying the Trx CXXC active site (yellow spheres);
- FIG. 5B shows the top view of MAb492.1 and MAb492gen CDRs. Coloring of Fab492gen chains is as in FIG. 5A .
- FIG. 5C shows a cartoon presentation of CDRs L2 and H3 in Fab492gen, showing their close interaction. Residues in stick presentation were mutated in the development of Fab492gen from Fab492.1. The dashed black line represents a hydrogen bond.
- FIGS. 5D-5E show a comparison of the CDR L1-QSOX1Trx interaction in Fab492gen-MmQSOX1Trx and Fab492.1-HsQSOX1Trx complexes.
- FIG. 5A Coloring is as in FIG. 5A and. FIG. 5B .
- One hydrogen bond is possible between Fab492.1 and HsQSOX1Trx, and none between Fab492.1 and MmQSOX1Trx ( FIG. 5D ).
- Two hydrogen bonds provide interactions in the Fab492gen- MmQSOX1Trx complex ( FIG. 5E ).
- FIG. 5F is a schematic illustration showing a comparison of CDR H3 between Fab492.1 and Fab492gen.
- mutation of Tyr to Met prevents a clash between CDR H3 and MmQSOX1Trx.
- the position of CDR H3 in Fab492gen enables binding of both MmQSOX1 and HsQOX1.
- FIGS. 6A-6C illustrate that MAb316.1 binds the Trx domain of MmQSOX1.
- FIG. 6A shows elution profiles of MAb316.1 and MmQSOX1. or its fragments from analytical size-exclusion chromatography.
- MAb316.1 binds the Trx module;
- FIG. 6B shows the surface presentation of the Fab316.1-HsQSOX1 Trx complex (PDB code: 5D93) showing that Fab316.1 does not bury the CXXC motif, accessible at the complex surface (yellow); and
- 6C shows superposition of the Fab31.6.1-HsQSOX1 Trx , complex (PDB code: 5D93) and MmQSOX1 C76A/C455S (PDB code: 3T58). Only the variable region of the light chain is shown (gray) from Fab316.1. Yellow spheres represent the interdomain disulfide between the Trx and Erv active-site cysteines. MmQSOX1 Erv clashes with the Fab316.1 light chain (black circle), suggesting that Fab316.1 inhibits MmQSOX1 by interfering with formation of the inter-domain electron-transfer intermediate.
- FIGS. 7A-7D illustrate HsQSOX1 inhibition by MAb316.1 and MAb492gen.
- FIG. 7A shows turnover numbers of HsQSOX1 in the absence and presence of 250 nM or 1 ⁇ M MAb316.1. Activity was evaluated using an oxygen consumption assay. Error bars represent standard deviations from an average of three measurements;
- FIG. 7B shows the inhibition curve of MAb492gen calculated from oxygen electrode assays of 50 nM HsQSOX1 in the presence of various MAb492gen concentrations. Inhibitory activity is expressed as the ratio of the inhibited rate to the uninhibited rate (v i /v 0 ). Error bars represent standard deviations from an average of three measurements.
- FIG. 7C shows the superposition of HsQSOX1 Trx (PDB code: 4IJ3, chain a) and Fab316.1-MmQSOX1 Trx complex (PDB code: 5D93). Residues that differ in sequence between the two QSOX1 Trx orthologs, namely the VFPV(135-138) loop from HsQSOX1 and the corresponding TLPG(138-141) loop from MmQSOX1, are in stick presentation.
- FIG. 7D shows the percent activity of MmQSOX1, HsQSOX1, and its mutant VFPV(135-138)TLPG, designated TLPG, in the presence of MAb316.1.
- Measurements were conducted in an oxygen consumption assay with 100 nM enzyme, 250 nM MAb492.1, and 200 ⁇ M DTT. Percent activity was calculated according to the results of the same measurements in the absence of antibody. Error bars represent standard deviations from an average of three measurements.
- FIG. 8 illustrates in vivo that treatment with MAb316.1 slows the progression of an aggressive breast cancer in mice.
- Mice were treated with 15 mg/kg or 30 mg/kg of MAb316.1 and/or with doxorubicin (as described in Table 1B, hereinbelow). Average tumor volumes of the five groups of mice injected with 4T1 cells was monitored. Tumor dimensions were measured twice a week with a caliper. Tumor volume was calculated as: x*y*z*6/ ⁇ . Error bars represent SEM.
- the present invention in some embodiments thereof, relates to antibodies targeting QSOX1 including cross-species-specific antibodies, and, more particularly, but not exclusively, to the generation and use of same.
- the secreted disulfide catalyst Quiescin sulfhydryl oxidase 1 affects extracellular matrix (ECM) composition and is over-expressed in various adenocarcinomas and associated stroma.
- ECM extracellular matrix
- QSOX1 is found in the Golgi apparatus and is secreted from quiescent fibroblasts into the ECM, where it affects ECM composition and especially laminin incorporation into the basement membrane (BM), a layer of the ECM at the interface between body cavities or blood vessels and underlying stromal fibroblasts.
- the present inventors have performed a structure-guided modification of the MAb492.1 antibody (which binds human QSOX1) to introduce point mutations rendering the antibody (termed MAb492gen) capable of binding the mouse QSOX1 ortholog.
- the present inventors have also generated a new anti-QSOX1 inhibitory monoclonal antibody targeting murine QSOX1. These antibodies can be used in in vivo pre-clinical trials overcoming the barriers of species cross-reactivity as well as for various biotechnological applications.
- FIGS. 3A-3L A crystal structure of the re--engineered variant, complexed with its mouse antigen, revealed that the antibody accomplishes dual-species targeting through altered contacts between its heavy and light chains, plus replacement of bulky aromatics by flexible side chains and versatile water-bridged polar interactions ( FIGS. 5A-5F ).
- the to present inventors have also produced an antibody targeting mouse QSOX1, termed MAb316.1, which exhibits a new QSOX1 inhibition mode (Table 2, FIGS. 6A-6C ).
- MAb492.1 and MAb492gen inhibit QSOX1 by blocking substrate access to the Trx CXXC redox-active site ( FIG. 1B )
- Fab316.1 envelopes the helix containing the Trx redox-active site at its amino terminus but does not block access to the CXXC motif itself ( FIG. 6B ).
- MAb316.1 inhibits QSOX1 by physically preventing formation of the inter-domain electron-transfer intermediate of MmQSOX1 ( FIG. 6C ), thus interrupting a different step in the catalytic cycle than MAb492.1 and MAb492gen (transition from state 2 to 3, rather than 1 to 2 in FIG. 1C ).
- an antibody comprising an antigen recognition domain exhibiting species cross reactivity to human QSOX1 and murine QSOX1.
- QSOX1 relates to the Quiescin Sulfhydryl Oxidase 1.
- the protein accession number for the long variant of human QSOX1 on the NCBI database is NP_002817 (SEQ ID NO: 3), and the accession number for the short form of human QSOX1 is NP_001004128 (SEQ ID NO: 4).
- the protein accession number for the long variant of mouse QSOX1 on the NCBI database is NM_001024945.1 (SEQ ID NO: 34), and the accession number for the short form of mouse QSOX1 is NM_023268.2 (SEQ ID NO: 35).
- the antibody of the present invention exhibits species cross reactivity to human QSOX1 and murine QSOX1 (e.g., mouse QSOX1).
- substantially the same affinity refers to a binding affinity which is the same or within one order of magnitude difference, as determined in the same, binding assay.
- the affinity of the antibody to human QSOX1 is characterized by a K D of 0.1-100 nM, K D of 0.1-50 nM, K D of 0.1-10 nM, K D of 1-10 nM, K D of 0.1-5 nM, K D of 1-5 nM, K D of 1-3 nM, K D of 1.5-2 nM, or K D of 1.6 nM.
- the affinity of the antibody to mouse QSOX1 is characterized by a K D of 0.1-100 nM, K D of 0.1-50 nM, K D of 0.1-10 nM, K D of 1-10 nM, K D of 0.1-5 nM, K D of 1-5 nM, K D of 2-3 nM, K D of 2-2.5 nM, or K D of 2.2 nM.
- “species cross reactivity” is to be understood as an interspecies reactivity to the same molecule (i.e. QSOX1) of different species, but not to a molecule other than QSOX1.
- Species cross reactivity of an antibody recognizing human QSOX1 and mouse QSOX1 can be determined, for example, by FACS analysis.
- the FACS analysis is carried out in a way that the respective antibody is tested for binding to the human and mouse QSOX1 proteins.
- a yeast-surface display may be used for expression of single-chain variable fragments (scFv) of the antibody tested. Binding of scFv displayed on cells to soluble QSOX1 (e.g., human or mouse) can be monitored using FACS analysis, e.g., utilizing streptavidin-APC fluorescence.
- species cross reactivity may be determined by any other method known in the art, e.g., by ELISA.
- antibody as used in this invention includes intact molecules as well as functional fragments thereof (such as Fab, F(ab′)2, Fv, scFv, dsFv, or single domain molecules such as VH and VL) that are capable of binding to an epitope of an antigen.
- isolated refers to at least partially separated from the natural environment e.g., from a hybridoma cell.
- Suitable antibody fragments for practicing some embodiments of the invention include a complementarity-determining region (CDR) of an immunoglobulin light chain (referred to herein as “light chain”), a complementarity-determining region of an immunoglobulin heavy chain (referred to herein as “heavy chain”), a variable region of a light chain, a variable region of a heavy chain, a light chain, a heavy chain, an Fd fragment, and antibody fragments comprising essentially whole variable regions of both light and heavy chains such as an Fv, a single chain Fv (scFv), a disulfide-stabilized Fv (dsFv), an Fab, an Fab′, and an F(ab′)2.
- CDR complementarity-determining region
- light chain referred to herein as “light chain”
- heavy chain a complementarity-determining region of an immunoglobulin heavy chain
- variable region of a light chain a variable region of a heavy chain
- a light chain a variable region of a heavy
- CDR complementarily-determining region
- VH VH
- CDR H2 or H2 CDR H3 or H3
- VL VL
- the identity of the amino acid residues in a particular antibody that make up a variable region or a CDR can be determined using methods well known in the art and include methods such as sequence variability as defined by Kabat et al. (See, e.g., Kabat et al., 1992, Sequences of Proteins of immunological interest, 5th ed., Public Health Service, NIH, Washington D.C.), location of the structural loop regions as defined by Chothia et al. (see, e.g., Chothia et al., Nature 342:877-883, 1989.), a compromise between Kabat and Chothia using Oxford Molecular's AbM antibody modeling software (now Accelrys®, see, Martin et al., 1989, Proc.
- variable regions and “CDRs” may refer to variable regions and CDRs defined by any approach known in the art, including combinations of approaches.
- Fv defined as a genetically engineered fragment consisting of the variable region of the light chain (VL) and the variable region of the heavy chain (VH) expressed as two chains;
- single chain Fv (“seFv”), a genetically engineered single chain molecule including the variable region of the light chain and the variable region of the heavy chain, linked by a suitable polypeptide linker as a genetically fused single chain molecule;
- dsFv disulfide-stabilized Fv
- Fab a fragment of an antibody molecule containing a monovalent antigen-binding portion of an antibody molecule which can be obtained by treating whole antibody with the enzyme papain to yield the intact light chain and the Fd fragment of the heavy chain which consists of the variable and CH1 domains thereof;
- Fab′ a fragment of an antibody molecule containing a monovalent antigen-binding portion of an antibody molecule which can be obtained by treating whole antibody with the enzyme pepsin, followed by reduction (two Fab′ fragments are obtained per antibody molecule);
- F(ab′)2 a fragment of an antibody molecule containing a monovalent antigen-binding portion of an antibody molecule which can be obtained by treating whole antibody with the enzyme pepsin (i.e., a dimer of Fab′ fragments held together by two disulfide bonds); and
- Single domain antibodies or nanobodies are composed of a single VH or VL domains which exhibit sufficient affinity to the antigen.
- Antibody fragments according to some embodiments of the invention can be prepared by proteolytic hydrolysis of the antibody or by expression in E. coli or mammalian cells (e.g., Chinese hamster ovary cell culture or other protein expression systems) of DNA encoding the fragment.
- Antibody fragments can be obtained by pepsin or papain digestion of whole antibodies by conventional methods.
- antibody fragments can be produced by enzymatic cleavage of antibodies with pepsin to provide a 5S fragment denoted F(ab′)2.
- This fragment can be further cleaved using a thiol reducing agent, and optionally a blocking group for the sulfhydryl groups resulting from cleavage of disulfide linkages, to produce 3.5S Fab′ monovalent fragments.
- a thiol reducing agent optionally a blocking group for the sulfhydryl groups resulting from cleavage of disulfide linkages
- an enzymatic cleavage using pepsin produces two monovalent Fab′ fragments and an Fc fragment directly.
- Fv fragments comprise an association of VH and VL chains. This association may be noncovalent, as described in Inbar et al, [ Proc. Nat'l Acad. Sci . USA 69:2659-62 (19720]. Alternatively, the variable chains can be linked by an intermolecular disulfide bond or cross-linked by chemicals such as glutaraldehyde. Preferably, the Fv fragments comprise VH and VL chains connected by a peptide linker. These single-chain antigen binding proteins (sFv) are prepared by constructing a structural gene comprising DNA sequences encoding the VH and VL domains connected by an oligonucleotide.
- sFv single-chain antigen binding proteins
- the structural gene is inserted into an expression vector, which is subsequently introduced into a host cell such as E. coli .
- the recombinant host cells synthesize a single polypeptide chain with a linker peptide bridging the two V domains.
- Methods for producing sFvs are described, for example, by [Whitlow and Filpula, Methods 2: 97-105 (1991); Bird et al., Science 242:423-426 (1988); Pack et al., Bio/Technology 11:1271-77 (1993); and U.S. Pat. No. 4,946,778, which is hereby incorporated by reference in its entirety.
- CDR peptides (“minimal recognition units”) can be obtained by constructing genes encoding the CDR of an antibody of interest. Such genes are prepared, for example, by using the polymerase chain reaction to synthesize the variable region from RNA of antibody-producing cells. See, for example, Larrick and Fry [ Methods, 2:106-10 (1991)].
- Humanized forms of non-human (e.g., murine) antibodies are chimeric molecules of immunoglobulins, immunoglobulin chains or fragments thereof (such as Fv, Fab, Fab′, F(ab′)2 or other antigen-binding subsequences of antibodies) which contain minimal sequence derived from non-human immunoglobulin.
- Humanized antibodies include human immunoglobulins (recipient antibody) in which residues form a complementary determining region (CDR) of the recipient are replaced by residues from a CDR of a non-human species (donor antibody) such as mouse, rat or rabbit having the desired specificity, affinity and capacity.
- CDR complementary determining region
- donor antibody such as mouse, rat or rabbit having the desired specificity, affinity and capacity.
- Fv framework residues of the human immunoglobulin are replaced by corresponding non-human residues.
- Humanized antibodies may also comprise residues which are found neither in the recipient antibody nor in the imported CDR or framework sequences.
- the humanized antibody will comprise substantially all of at least one, and typically two, variable domains, in which all or substantially all of the CDR regions correspond to (hose of a non-human immunoglobulin and all or substantially all of the FR regions are those of a human immunoglobulin consensus sequence.
- the humanized antibody optimally also will comprise at least a portion of an immunoglobulin constant region (Fc), typically that of a human immunoglobulin [Jones et al., Nature, 321:522-525 (1986); Riechmann et al., Nature, 332:323-329 (1988); and Presta, Curr. Op. Struct. Biol., 2:593-596 (1992)].
- Fc immunoglobulin constant region
- a humanized antibody has one or more amino acid residues introduced into it from a source which is non-human. These non-human amino acid residues are often referred to as import residues, which are typically taken from an import variable domain. Humanization can be essentially performed following the method of Winter and co-workers [Jones et al., Nature, 321:522-525 (1986); Riechmann et al., Nature 332:323-327 (1988); Verhoeyen et al., Science, 239:1534-1536 (1988)], by substituting rodent CDRs or CDR sequences for the corresponding sequences of a human antibody.
- humanized antibodies are chimeric antibodies (U.S. Pat. .No. 4,816,567), wherein substantially less than an intact human variable domain has been substituted by the corresponding sequence from a non-human species.
- humanized antibodies are typically human antibodies in which some CDR residues and possibly some FR residues are substituted by residues from analogous sites in rodent antibodies.
- Human antibodies can also be produced using various techniques known in the art, including phage display libraries [Hoogenboom and Winter, J. Mol. Biol., 227:381 (1991); Marks et al., J. Mol. Biol., 222:581 (1991)].
- the techniques of Cole et al. and Boerner et al. are also available for the preparation of human monoclonal antibodies [Cole et al., Monoclonal Antibodies and Cancer Therapy , Alan R. Liss, p. 77 (1985) and Boemer et al., J. Immunol., 147(1):86-95 (1991)].
- human antibodies can be made by introduction of human immunoglobulin loci into transgenic animals, e.g., mice in which the endogenous immunoglobulin genes have been partially or completely inactivated. Upon challenge, human antibody production is observed, which closely resembles that seen in humans in all respects, including gene rearrangement, assembly, and antibody repertoire. This approach is described, for example, in U.S. Pat. Nos.
- a method of producing an antibody which comprises an antigen recognition domain exhibiting species cross reactivity to QSOX1 comprising: (a) introducing at least one point mutation in the antigen binding domain of an antibody which binds QSOX1 of a first species, which at least one point mutation increases the water-mediated hydrogen bonding in the interaction interface between the antigen binding domain of the antibody and QSOX1 of the first species, and alternatively or additionally the at least one point mutation reduces aromatic interactions between the antigen binding domain of the antibody and QSOX1 of the first species, wherein the at least one point mutation does not substantially affect affinity of the antibody to QSOX1 of the first species; and (b) testing binding of the antibody having the at least one point mutation to QSOX1 of a second species, wherein when the antibody having the at least one point mutation binds QSOX1 of the first species and the second species with substantially the same affinity the antibody is considered having cross reactivity to QSOX1.
- any antibody which binds a first species e.g., human QSOX1 may be used.
- Such antibodies may be obtained commercially (e.g., from Merck Millipore, Atlas Antibodies, MBL International or Thermo Scientific Pierce Antibodies), or may be produced by any method known in the art, e.g., as described below, provided that their coding sequence can be elucidated.
- anti-QSOX1 monoclonal antibodies may be produced e.g., in murine animals, such as in mice, by first immunizing with an emulsion of recombinant human QSOX1 and Complete Freund's adjuvant (e.g., obtained from DifcoLboratories). For instance, mice may be immunized three, four, or five times at intervals of two or three weeks.
- QSOX1 peptides used for immunization may comprise between 50-100 amino acids, between 50-150 amino acids, between 50-200 amino acids, between 50-232 amino acids, between 100-200 amino acids or between 150-232 amino acids.
- immunization can be done using a fragment spanning 33 to 546 of Homo sapiens QSOX1, which comprises all the functional domains of the enzyme.
- immunization can be done using a fragment spanning residues 33 to 272 of Homo sapiens QSOX1.
- immunization can be done using the Trx module of QSOX1 (e.g., two Trx domains) or using the Erv module of QSOX1 (e.g., two Erv domains).
- immunization can be done using the full-length QSOX1.
- spleen cells from selected mice are fused with myeloma cells (e.g., NSO myeloma cells) using polyethylene glycol.
- myeloma cells e.g., NSO myeloma cells
- Hybridoma cells are then selected by a selection medium (e.g., HAT medium) and supernatants of the cells (i.e. comprising the antibodies) are screened for specific binding to human QSOX1 and/or inhibition thereof.
- At least one amino acid sequence of the antibody is modified (e.g., by point mutations, deletions and/or insertions), wherein the modification enables functional flexibility, i.e., flexibility in the interaction interface of the antibody with an antigen, enabling interaction with more than one antigen (e.g., QSOX1 of different species).
- the amino acid sequence of the antibody may be modified to comprise a lower content of aromatic amino acids (e.g., tyrosines) as compared to that of a species-specific antibody to the human QSOX1.
- aromatic amino acids may be replaced by more flexible amino acids (i.e. amino acids comprising flexible side chains).
- the amino acid of the antibody may be modified to include at least one charged amino acid (i.e., amino acid which comprises a charged residue). It will be appreciated that charged amino acids comprise energetically favorable contact h water and accordingly can participate in water-bridged polar interactions between the antibody and QSOX1.
- an antibody recognizing human QSOX1 is modified in at least one amino acid residue.
- 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12 or more point mutations are generated in the amino acid sequence of the antibody.
- the point mutation is generated in the heavy chain of the antibody.
- the point mutation is generated in the light chain of the antibody.
- the point mutation may be a plurality of point mutations in the heavy chain and in the light chain of the antibody.
- the at least one point mutation is at the antigen binding domain of the antibody.
- the at least one point mutation is in a CDR sequence of the antibody.
- 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12 or more point mutations are generated in CDR sequences of the antibody.
- a point mutation is generated in the heavy chain variable region of the antibody, e.g., in CDR1 CDR2 and/or CDR3.
- a point mutation is generated in the light chain variable region of the antibody, e.g., in CDR1, CDR2 and/or CDR3.
- the at least one point mutation which reduces aromatic interactions is in an aromatic amino acid (e.g. tyrosine). Accordingly, aromatic amino acids within the amino acid sequence of the antibody may be replaced by more flexible amino acids (as discussed in detail below).
- aromatic amino acids within the amino acid sequence of the antibody may be replaced by more flexible amino acids (as discussed in detail below).
- the at least one point mutation which reduces aromatic interactions comprises an amino acid comprising a flexible side chain.
- the amino acid sequence of the antibody comprises a lower content of aromatic amino acids (e.g., tyrosines) as compared to that of a species-specific antibody to the human QSOX1.
- aromatic amino acids e.g., tyrosines
- the amino acid sequence of the antibody comprises a lower content of aromatic amino acids (e.g., tyrosines) in CDRs of the antigen recognition domain as compared to that of a species-specific antibody to the human QSOX1.
- aromatic amino acids e.g., tyrosines
- a lower content of aromatic amino acids may include 1, 2, 3, 4, or 5 fewer aromatic amino acids (e.g., tyrosines) in the amino acid sequence of the antibody as compared to that of a species-specific antibody to the human QSOX1. (e.g., mAb492.1).
- aromatic amino acids e.g., tyrosines
- Aromatic amino acids include, for example, tyrosine, phenylalanine, histidine and tryptophan.
- the amino acid sequence of the antibody comprises a lower content of tyrosines as compared to that of a species-specific antibody to the human QSOX1.
- the amino acid sequence of the antibody comprises a lower content of tyrosines in CDRs of the antigen recognition domain as compared to that of a species-specific antibody to the human QSOX1.
- a lower content of tyrosines may include 1, 2, 3, 4, or 5 fewer tyrosines in the amino acid sequence of the antibody as compared to that of a species-specific antibody to the human QSOX1 (e.g., mAb492.1).
- the amino acid sequence of the antibody comprises a lower content of aromatic amino acids (e.g., tyrosine) in CDR3 of the variable heavy chain of the antibody (as compared to that of a species-specific antibody to the human QSOX1). Additionally or alternatively, the amino acid sequence of the antibody comprises a lower content of aromatic amino acids (e.g., tyrosine) in CDR2 of the variable light chain of the antibody (as compared to that of a species-specific antibody to the human QSOX1).
- aromatic amino acids e.g., tyrosine
- tyrosine at position 99 of the variable heavy chain of the antibody as set forth in SEQ ID NO: 37 is replaced by a point mutation.
- tyrosine at position 100 of the variable heavy chain of the antibody as set forth in SEQ ID NO: 37 is replaced by a point mutation. Additionally or alternatively, tyrosine at position 53 of the variable light chain of the antibody as set forth in SEQ ID NO: 36 is replaced by a point mutation.
- aromatic amino acids e.g., tyrosine
- flexible amino acids i.e. amino acids comprising flexible side chains
- glutamine methionine
- arginine arginine
- lysine aspartate
- glutamate glutamate
- serine serine
- tyrosine at position 99 of the variable heavy chain of the antibody as set forth in SEQ ID NO: 37 is replaced by a serine. Additionally or alternatively, tyrosine at position 100 of the variable heavy chain of the antibody as set forth in SEQ ID NO: 37 is replaced by a methionine. Additionally or alternatively, tyrosine at position 53 of the variable light chain of the antibody as set forth in SEQ ID NO: 36 is replaced by a glutamine.
- the antibody of the invention may alternatively or additionally be modified to include at least one charged amino acid residue.
- the at least one point mutation which increases the water-mediated hydrogen bonding comprises at least one charged or polar (e.g. non-charged polar) amino acid.
- the amino acid sequence of the antibody comprises at least 1, 2, 3 or more charged or polar amino acids in the amino acid sequence of the antibody as compared to that of a species-specific antibody to human QSOX1 (e.g., mAb492.1).
- the amino acid sequence of the antibody comprises at least one charged or polar amino acid in a CDR of the antigen recognition domain of the antibody.
- the amino acid sequence of the antibody comprises at least one charged or polar amino acid in CDR3 of a variable heavy chain of the antibody.
- Charged amino acids include, but are not limited to, lysine, arginine, aspartic acid, histidine and glutamic acid.
- Polar amino acids include, but are not limited to, serine, threonine, asparagine, glutamine, histidine and tyrosine.
- the at least one point mutation which increases the water-mediated hydrogen bonding is an aspartic acid.
- the amino acid sequence of the antibody comprises aspartic acid in CDR3 of a variable heavy chain of the antibody (e.g., at position 101 of a variable heavy chain amino acid sequence of the antibody as set forth in SEQ ID NO: 45).
- the amino acid sequence of the antibody comprises a serine, methionine, aspartic acid, proline (i.e. SMDP) sequence in CDR3 of the variable heavy chain of the antibody (e.g., at positions 99-102 of a variable heavy chain amino acid sequence of the antibody as set forth in SEQ ID NO: 45).
- SMDP proline
- the modification to the antibody's amino acid sequence is typically carried out using the minimal number of amino acid alteration in order to increase binding affinity to and optimally inhibit mouse QSOX1 without substantially losing binding affinity to human QSOX1. (i.e. binding affinity which is the same or within one order of magnitude difference, as determined in the same binding assay).
- the antibody generated according to the teachings of some embodiments of the invention is tested for binding of the antibody having the at least one point mutation to QSOX1 of a second species, wherein when the antibody having the at least one point mutation binds QSOX1 of the first species and the second species with substantially the same affinity the antibody is considered having cross reactivity to QSOX1 .
- Selecting antibodies which bind to a first species (e.g., human) QSOX1 and a second species (e.g., mouse) QSOX1. can be carried out using any method known in the art (e.g., by a specific affinity assay using, for example, BiaCore, ELISA or FACS analyses as described in detail hereinabove) as long as the same assay and conditions are used for both species human and murine) QSOX1.
- teachings of the present invention provide for an antibody comprising an antigen recognition domain which binds to human QSOX1 and murine QSOX1.
- an antibody comprising an antigen recognition domain exhibiting species cross reactivity to human QSOX1 and murine QSOX1, the antigen recognition domain comprising complementarity determining regions (CDR) as set forth in SEQ ID NOs: 46-51.
- CDR complementarity determining regions
- the antibody of the present invention is a monoclonal antibody (MAb).
- CDRs 1-3 are located on the light chain of the MAb antibody.
- CDRs 1-3 are located on the heavy chain of the MAb antibody.
- the MAb antibody is MAb492gen.
- the antibody of the present invention is a single chain antibody.
- CDRs 1-3 are located on the light chain of the single chain antibody.
- CDRs 1-3 are located on the heavy chain of the single chain antibody.
- An exemplary single chain antibody which may be used in accordance with the present teachings is scFv492gen.
- scFv492gen comprises CDRs set forth SEQ ID NOs: 46-51.
- the antibody of the present invention is a fragment antigen-binding (Fab) antibody.
- CDRs 1-3 are located on the :light chain of the Fab antibody.
- CDRs 1-3 are located on the heavy chain of the Fab antibody.
- Fab492gen An exemplary Fab antibody which may be used in accordance with the present teachings is Fab492gen.
- Fab492gen comprises CDRs set forth in SEQ ID NOs: 46-51.
- an isolated antibody of the present invention comprises the amino acid sequence as set forth in SEQ ID NOs: 44 and 45.
- the amino acid sequence comprises an amino acid sequence having at least 80%, at least 81%, 82%, 83%, 84%, 85%, 86%, 87%, 88%, 89%, 90%, 91%, 92%, 94%, 95%, 96%, 97%, 98%, 99%, or 100% sequence homology or identity to the peptide set forth in SEQ ID NOs: 44 and 45, wherein the antibody is capable of binding but an QSOX1 and mouse QSOX1 according to the cross reactivity definition.
- Homology can be determined using any homology comparison software, including for example, the BlastP or TBLASTN software of the National Center of Biotechnology Information (NCBI) such as by using default parameters, when starting from a polypeptide sequence; or the tBLASTX algorithm (available via the NCBI) such as by using default parameters, which compares the six-frame conceptual translation products of a nucleotide query sequence (both strands) against a protein sequence database.
- NCBI National Center of Biotechnology Information
- default parameters for tBLASTX include: Max target sequences: 100; Expected threshold: 10; Word size: 3; Max matches in a query range: 0; Scoring parameters: Matrix—BLOSUM62; filters and masking: Filter—low complexity regions.
- the teachings of the present invention also provide for an antibody capable of binding mouse QSOX1.
- an antibody comprising an antigen recognition domain comprising CDRs as set forth in SEQ ID NOs: 26-31, wherein the antibody specifically binds murine QSOX1.
- the antibody capable of binding murine QSOX1. of the present invention is a monoclonal antibody (MAb).
- CDRs 1-3 are located on the light chain of the MAb antibody.
- CDRs 1-3 are located on the heavy chain of the MAb antibody.
- An exemplary monoclonal antibody which may be used in accordance with the present teachings is MAb316.1.
- MAb316.1 comprises CDRs set forth in SEQ ID NOs: 26-31.
- an isolated antibody of the present invention comprises the amino acid sequence as set forth in SEQ ID NOs: 9 and 10.
- the amino acid sequence comprises an amino acid sequence having at least 80%, at least 81%, 82%, 83%, 84%, 85%, 86%, 87%, 88%, 89%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98%, 99%, or 100% sequence homology or identity to the peptide set forth in SEQ ID NOs: 9 and 10. wherein the antibody is capable of binding mouse QSOX1.
- the antibodies and antibody fragments generated according to the teachings of the present invention serve as inhibitors of QSOX1.
- the antibodies or antibody fragments inhibit QSOX1 activity in mediating laminin incorporation in the basement membrane, e.g., laminin assembly that supports cell migration.
- laminin refers to a human laminin protein. Typically laminins are trimeric proteins that contain an ⁇ -chain, a ⁇ -chain, and a ⁇ -chain (found in five, four, and three genetic variants, respectively). Thus, the term laminin as used herein encompasses any type of human laminin, including any of the different chain combinations or any individual subunits of laminin. The different chains and trimer molecules differ with respect to their tissue distribution apparently reflecting diverse functions in vivo. Exemplary laminin subunits of the present invention include, but are not limited to, LAMA1, LAMA2, LAMA3, LAMA4, LAMA5, LAMB1, LAMB2, LAMB3, LAMB4, LAMC1, LAMC2 and LAMC3.
- the laminin comprises an alpha 4 chain.
- the laminin is laminin-411 or laminin- 421.
- laminin assembly refers to the incorporation of laminin proteins into the basal lamina (i.e. one of the layers of the basement membrane). Typically, laminin is secreted from cells fibroblasts, epithelial cells, tumor cells) and is incorporated into cell-associated extracellular matrices where they form independent networks and are associated with type IV collagen networks via entactin, fibronectin and perlecan.
- basement membrane or “laminin-comprising basement membrane” refers to the thin layer of fibers which anchors and supports the epithelium and endothelium and comprises the basal lamina (i.e. comprising laminin).
- inhibiting or preventing laminin assembly refers to reducing, reversing, attenuating, minimizing, suppressing or halting laminin assembly in a basement membrane.
- inhibiting or preventing laminin assembly is by at least about 10%, by at least about 20%, by at least about 30%, by at least about 40%, by at least about 50%, by at least about 60%, by at least about 70%, by at least about 80%, by at least about 90% or by about 100%, as compared to laminin assembly in the absence of the anti-QSOX1 antibody or antibody fragment (as described hereinabove).
- laminin is not incorporated into the basement membrane.
- Laminin which is not incorporated into the basal membrane can be found in soluble form (e.g., in the culture medium of in vitro cultured cells).
- monitoring reduction in laminin assembly can be monitored by e.g., immunofluorescence (IF) staining of the extracellular matrix or by Western blotting of the soluble laminin (i.e, that which was not incorporated into the basal membrane).
- IF immunofluorescence
- the activity of the antibody in inhibiting QSOX1 activity is assayed by at least one of an immunofluorescence (IF) staining assay of the extracellular matrix or Western blot assay for soluble laminin (i.e. that which is not incorporated into the basal membrane, as further described in the Examples section which follows).
- IF immunofluorescence
- inhibiting or preventing laminin assembly may be advantageous in situations in which excess connective tissue is produced in a non-structured manner in an organ or tissue in a reparative or reactive process, such as fibrosis.
- inhibition of QSOX1 and subsequently generation of soluble laminin may be therapeutic for fibrotic processes.
- laminins are an important biologically active part of the basal lamina and basal membrane influencing cell adhesion, signaling, migration, phenotype, differentiation and survival.
- An exemplary cell migration of the present invention comprises tumor cell migration leading to metastasis.
- the cell may comprise, for example, a brain cell, a neuron, a cardiac cell, a muscle cell, a skin cell, a bone cell, a pancreatic cell, a liver cell, a kidney cell, an intestinal cell, a spleen cell, a respiratory cell, a lung cell, a lymphocyte or a monocyte.
- the cell of the present invention may comprise a healthy cell or may alternately comprise a mutated cell (e.g., a tumor cell).
- inhibiting or preventing cell migration refers to reducing, reversing, attenuating, minimizing, suppressing or halting migration of a cell (e.g., tumor cell) via a laminin-comprising basement membrane.
- inhibiting or preventing cell migration is by at least about 10%, by at least about 20%, by at least about 30%, by at least about 40%, by at least about 50 by at least about 60%, by at least about 70%, by at least about 80%, by at least about 90% or by at least about 100%, as compared to cell migration via a laminin-comprising basement membrane in the absence of the anti-QSOX1 antibody or antibody fragment (as described hereinabove).
- cell migration is completely inhibited through the basement membrane.
- the methods of the present invention may be effected in vitro, in vivo or ex vivo.
- the ability to modulate cell migration can be used as a therapeutic modality.
- one specific use for the antibodies of the present invention is for preventing or treating a laminin-associated disease or condition in a subject in need thereof.
- preventing or treating refers to inhibiting or arresting the development of a disease, disorder or condition and/or causing the reduction, remission, or regression of a disease, disorder or condition or keeping a disease, disorder or medical condition from occurring in a subject who may be at risk for the disease disorder or condition, but has not yet been diagnosed as having the disease disorder or condition.
- Those of skill in the art will understand that various methodologies and assays can be used to assess the development of a disease, disorder or condition, and similarly, various methodologies and assays may be used to assess the reduction, remission or regression of a disease, disorder or condition.
- the term “subject” refers to an animal, preferably a mammal, most preferably a human being, including both young and old human beings of both genders who suffer from or are predisposed to a laminin-associated disease or condition.
- laminin-associated disease or condition refers to a disease or condition in which laminin function is associated with the onset or progression of a disease.
- e laminin-associated disease or condition is a tumor.
- tumors include, but are not limited to, carcinoma, blastoma and sarcoma.
- cancerous diseases include, but are not limited to: myeloproliferative diseases, such as solid tumors benign meningioma, mixed tumors of salivary gland, colonic adenomas; adenocarcinomas, such as small cell lung cancer, kidney, uterus, prostate, bladder, ovary, colon, sarcomas, liposarcoma, myxoid, synovial sarcoma, rhabdomyosarcoma (alveolar), extraskeletal myxoid chonodrosarcoma, Ewing's tumor; other include testicular and ovarian dysgerminoma, retinoblastoma, Wilms' tumor, neuroblastoma, malignant melanoma, mesotheliorna, breast, skin, prostate, and ovarian.
- the tumor is a metastasizing solid tumor (e.g., formed by metastatic cancer cells).
- the tumor is an adenocarcinoma.
- the tumor is a cancer.
- Types of cancerous diseases amenable to treatment by the methods of some embodiments of the invention include benign tumors, warts, polyps, pre-cancers, and malignant tumors/cancers.
- cancerous diseases which can be treated using the methods of the present invention include, but are not limited to, tumors of the gastrointestinal tract (colon carcinoma, rectal carcinoma, colorectal carcinoma, colorectal cancer, colorectal adenoma, hereditary nonpolyposis type 1, hereditary nonpolyposis type 2, hereditary nonpolyposis type 3, hereditary nonpolyposis type 6; colorectal cancer, hereditary nonpolyposis type 7, small and/or large bowel carcinoma, esophageal carcinoma, tylosis with esophageal cancer, stomach carcinoma, pancreatic carcinoma, pancreatic endocrine tumors), endometrial carcinoma, dermatofibrosarcoma protuberans, gallbladder carcinoma, Biliary tract tumors, prostate cancer, prostate adenocarcinoma, renal cancer (e.g., Wilms' tumor type 2.
- colon carcinoma rectal carcinoma
- colorectal carcinoma colorectal cancer
- liver cancer e.g., hepatoblastoma, hepatocellular carcinoma, hepatocellular cancer
- bladder cancer embryonal rhabdomyosarcoma, germ cell tumor, trophoblastic tumor, testicular germ cells tumor, immature teratoma of ovary, uterine, epithelial ovarian, sacrococcygeal tumor, choriocarcinoma, placental site trophoblastic tumor, epithelial adult tumor, ovarian carcinoma, serous ovarian cancer, ovarian sex cord tumors, cervical carcinoma, uterine cervix carcinoma, small-cell and non-small cell lung carcinoma, nasopharyngeal, breast carcinoma (e.g., ductal breast cancer, invasive intraductal breast cancer, sporadic; breast cancer, susceptibility to breast cancer, type 4 breast cancer, breast cancer-1, breast cancer-3; breast-ovarian cancer), squamous cell carcinoma (e.g., in head
- the cancers which may be treated in accordance with the present teachings, include but are not limited to, prostate cancer, lung cancer, breast cancer, cervical cancer, urachus cancer, vaginal cancer, colon cancer, esophagus cancer, pancreatic cancer, throat cancer, stomach cancer and myeloid leukemia.
- the laminin-associated disease or condition is associated with fibrosis.
- fibrosis refers to a formation or a presence of excess connective tissue in an organ or tissue. It may occur as a repair or replacement response to a stimulus such as tissue injury or inflammation.
- disorders involving fibrosis include, but are not limited to, liver fibrosis, pulmonary fibrosis, renal fibrosis, pancreatic fibrosis, scleroderma, connective tissue diseases, scarring, skin fibrosis, cardiac fibrosis, organ transplant, vascular stenosis, restenosis, arterial fibrosis, arthrofibrosis, breast fibrosis, muscle fibrosis, retroperitoneal fibrosis, thyroid fibrosis, lymph node fibrosis, bladder fibrosis, pleural fibrosis and COPD.
- the laminin-associated disease or condition is a bacterial disease, a viral disease or a parasitic disease.
- An exemplary parasitic disease which may be treated by the teachings of the present invention includes African trypanosomiasis.
- the subject in order to treat the laminin-associated disease or condition, is administered with the anti-QSOX1 antibody (or antibody fragment) of some embodiments of the invention, as further detailed hereinabove.
- Each of the antibody or antibody fragments described hereinabove can be administered to the individual per se or as part of a pharmaceutical composition which also includes a physiologically acceptable carrier.
- a pharmaceutical composition which also includes a physiologically acceptable carrier.
- the purpose of a pharmaceutical composition is to facilitate administration of the active ingredient to an organism.
- a “pharmaceutical composition” refers to a preparation of one or more of the active ingredients described herein with other chemical components such as physiologically suitable carriers and excipients.
- the purpose of a pharmaceutical composition is to facilitate administration of a compound to an organism.
- active ingredient refers to the anti-QSOX1 antibody or fragment thereof accountable for the biological effect.
- physiologically acceptable carrier and “pharmaceutically acceptable carrier” which may be interchangeably used refer to a carrier or a diluent that does not cause significant irritation to an organism and does not abrogate the biological activity and properties of the administered compound.
- An adjuvant is included under these phrases.
- excipient refers to an inert substance added to a pharmaceutical composition to further facilitate administration of an active ingredient.
- excipients include calcium carbonate, calcium phosphate, various sugars and types of starch, cellulose derivatives, gelatin, vegetable oils and polyethylene glycols.
- Suitable routes of administration may, for example, include oral, rectal, transmucosal , especially transnasal, intestinal or parenteral delivery, including intramuscular, subcutaneous and intramedullary injections as well as intrathecal, direct intraventricular, intracardiac, e.g., into the right or left ventricular cavity, into the common coronary artery, intravenous, intraperitoneal, intranasal, or intraocular injections.
- CNS central nervous system
- neurosurgical strategies intracerebral injection or intracerebroventricular infusion
- molecular manipulation of the agent e.g., production of a chimeric fusion protein that comprises a transport peptide that has an affinity for an endothelial cell surface molecule in combination with an agent that is itself incapable of crossing the BBB
- pharmacological strategies designed to increase the lipid solubility of an agent (e.g., conjugation of water-soluble agents to lipid or cholesterol carriers)
- the transitory disruption of the integrity of the BBB by hyperosmotic disruption results from the infusion of a mannitol solution into the carotid artery or the use of a biologically active agent such as an angiotensin peptide).
- compositions of some embodiments of the invention may be manufactured by processes well known in the art, e.g., by means of conventional mixing, dissolving, granulating, dragee-making, levigating, emulsifying, encapsulating, entrapping or lyophilizing processes.
- compositions for use in accordance with some embodiments of the invention thus may be formulated in conventional manner using one or more physiologically acceptable carriers comprising excipients and auxiliaries, which facilitate processing of the active ingredients into preparations which, can be used pharmaceutically. Proper formulation is dependent upon the route of administration chosen.
- the active ingredients of the pharmaceutical composition may be formulated in aqueous solutions, preferably in physiologically compatible buffers such as Hank's solution, Ringer's solution, or physiological salt buffer.
- physiologically compatible buffers such as Hank's solution, Ringer's solution, or physiological salt buffer.
- penetrants appropriate to the barrier to be permeated are used in the formulation. Such penetrants are generally known in the art.
- the pharmaceutical composition can be formulated readily by combining the active compounds with pharmaceutically acceptable carriers well known in the art.
- Such carriers enable the pharmaceutical composition to be formulated as tablets, pills, dragees, capsules, liquids, gels, syrups, slurries, suspensions, and the like, for oral ingestion by a patient.
- Pharmacological preparations for oral use can be made using a solid excipient, optionally grinding the resulting mixture, and processing the mixture of granules, after adding suitable auxiliaries if desired, to obtain tablets or dragee cores.
- Suitable excipients are, in particular, fillers such as sugars, including lactose, sucrose, mannitol, or sorbitol; cellulose preparations such as, for example, maize starch, wheat starch, rice starch, potato starch, gelatin, gum tragacanth, methyl cellulose, hydroxypropylmethyl-cellulose, sodium carbomethylcellulose; and/or physiologically acceptable polymers such as polyvinylpyrrolidone (PVP).
- disintegrating agents may be added, such as cross-linked polyvinyl pyrrolidone, agar, or alginic acid or a salt thereof such as sodium alginate.
- Dragee cores are provided with suitable coatings.
- suitable coatings For this purpose, concentrated sugar solutions may be used which may optionally contain gum arabic, talc, polyvinyl pyrrolidone, carbopol gel, polyethylene glycol, titanium dioxide, lacquer solutions and suitable organic solvents or solvent mixtures.
- Dyestuffs or pigments may be added to the tablets or dragee coatings for identification or to characterize different combinations of active compound doses.
- compositions which can be used orally include push-fit capsules made of gelatin as well as soft, sealed capsules made of gelatin and a plasticizer, such as glycerol or sorbitol.
- the push-fit capsules may contain the active ingredients in admixture with filler such as lactose, binders such as starches, lubricants such as talc or magnesium stearate and, optionally, stabilizers,
- the active ingredients may be dissolved or suspended in suitable liquids, such as fatty oils, liquid paraffin, or liquid polyethylene glycols.
- stabilizers may be added. All formulations for oral administration should be in dosages suitable for the chosen route of administration.
- compositions may take the form of tablets or lozenges formulated in conventional manner.
- the active ingredients for use according to some embodiments of the invention are conveniently delivered in the form of an aerosol spray presentation from a pressurized pack or a nebulizer with the use of a suitable propellant, e.g., dichlorodifluoromethane, trichlorofluoromethane, dichlorotetrafluoroethane or carbon dioxide.
- a suitable propellant e.g., dichlorodifluoromethane, trichlorofluoromethane, dichlorotetrafluoroethane or carbon dioxide.
- the dosage unit may be determined by providing a valve to deliver a metered amount.
- Capsules and cartridges of, e.g., gelatin for use in a dispenser may be formulated containing a powder mix of the compound and a suitable powder base such as lactose or starch.
- compositions described herein may be formulated for parenteral administration, e.g., by bolus injection or continuous infusion.
- Formulations for injection may be presented in unit dosage form, e.g., in ampoules or in multidose containers with optionally, an added preservative.
- the compositions may be suspensions, solutions or emulsions in oily or aqueous vehicles, and may contain formulatory agents such as suspending, stabilizing and/or dispersing agents.
- compositions for parenteral administration include aqueous solutions of the active preparation in water-soluble form. Additionally, suspensions of the active ingredients may be prepared as appropriate oily or water based injection suspensions. Suitable lipophilic solvents or vehicles include fatty oils such as sesame oil, or synthetic fatty acids esters such as ethyl oleate, triglycerides or liposomes. Aqueous injection suspensions may contain substances, which increase the viscosity of the suspension, such as sodium carboxymethyl cellulose, sorbitol or dextran. Optionally, the suspension may also contain suitable stabilizers or agents which increase the solubility of the active ingredients to allow for the preparation of highly concentrated solutions.
- the active ingredient may be in powder form for constitution with a suitable vehicle, e.g., sterile, pyrogen-free water based solution, before use.
- a suitable vehicle e.g., sterile, pyrogen-free water based solution
- compositions of some embodiments of the invention may also be formulated in rectal compositions such as suppositories or retention enemas, using, e.g., conventional suppository bases such as cocoa butter or other glycerides.
- compositions suitable for use in context of some embodiments of the invention include compositions wherein the active ingredients are contained in an amount effective to achieve the intended purpose. More specifically, a therapeutically effective amount means an amount of active ingredients (anti-QSOX1 antibody or fragment thereof) effective to prevent, alleviate or ameliorate symptoms of a disorder (e.g., laminin-associated disease or condition) or prolong the survival of the subject being treated.
- a therapeutically effective amount means an amount of active ingredients (anti-QSOX1 antibody or fragment thereof) effective to prevent, alleviate or ameliorate symptoms of a disorder (e.g., laminin-associated disease or condition) or prolong the survival of the subject being treated.
- the therapeutically effective amount or dose can be estimated initially from in vitro and cell culture assays.
- a dose can be formulated in animal models to achieve a desired concentration or titer. Such information can be used to more accurately determine useful doses in humans.
- Animal models for laminin-associated diseases include, for example, the murine animal model for liver fibrosis [see e.g., review paper by Hiromitsu Hayashi and Takao Sakail , Amer Journal Physiol - GI (2011)300(5):G729-G738] and the murine animal model for metastatic breast cancer [Anna Fantozzi and Gerhard Christofori, Breast Cancer Research (2006) 8:212].
- Toxicity and therapeutic efficacy of the active ingredients described herein can be determined by standard pharmaceutical procedures in vitro, in cell cultures or experimental animals.
- the data obtained from these in vitro and cell culture assays and animal studies can be used in formulating a range of dosage for use in human.
- the dosage may vary depending upon the dosage form employed and the route of administration utilized.
- the exact formulation, route of administration and dosage can be chosen by the individual physician in view of the patient's condition. (See e.g., Fingl, et al., 1975, in “The Pharmacological Basis of Therapeutics”, Ch. 1 p.1).
- Dosage amount and interval may be adjusted individually to provide the active ingredient at a sufficient amount to induce or suppress the biological effect (minimal effective concentration, MEC).
- MEC minimum effective concentration
- the MEC will vary for each preparation, but can be estimated from in vitro data. Dosages necessary to achieve the MEC will depend on individual characteristics and route of administration. Detection assays can be used to determine plasma concentrations.
- dosing can be of a single or a plurality of administrations, with course of treatment lasting from several days to several weeks or until cure is effected or diminution of the disease state is achieved.
- the antibodies of some embodiments of the invention exhibiting cross-species reactivity (e.g., recognizing both human and mouse QSOX1) are particularly useful for preclinical trials to determine the therapeutic effective amount, toxicity and the efficacy of the antibodies for treatment.
- the anti-mouse QSOX1 antibodies of some embodiments of the invention may also be used for preclinical trials to determine the therapeutic effective amount, toxicity and the efficacy of the antibodies for treatment.
- compositions to be administered will, of course, be dependent on the subject being treated, the severity of the affliction, the manner of administration, the judgment of the prescribing physician, etc.
- compositions of some embodiments of the invention may, if desired, be presented in a pack or dispenser device, such as an FDA approved kit, which may contain one or more unit dosage forms containing the active ingredient.
- the pack may, for example, comprise metal or plastic foil, such as a blister pack.
- the pack or dispenser device may be accompanied by instructions for administration.
- the pack or dispenser may also be accommodated by a notice associated with the container in a form prescribed by a governmental agency regulating the manufacture, use or sale of pharmaceuticals, which notice is reflective of approval by the agency of the form of the compositions or human or veterinary administration. Such notice, for example, may be of labeling approved by the U.S. Food and Drug Administration for prescription drugs or of an approved product insert.
- Compositions comprising a preparation of the invention formulated in a compatible pharmaceutical carrier may also be prepared, placed in an appropriate container, and labeled for treatment of an indicated condition, as is further detailed above.
- the antibody of some embodiments of the invention is used in conjunction with another agent capable of treating a laminin-associated disease or condition in a subject (e.g. tumor).
- the antibody may be administered to the subject prior to, concomitantly with, or following said other agent (e.g. within a time frame of 30 minutes, 1 hour, 2 hours, 4 hours, 6 hours, 12 hours, 24 hours, 36 hours, 48 hours, 3 days, 4 days, 5 days, 6 days, 7 days, 10 days, 14 days, 21 days, 30 days, 60 days, 90 days or 120 days of each other).
- Exemplary agents include, but are not limited to, chemotherapeutic agents (e.g. cytotoxic drugs), hormonal therapeutic agents, radiotherapeutic agents, anti-proliferative agents, and combinations thereof.
- Non-limiting examples of chemotherapeutic agents include, but are not limited to, platinum-based drugs (e.g., oxaliplatin, cisplatin, carboplatin, spiroplatin, iproplatin, satraplatin, etc.), alkylating agents (e.g., cyclophosphamide, ifosfamide, chlorambucil, busulfan, melphalan, mechlorethamine, uramustine, thiotepa, nitrosoureas, etc.), anti-metabolites (e.g., 5-fluorouracil, azathioprine, 6-mercaptopurine, methotrexate, leucovorin, capecitabine, cytarabine, floxuridine, fludarabine, gemcitabine (Gemzar®), pemetrexed (ALIMTA®), raltitrexed, etc.), plant alkaloids (e.g., vincristine, vinblastine
- the chemotherapeutic agent is Doxorubicin.
- the antibody may allow lower doses of chemotherapeutic agents to be used (e.g. doses which are less than the current gold standard), thus minimizing adverse toxicity typically associated with the use of such treatments.
- hormonal therapeutic agents include, but are not limited to, aromatase inhibitors (e.g., aminoglutethimide, anastrozole (Arimidex®), letrozole (Femora®), vorozole, exemestane (Aromasin®), 4-androstene-3,6,17-trione (6-OXO), 1,4,6-androstatrien-3,17-dione (ATD), formestane (Lentaron®), etc.), selective estrogen receptor modulators (e.g., apeledoxifene, clomifene, fulvestrant, lasofoxifene, raloxifene, tamoxifen, toremifene, etc.), steroids (e.g., dexamethasone), finasteride, and gonadotropin-releasing hormone agonists (GnRH) such as goserelin, pharmaceutically acceptable salts thereof, stereoisomers thereof, derivatives thereof, analogs thereof, and combinations thereof.
- Radiation therapy includes, but is not limited to, fractionated radiotherapy, non-fractionated radiotherapy and hyper-fractionated radiotherapy, and combination radiation and chemotherapy.
- Types of radiation also include ionizing (gamma) radiation, particle radiation, low energy transmission (LET), high energy transmission (HET), ultraviolet radiation, infrared radiation, visible light, and photosensitizing radiation.
- anti-proliferative agents include mTOR inhibitors such as sirolimus (rapamycin), temsirolimus (CCI-779), and everolimus (RAD001); Akt inhibitors such as IL6-hydroxymethyl-chiro-inositol-2-(R)-2-O-methyl-3-O-octadecyl-sn-glycer ocarbonate, 9-methoxy-2-methylellipticinium acetate, 1,3-dihydro-1-(1-((4-(6-phenyl-1H-imidazo [4,5-g]quinoxalin-7-yl) phenyl)me-thyl)-4-piperidinyl)-2H-benzimidazol-2-one,10-(4′-(N-diethylamino)butyl) -2-chlorophenoxazine, 3-formylchromone thiosemicarbazone (Cu(II)Cl.sub.2 complex), API-2
- the anti-QSOX1 antibody or antibody fragment of the present invention is capable of specifically binding human QSOX1 and mouse QSOX1, and since QSOX1 levels are elevated in medical conditions associated with laminin (e.g., tumors or fibrosis), such an antibody can be used in assessing the efficiency of treatment (e.g., in preclinical trials prior to human therapeutics).
- a method for in vivo determining the efficiency of an antibody in reducing a laminin-associated disease or condition in a murine animal comprising administering to the murine animal the antibody of some embodiments of the invention and monitoring progression of a laminin-associated disease or condition in the murine animal, thereby determining the efficiency of the antibody.
- in vivo refers to a process occurring within a living organism.
- the organism is a murine animal including a mouse or a rat.
- a murine animal including a mouse or a rat.
- animal models known in the art including e.g., guinea pigs, hamsters, rabbits or gerbils, can be used in accordance with the present teachings.
- the murine animal is a mouse.
- the murine animal can lack all or part of a functional immune system (e.g., SCID mouse) or a full or part of a gene (e.g., knockout mouse or transgenic mouse).
- the murine animal may also be a xenograft animal model (e.g., wherein a graft from another organism e.g., human graft, such as a patient-derived tumor, is engrafted into immunodeficient mice) or and tumor graft animal model (e.g., wherein a tumor, from any source, is engrafted into the animal).
- the murine animal can also be a model in which the disease spontaneously occurs or wherein a tumor is induced by a carcinogen (for further details see e.g., www.emice(dot)nci(dot)nih(dot)gov/aam/mouse/carcinogen-induced -and-spontaneous-mouse-models).
- determining the efficiency refers to monitoring disease progression using the antibody of the invention as compared to disease progression without the use of the antibody.
- efficiency of treatment is determined when a reduction of about 10%, about 20%, about 30%, about 40 %, about 50%, about 60%, about 70%, about 80%, about 90% or about 100% is observed in tumor size, in the number of metastatic lesions (e.g., one lesion), and/or in the number of areas of metastatic lesions (e.g., in the bone, brain, liver, lymph nodes, etc) as compared to disease progression without the use of the antibody.
- efficiency of treatment is determined when a reduction of about 10%, about 20%, about 30%, about 40%, about 50%, about 60%, about 70%, about 80%, about 90% or about 100% is observed in excess connective tissue (in an organ or tissue) as compared to excess connective tissue without the use of the antibody.
- the antibody is administered to the animal (e.g., at different doses and intervals) and disease progression is monitored using any method known in the art, for example, by surgery (e.g., dissecting the animal after a predetermined time), by ultrasound, CT, PET, MRI, by blood test, etc.
- a biological sample may be obtained from the animal and analyzed for disease parameters (e.g., for expression levels of liver peptides, pulmonary peptides, renal peptides, pancreatic peptides, tumor peptides, etc.).
- disease parameters e.g., for expression levels of liver peptides, pulmonary peptides, renal peptides, pancreatic peptides, tumor peptides, etc.
- a biological sample may refer to a sample of tissue or fluid isolated from a subject, including but not limited to, cells (e.g., liver cells, pulmonary cells, renal cells, etc.), tissues, organs, various tumors (e.g., tumor biopsy sample) and fluids such as blood, serum, plasma, lymph, bile fluid, urine, saliva, sputum, synovial fluid, semen, tears, cerebrospinal fluid, bronchioalveolar large fluid, ascites fluid, pus, conditioned medium, and also samples of in vivo cell culture constituents.
- cells e.g., liver cells, pulmonary cells, renal cells, etc.
- tissues e.g., organs, various tumors (e.g., tumor biopsy sample) and fluids such as blood, serum, plasma, lymph, bile fluid, urine, saliva, sputum, synovial fluid, semen, tears, cerebrospinal fluid, bronchioalveolar large fluid, ascites fluid, pus, conditioned medium, and also
- the antibody of some embodiments of the present invention may be attached to a detectable moiety in order to enable detection (e.g., in vivo detection) of the antibody.
- detectable or reporter moieties may be conjugated to the antibody of the invention. These include, but not are limited to, a radioactive isotope (such as [125] iodine), a phosphorescent chemical, a chemiluminescent chemical, a fluorescent chemical (fluorophore), an enzyme, a fluorescent polypeptide, an affinity tag, and molecules (contrast agents) detectable by Positron Emission Tomography (PET) or Magnetic Resonance Imaging (MRI).
- a radioactive isotope such as [125] iodine
- fluorophores examples include, but are not limited to, phycoerythrin (PE), fluorescein isothiocyanate (FITC), Cy-chrome, rhodamine, green fluorescent protein (GFP), blue fluorescent protein (BFP), Texas red, PE-Cy5, and the like.
- PE phycoerythrin
- FITC fluorescein isothiocyanate
- Cy-chrome Cy-chrome
- rhodamine green fluorescent protein
- GFP green fluorescent protein
- BFP blue fluorescent protein
- Texas red PE-Cy5, and the like.
- fluorophore selection methods of linking fluorophores to various types of molecules see Richard P. Haugland, “Molecular Probes: Handbook of Fluorescent Probes and Research Chemicals 1992-4994”, 5th ed., Molecular Probes, Inc. (1994); U.S. Pat. No. 6,037,137 to Oncoimmunin Inc.; Hennanson, “Bioconjugate Techniques”, Academic Press New
- Fluorescence detection methods which can be used to detect the antibody when conjugated to a fluorescent detectable moiety include, for example, fluorescence activated flow cytometry (FACS), immunofluorescence confocal microscopy, fluorescence in-situ hybridization (FISH) and fluorescence resonance energy transfer (FRET).
- FACS fluorescence activated flow cytometry
- FISH fluorescence in-situ hybridization
- FRET fluorescence resonance energy transfer
- enzymes may be attached to the antibody of the invention [e.g., horseradish peroxidase (HPR), beta-galactosidase, and alkaline phosphatase (AP)] and detection of enzyme-conjugated antibodies can be performed using ELISA (e.g., in solution), enzyme-linked immunohistochemical assay (e.g., in a fixed tissue), enzyme-linked chemiluminescence assay (e.g.,, in an electrophoretically separated protein mixture) or other methods known in the art [see Khatkhatay M I. and Desai M., 1999. J Immunoassay 20:151-83; wisdom G B., 1994. Methods Mol Biol.
- HPR horseradish peroxidase
- AP alkaline phosphatase
- the affinity tag (or a member of a binding pair) can be an antigen identifiable by a corresponding antibody [e.g., digoxigenin (DIG) which is identified by an anti-DIG antibody) or a molecule having a high affinity towards the tag [e.g., streptavidin and biotin].
- DIG digoxigenin
- the antibody or the molecule which binds the affinity tag can be fluorescently labeled or conjugated to enzyme as described above.
- a streptavidin or biotin molecule may be attached to the antibody of the invention via the recognition sequence of a biotin protein ligase (e.g., BirA) as described in the Examples section which follows and in Denkberg, G. et al., 2000. Eur. J. Immnunol. 30:3522-3532.
- a streptavidin molecule may be attached to an antibody fragment, such as a single chain Fv, essentially as described in Cloutier S M. et al., 2000. Molecular Immunology 37:1067-1077; Dubel S. et al., 1995.
- Functional moieties such as fluorophores, conjugated to streptavidin are commercially available from essentially all major suppliers of immunofluorescence flow cytometry reagents (for example, Pharmingen or Becton-Dickinson).
- biotin conjugated antibodies are bound to a streptavidin molecule to form a multivalent composition (e.g., a dimer or tetramer form of the antibody).
- Table 1 A provides non-limiting examples of identifiable moieties which can be conjugated to the antibody of the invention.
- the antibody of some embodiments of the invention can be used for in vitro or ex vivo applications e.g., for detection of QSOX1 levels in biological samples).
- the antibody of the invention may be immobilized on to a solid support (e.g., for formation of an immunocomplex between the antibody and QSOX1 proteins in ex vivo or in vitro settings).
- a solid support refers to a non-aqueous matrix to which a reagent of interest (e.g., the antibody of this aspect of the present invention) can adhere.
- solid supports include, but are not limited to, solid supports formed partially or entirely of glass (e.g., controlled pore glass), polysaccharides (e.g., agarose), polyacrylamides, polystyrene, polyvinyl alcohol and silicones.
- the solid support can comprise the well of an assay plate; in others it is a purification column (e.g., an affinity chromatography column).
- This term also includes a discontinuous solid phase of discrete particles, such as those described in U.S. Pat. No. 4,275,149.
- agents described hereinabove may be included in a diagnostic kit/article of manufacture preferably along with appropriate instructions for use and labels indicating FDA approval for use in diagnosing and/or assessing efficiency of treatment of a laminin-associated disease.
- a kit for detecting a level of QSOX1 in a biological sample there is provided a kit for detecting a level of QSOX1 in a biological sample.
- kit can include, for example, at least one container including at least one of the above described diagnostic agents (e.g., antibodies comprising an antigen recognition domain to QSOX1) and an imaging reagent packed in another container (e.g., enzymes, secondary antibodies, buffers, chromogenic substrates, fluorogenic material).
- diagnostic agents e.g., antibodies comprising an antigen recognition domain to QSOX1
- imaging reagent packed in another container (e.g., enzymes, secondary antibodies, buffers, chromogenic substrates, fluorogenic material).
- the kit may also include appropriate buffers and preservatives for improving the shelf-life of the kit.
- kits for preventing or treating a laminin-associated disease or condition there is provided a kit for preventing or treating a laminin-associated disease or condition.
- kit can include, for example, at least one container including at least one of the above described antibodies comprising an antigen recognition domain to QSOX1 and an additional therapeutic agent packed in another container (e.g., chemotherapeutic agents, hormonal therapeutic agents, radiotherapeutic agents, anti--proliferative agents).
- the therapeutic agent e.g., antibody comprising an antigen recognition domain to QSOX1
- the additional therapeutic agent are packed in the same container.
- the kit may also include appropriate buffers and preservatives for improving the shelf-life of the kit.
- compositions, method or structure may include additional ingredients, steps and/or parts, but only if the additional ingredients, steps and/or parts do not materially alter the basic and novel characteristics of the claimed composition, method or structure.
- a compound or “at least one compound” may include a plurality of compounds, including mixtures thereof.
- range format is merely for convenience and brevity and should not be construed as an inflexible limitation on the scope of the invention. Accordingly, the description of a range should be considered to have specifically disclosed all the possible subranges as well as individual numerical values within that range. For example, description of a range such as from 1 to 6 should be considered to have specifically disclosed subranges such as from 1 to 3, from 1 to 4, from 1 to 5, from 2 to 4, from 2 to 6, from 3 to 6 etc., as well as individual numbers within that range, for example, 1, 2, 3, 4, 5, and 6. This applies regardless of the breadth of the range.
- a numerical range is indicated herein, it is meant to include any cited numeral (fractional or integral) within the indicated range.
- the phrases “ranging/ranges between” a first indicate number and a second indicate number and “ranging/ranges from” a first indicate number “to” a second indicate number are used herein interchangeably and are meant to include the first and second indicated numbers and all the fractional and integral numerals therebetween.
- method refers to manners, means, techniques and procedures for accomplishing a given task including, but not limited to, those manners, means, techniques and procedures either known to, or readily developed from known manners, means, techniques and procedures by practitioners of the chemical, pharmacological, biological, biochemical and medical arts.
- HsQSOX1 and MmQSOX1 mutants were made by restriction-free cloning based on the published HsQSOX1 [Grossman I. et al. (2013) J. Mol. Biol. 425: 4366-4378] and MmQSOX1 [Alon A. et al. (2012) Nature 488: 414-418] expression plasmids. MmQSOX1 Trx and MmQSOX1 Erv span residues 36-275 and 289-550, respectively, of Mus musculus QSOX1.
- the RnQSOX1 construct was previously described [Gat Y. et al. (2014) Protein Sci. 23: 1102-1112].
- the CpQSOX1 protein spans residues 34-547 of Cavia porcellus QSOX1.
- a synthetic gene (Genescript) codon-optimized for CpQSOX1 production in E. coil was cloned between the NdeI and BamHI sites of the pET-15b vector (Novagen).
- an AviTag [Kay B et al. (2009) Methods Mol. Biol. 498: 185-196] was added at the carboxy terminus.
- HsQSOX1 [Grossman L et al. (2013), supra] and RnQSOX1. [Gat Y. et al. (2014), supra] were expressed and purified as described. MmQSOX1, MmQSOX1 Erv , and CpQSOX1 were prepared as for HsQSOX1. MmQSOX1 Trx used for crystallization was produced in the BL21 (DE3) E. coli strain. Cells were grown in LB media to OD 600 nm 0.5 at 37° C.
- IPTG Isopropyl-1-thio- ⁇ -D-galactopyranoside
- Eluted protein was further purified by size exclusion chromatography on a Superdex 75 16/60 column in 10 mM Tris buffer, pH 8, 100 mM NaCl. Purified MmQSOX1 Trx was concentrated to 12 mg/ml, and immediately before crystallization was mixed with thrombin (3 units/mg MmQSOX1 Trx ). Biotinylated MmQSOX1 Trx for yeast-surface display screening was co-expressed with an expression plasmid for biotin ligase. Upon induction of protein expression with 500 ⁇ M IPTG, biotin was added to the growth medium at a concentration of 50 ⁇ M, and the cultures were grown for a further 24 hours at 20° C. Purification of biotinylated MmQSOX1 Trx , was as for MmQSOX1 Trx . Biotinylation was verified by ELISA.
- Recombinant mammalian QSOX1 enzymes (100 nM) were assayed with 200 ⁇ M DTT and various MAb492.1 concentrations in a Clarke-type oxygen electrode (Hansatech Instruments) as previously described [Grossman I. et al. (2013), supra]. Reactions were initiated by DTT injection, and oxygen consumption rates were obtained from initial slopes.
- 50 nM enzyme was assayed with 200 ⁇ M DTT, with and without 250 nM antibody. Measurements were performed 3 times, and resulting rates were averaged. For each mutant, the rate in the presence of inhibitory antibody was divided by the rate in the absence of antibody to get percent activity.
- Hybridomas were generated, and supernatants of approximately 1000 clones were screened for MmQSOX1 binding as previously described [Ilani T. et al. (2013) Science 341: 74-76]. Twenty top binders were tested for MmQSOX1 inhibition in the in vitro oxygen consumption assay, in which hybridoma supernatants were mixed with 100 nM MrnQSOX1 and 200 ⁇ m DTT. Two inhibitory clones in addition to three strong binders were chosen for sub-cloning. Each of the sub-clones was tested for binding by ELISA. Approximately 40 sub-clones were chosen for inhibition assays.
- the scFv492.1 construct without the His-tag and thrombin cleavage site [Grossman I. et al, (2013), supra], was cloned between the Ndel and BamHI sites in the yeast display plasmid pETCON [Fleishman S. J. et al. (2011) Science 332: 816-821]. Mutants of scFv492.1 were prepared on the basis of this plasmid by in vivo recombination in EBY100 yeast using the LiAc method. Yeast growth and induction of scFv expression were carried out as previously described [Chao G. et al. (2006) Nat. Protoc.
- yeast were labeled with anti-cMyc, washed, and then labeled with goat anti-mouse IgG1 secondary antibody Alexa fluor 488 conjugate and with biotinylated MmQSOX1 Trx , pre-loaded with streptavidin-APC in a 1:4 molar ratio [Chao G. et al. (2006), supra].
- Small scFv libraries were constructed by fully randomizing specific residue positions (Table 3, below) using the NNS codon. Oligonucleotides with NNS codons in desired positions and wild-type flanking regions were ordered from Sigma. NdeI and BamHI sites were deleted from the N- and C-termini of the scFv construct in the pETCON plasmid and inserted flanking the desired region for randomization. The plasmid was restricted, and the oligonucleotide pool was inserted through in vivo recombination using the LiAc method. In all libraries constructed, the number of colonies obtained was at least an order of magnitude larger than the potential size of the library (20 number of randomized positions ). Libraries were induced and labeled as described above.
- Enrichment of the library constructed in L2 yielded eight clones, which were tested for MmQSOX1 Trx binding separately.
- the enriched L1 sequence was incorporated to the top binder.
- this clone was subjected to epPCR on the entire scFv sequence using the Agilent GeneMorph II Random Mutagenesis kit. Recombination in vivo was performed by electroporation, yielding a library of size 5*10 7 .
- the library was subjected to 3 rounds of selection as described above, recovering scFv492gen.
- scFv492gen The light chain and heavy chain variable regions of scFv492gen were amplified and cloned separately into mammalian expression vectors for human IgG1 antibodies [Tiller T. et al. (2008) J. Immunol. Methods 329: 112-124].
- MAb492gen was expressed by transient co-transfection of the two plasmids in human embryonic kidney (HEK) 293T cells using polyethylenimine. Cell supernatants were collected and replaced with fresh medium every 4 days. Expression and secretion to the medium was verified by western blot.
- MAb492gen was purified from the media using protein G [Ilani T. et al. (2013), supra]. Purified MAb492gen with human constant regions was used for inhibition assays.
- the assays were conducted essentially as previously described [Ilani T. et al. (2013), supra]. Instead of human fibroblasts, mouse fibroblasts were grown for three days in the presence of various antibodies. HEK 293T cells were used as adhering cells.
- MsQSOX1 its fragments, MAb316.1, or MAb947.3 were loaded onto a Superdex 200 column (GE HealthCare) equilibrated with phosphate buffered saline (PBS) at a flow rate of 0.8 mL/min. MsQSOX1-antibody complexes were injected after a 30 min co-incubation at 4° C. Elution of proteins was monitored by absorbance at 280 nm.
- MAb492.1 light chain and heavy chain were amplified from hybridomal cDNA [Grossman I. et al. (2013), supra] and cloned into the MAb492gen expression vectors, separately. Variable regions of scFv492gen were amplified and cloned into these vectors instead of the 492,1 variable regions. A stop codon was inserted after the CH1 segment of the heavy chain, to obtain a coding sequence for a Fab fragment. Fab492gen was expressed and purified as was MAb492gen. The heavy and light variable regions of MAb316.1 were amplified from hybridomal cDNA and cloned separately into the above mentioned MAb492gen expression vectors.
- MAb316.1 was expressed and purified as for MAb492gen.
- Fab316.1 was prepared by papain digestion as previously described [Grossman I. et al. (2013), supra]. Purified Fab492gen or Fab316.1 was mixed with purified MmQSOX1 Trx at a 1:2 ratio for 30 minutes at 4° C. to form complexes, which were purified from excess MmQSOX1 Trx by size-exclusion chromatography. Prior to crystallization the complexes were concentrated to 10 mg/ml.
- Crystals were grown by hanging-drop vapor diffusion at 293 K.
- MmQSOX1 Trx crystals used for seeding were grown over a well solution containing 0.2 M ammonium sulfate, 0.1 M sodium acetate, pH 4.6, 21% w/v polyethylene glycol (PEG) 4 kD. These crystals were crushed and seeded into drops of MmQSOX1 Trx grown over a well solution containing 5% w/v dimethyl suboxide, 0.1 M sodium acetate, pH 4.6, 7 w/v PEG monomethyl ether 2 kD.
- Crystals were transferred to a solution containing 0.1 M sodium acetate, pH 4.6, 15% w/v PEG monomethyl ether 2 kD, 25% glycerol and flash frozen in a nitrogen stream at 100 K. Crystals of the MmQSOX1 Trx -Fab31.6.1 complex were grown over a well solution containing 50 mM ammonium sulfate, 0.1 M bis-tris methane buffer, pH 5.5, 22% w/v PEG 3.35 kD. Crystals were transferred to a solution with the same content and 25% w/v glycerol for freezing.
- Crystals of the MmQSOX1 Trx -Fab492gen complex were grown over a well solution containing 50 mM CaCl 2 , 0.1 M 2-(N-morpholino)ethanesulfonic acid buffer, pH 6, 22.5% w/v PEG 6 kD, and were transferred to the same solution containing 25% w/v glycerol prior to freezing.
- MmQSOX1 Trx , MmQSOX1 Trx -Fab316.1 complex, and MmQSOX1 Trx -Fab492gen complex were collected at 100 K on a RU-H3R generator (Rigaku) equipped with a RaxisIV++ image plate system and Osmic mirrors.
- MmQSOX1 Trx data were collected to 2.05 ⁇ resolution from a crystal of space group P2 1 .
- MmQSOX1 Trx -Fab316.1 complex data were collected to 2.2 ⁇ resolution from a crystal of space group P2 1 2 1 2 1 .
- 4T1 mCherry cells were suspended in Hanks' Balanced Salt Solution at a concentration of 2.5 ⁇ 10 6 cells/ml and mixed 1:1 with Cultrex® Basement Membrane Extract. 250,000 cells were injected into the mammary fat pad of 45 BALB/c female mice. Animals were divided into 5 groups containing 9 animals each (as depicted in Table 1B, below). Treatments were administered by intraperitoneal injection, beginning 3 days after cell injection. Tumor dimensions (x,y,z) were measured with a caliper twice a week. Tumor volumes were calculated according to: x*y*z*6/ ⁇ . Animals were weighed once a week. Twenty days post cell injection all animals were sacrificed by CO 2 asphyxiation. Tumors and lungs were removed into 4% formaldehyde solution and prepared for histology.
- the QS0X1 Inhibitor MAb492.1 is Species-Specific
- MAb492.1 which inhibits HsQSOX1 activity in vitro and in cell culture at a near-stoichiometric concentration [Grossman I. et al. (2013) supra], was tested on other mammalian QSOX1 enzymes to find a suitable model for assessing QSOX1 inhibition in vivo.
- Enzyme activity was assessed in an oxygen consumption assay on the model substrate dithiothreitol (DTT). According to the assay, MAb492.1 had no effect on MmQSOX1, RnQSOX1, or CpQSOX1, even at 1 ⁇ M, a 10:1 molar ratio of antibody to enzyme ( FIG. 2A ).
- HsQSOX1 and MmQSOX1 are the cause of MAb492.1 species specificity
- three MmQSOX1 mutants that mimic HsQSOX1 in distinct positions were constructed.
- MAb492.1 inhibition was tested on these mutants to identify the residues that interfere with MAb492.1-MmQSOX1 complex formation.
- the first mutant, A116P was inhibited by about 60% ( FIG. 2D ), and the second mutant, TLPG(138-141)VFPV, by about 50%.
- the third mutant which comprises both the above mutations, was inhibited by MAb492.1. to the same extent as HsQSOX1 (100%), confirming the identity of residues that determine the specificity of MAb492.1 towards HsQSOX1.
- the species-specificity exhibited by MAb492.1 is a common feature shared by natural monoclonal antibodies. Although differences in antigen structure might be small among orthologs, they are exploited by the immune system to bind the foreign antigen and avoid self-reactivity. In the large antigen surface area buried by antibodies, minor differences between orthologs can cause steric clashes that cannot be remedied by a simple corresponding change in the antibody.
- QSOX1 knock-out (QSOX1.-KO) mice produced in the laboratory were then exploited to generate surrogate antibodies against MmQSOX1, which is a foreign antigen for these animals. Hybridoma supernatants were screened for binding of MmQSOX1 using a standard enzyme-linked immunosorbent assay (ELISA).
- a scFv variant carrying ten mutations in the CDRs achieved by specific rational mutations and consecutive rounds of library sorting and enrichment bound MmQSOX1 Trx on the surface of yeast ( FIG. 3A ). Since mutations in other CDR residues did not improve MmQSOX1 Trx binding further, one round of affinity maturation was performed on the scFv492.1 mutant, for fine-tuning, To this end a gene library (total size of 5*10 7 clones) was constructed by error-prone polymerase chain reaction (epPCR), with an average of three mutations per gene, and subjected the library to three rounds of flow-cytometry selection for MmQSOX1 Trx binding.
- epPCR error-prone polymerase chain reaction
- scFv492gen A mutant with a total of 12 mutations on scFv492.1, designated scFv492gen ( FIG. 3J ), was isolated and characterized, yielding an apparent K d of 65 nM on the surface of yeast ( FIGS. 3K-3L ). Based on the scFv492gen sequence, a recombinant full-length antibody, MAb492gen, was produced in mammalian cells.
- MmQSOX1 inhibition by MAb492gen was next quantified and compared to inhibition by the natural antibody MAb316.1.
- MmQSOX1 activity was measured by the number of free thiols remaining at the end of the oxidation reaction of denatured and reduced RNase A.
- Various MAb492gen concentrations were scanned against two MmQSOX1 concentrations. In both cases the IC 50 values were similar to the MmQSOX1 concentration used in the assay ( FIG. 3B ), indicating tight-binding inhibition.
- MmQSOX1 catalytic activity on DTT was measured using the oxygen consumption assay, providing data that were fitted to a model of tight-binding inhibition [Bieth, J. G.
- MmQSOX1 inhibition by MAb316.1 and MAb492gen was examined in cell culture using two readouts of QSOX1 activity [Macri T. et al. (2013), supra].
- QSOX1 and laminin are secreted front quiescent fibroblasts into the ECM, where QSOX1 promotes laminin incorporation, and consequently the adherence of epithelial cells to the fibroblast monolayer.
- intact laminin networks in the ECM and cell adherence indicate functional QSOX1 activity in the ECM [Ilani T. et al. (2013), supra].
- Inventors first verified that MmQSOX1 is secreted from confluent mouse embryonic fibroblasts (MEFs) ( FIG. 4A ).
- MmQSOX1 Trx bound by MAb492gen takes the conformation of chain B from the unbound MmQSOX1 Trx , in which the TLPG(138-141) loop approaches the CXXC motif.
- MAb492gen differs from MAb492.1 primarily around this QSOX1 Trx region ( FIG. 5B ).
- the complex structure revealed how a combination of relieving steric clashes and introducing new favorable interactions enabled recognition of MmQSOX1.
- CDR H3 is the most variable CDR in sequence and structure among antibodies and is usually responsible for most of the paratope [Xu J. L. and Davis M. M. (2000) Immunity 13: 37-45].
- the YYGS-to-SMDP mutation of CDR H3 in Fab492gen both eliminated a clashing tyrosine and caused a rearrangement of the backbone conformation ( FIGS. 5B and 5F ), resulting in the first significant improvement in binding.
- MAb316.1 Exhibits a New Inhibition Mode of QSOX1
- MAb492.1 and MAb492gen bind the N-terminal QSOX1 Trx domain. Since MAb316.1 was generated in mice injected with full-length MmQSOX1, inventors sought to localize its epitope. Size exclusion chromatography was used to compare the elution profiles of MmQSOX1, or each of its constituent modules, to their elution profiles when mixed with MAb316.1. In size exclusion chromatography, this antibody shifted the elution of both full-length MmQSOX1 and the Trx module to higher apparent molecular weights ( FIG. 6A ). In contrast, migration of the MmQSOX1 Erv module, responsible for the sulthydryl oxidase activity, was not affected, pointing at the Trx module as the MAb316.1 binding region in MmQSOX1.
- MAb316.1 would physically prevent formation of the inter-domain electron-transfer intermediate of MmQSOX1 ( FIG. 6C ), thus interrupting a different step in the catalytic cycle than MAb492.I and MAb492gen (transition from state 2 to 3, rather than 1 to 2 in FIG. 1C ).
- MAb492gen is the only QSOX1 Inhibitory Antibody Cross-Reactive with Mouse and Human Orthologs
- a QSOX1- targeting antibody with dual species specificity, i.e , that inhibits HsQSOX1 as well as MmQSOX1, would be a valuable tool that could be used in animal models, and in turn, with minimal engineering, in clinical trials.
- Inventors therefore tested for MA6492gen and MAb316.1 inhibition of HsQSOX1.
- MAb316.1 up to a concentration of 1 ⁇ M did not inhibit HsQSOX1 ( FIG. 7A ).
- MAb492gen retained tight-binding activity against HsQSOX1, having a Ki value of 1.6 ⁇ 0.6 nM for HsQSOX1 ( FIG. 7B and Table 4, above) compared to 0.9 ⁇ 0.1 nM previously measured for MA6492.1 [Grossman I. et al. (2013), supra].
- MAb492gen accommodates both the TLPG(138-141) loop from MmQSOX1 and presumably the corresponding VFPV(135-138) from HsQSOX1 between its H3, L1, and L2 CDRs, resulting in dual specificity ( FIG. 5F ).
- MAb492gen accommodates both the TLPG(138-141) loop from MmQSOX1 and presumably the corresponding VFPV(135-138) from HsQSOX1 between its H3, L1, and L2 CDRs, resulting in dual specificity ( FIG. 5F ).
- MAb492gen and the species-specific antibodies (MAb492.1 and MAb316.1) is its lower content of tyrosines and other aromatic residues in the CDRs. Tyrosines are highly prevalent and effective in antibody CDRs, where they can make van der Wools, hydrogen bonding, and cation- ⁇ interactions. In MAb492gen, however, three tyrosines were replaced with more flexible residues.
- D101 a charged residue
- CDR H3 CDR H3
- D101 forms water-mediated interactions with the MmQSOX1 TLPG (138-141) loop, while also hydrogen bonding to the light chain ( FIG. 5C ).
- the bulky aromatic residues within the corresponding YYGS sequence of MAb492.1 H3 were apparently unable to accommodate the deviation of MmQSOX1 TLPG(138-141) from HsQSOX1 VFPV(135-138).
- MAb316.1 is Therapeutic in Vivo in a Breast Cancer Murine Model
- Tumor volumes were measured twice a week. Animals were sacrificed after 20 days, and their tumors and lungs were removed for evaluation.
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Abstract
An antibody comprising an antigen recognition domain exhibiting species cross reactivity to human QSOX1 and murine QSOX1 is disclosed. Methods of producing the antibody, pharmaceutical compositions comprising the antibody and methods of using the antibody for treating medical conditions are also disclosed.
Description
- This application is a Division of U.S. patent application Ser. No. 15/961,928 filed on Apr. 25, 2018, which is a Continuation of PCT Patent Application No. PCT/IL2016/051147 having International Filing date of Oct. 25, 2016, which claims the benefit of priority of U.S. Provisional Patent Application No. 62/246,076 filed on Oct. 25, 2015.
- The contents of the above applications are all incorporated by reference as if fully set forth herein in their entirety.
- The ASCII file, entitled 84654SequenceListing.txt, created on Nov. 3, 2020, comprising 77,398 bytes, submitted concurrently with the filing of this application is incorporated herein by reference. The sequence listing submitted herewith is identical to the sequence listing forming part of the international application.
- The present invention, in some embodiments thereof, relates to antibodies targeting QSOX1 including cross-species-specific antibodies, and, more particularly, but not exclusively, to the generation and use of same.
- Monoclonal antibody therapy has become an integral part of cancer diagnostics and treatment. The success of antibody-based therapy stems from the high specificity and affinity that antibodies offer compared to other anti-tumor agents. In addition, tumors express on their cell-surfaces many potential targets for antibody therapeutics. Antibodies supplied extracellularly can both neutralize the function of their cell-surface antigen and recruit the immune system for a more extensive anti-tumor response. Recently, the realization that tumor stroma has a major role in supporting tumor development and metastasis inspired antibody-based cancer therapies targeting extracellular matrix (ECM) components in addition to targeting tumor cells directly. Examples for such agents are antibodies that affect the extracellular glycoprotein tenascin or fibroblast activation protein, found in stromal fibroblasts of most human carcinomas.
- ECM proteins are good candidates for antibody therapy because they are both accessible and abundant in most tissues, making the same ECM components a target in various cancers. A major component of the ECM that is over-expressed, reorganized, and cross-linked in tumorigenesis is collagen. Collagen cross-linking by the enzyme lysyl oxidase (LOX) is increased in several cancers and contributes to matrix stiffening, thereby promoting cell adhesion and migration. Inhibitors of LOX activity, including monoclonal antibodies, significantly inhibited tumor growth and metastasis in gastric carcinoma. Laminin is another abundant scaffolding ECM protein that interacts with integrins to mediate cell adhesion and migration, a requirement for metastasis. Indeed, laminin is over-expressed in various cancers, and its chain isotypes serve as tumor biomarkers. Like collagen cross-linking and integrin blocking, laminin incorporation into the matrix may serve as a complementary target for antibody-based cancer therapeutics.
- Fass D. and co-workers have recently shown that laminin incorporation into the ECM is affected by the disulfide catalyst Quiescin sulfhydryl oxidase 1 (QSOX1) [Ilani, T. et al. (2013) Science 341: 74-76]. The enzyme QSOX1 is a fusion of two thioredoxin (Trx) domains and an Erv-fold sulfhydryl oxidase module (
FIG. 1A ). QSOX1 contains two CXXC motifs as redox-active sites that cooperate to relay electrons from reduced thiols of substrate proteins to molecular oxygen. Mechanistically, after oxidizing the substrate, the Trx active site transfers two electrons to the Erv CXXC motif through an inter-domain disulfide intermediate (FIG. 1C ). The electrons proceed to the adjacent flavin adenine dinucleotide cofactor, which in turn reduces oxygen to hydrogen peroxide, leaving QSOX1 oxidized and ready for another catalytic cycle. Unlike other disulfide catalysts, QSOX1 is localized downstream of the endoplasmic reticulum (ER). It is found in the Golgi apparatus and secreted from quiescent fibroblasts into the ECM, where it affects ECM composition and especially laminin incorporation [Ilani T. et al. (2013), supra]. Specifically, QSOX1 affects the incorporation of laminin isoforms that contain an α4 chain [Ilani T. et al. (2013), supra], a known marker for tumor progression. Together with the over-production of QSOX1 in various adenocarcinomas and associated stroma, these findings point to a possible role of QSOX1 in stimulating tumor cell migration via laminin incorporation. - The multi-step catalytic cycle of QSOX1 implies that obscuring any one of several sites on the protein by interaction with antibody may accomplish inhibition. Fass D. and co-workers have developed an inhibitory monoclonal antibody, MAb492.1, which blocks substrate access to the Trx CXXC redox-active site of human QSOX1 (HsQSOX1) (
FIG. 1B ) [Grossman I. et al. (2013)1 Mol. Biol. 425: 4366-4378]. MAb492.1 efficiently inhibited HsQSOX1 activity, and consequently inhibited adhesion and migration of cancer cells to and through fibroblasts from corresponding tissues [Ilani T. et al. (2013), supra]. Accordingly, MAb492.1 may serve as an anti-metastatic drug in antibody-based cancer therapy. - In certain cases an antibody targeting a human protein is sufficient for pre-clinical trials in animal models due to the availability of xenograft and tumor graft models. However, a major disadvantage of these models is the artificial interaction of the tumor with surrounding tissues. Moreover, eventual recruitment of mouse fibroblasts will create an inhomogeneous tumor microenvironment composed of both mouse and human constituents. Hence, when targeting a secreted protein such as QSOX1, mouse models with a natural organization of murine cancer cells and stroma, such as genetically modified mice that develop spontaneous tumors, may be preferable for studying metastasis development. In such configurations, when targeting an endogenous animal protein, the lead compound e.g., antibody which recognizes the human protein, is often irrelevant.
- U.S. Patent Application no. 20140141015 (to Lake and Katchman) discloses tumor treatment by administering an inhibitor of QSOX1, e.g., an antibody. Specifically, U.S. 20140141015 discloses the use of QSOX1 inhibitors for the treatment of tumors that over-express QSOX1, pancreatic ductal adenocarcinoma (PDA) and breast adenocarcinoma.
- Additional background art includes PCT publication nos. WO 2013/132495 (to Fass et al.), WO 2010/077921 (to Lake et al.) and WO 2010/071787 (to Lake et al.).
- According to an aspect of some embodiments of the present invention there is provided an antibody comprising an antigen recognition domain exhibiting species cross reactivity to human QSOX1 and murine QSOX1.
- According to an aspect of some embodiments of the present invention there is provided an antibody comprising an antigen recognition domain exhibiting species cross reactivity to human QSOX1 and murine QSOX1, the antigen recognition domain comprising complementarity determining regions (CDRs) as set forth in SEQ ID NOs: 46-51.
- According to an aspect of some embodiments of the present invention there is provided a pharmaceutical composition comprising as an active ingredient the antibody of some embodiments of the invention and a pharmaceutically acceptable carrier.
- According to an aspect of some embodiments of the present invention there is to provided a method for preventing or treating a laminin-associated disease or condition in a subject in need thereof, the method comprising administering to the subject a therapeutically effective amount of the pharmaceutical composition of some embodiments of the invention.
- According to an aspect of some embodiments of the present invention there is provided a use of the antibody of some embodiments of the invention for the manufacture of a medicament identified for preventing or treating a laminin-associated disease or condition in a subject in need thereof.
- According to an aspect of some embodiments of the present invention there is provided an article of manufacture comprising the antibody of some embodiments of the invention being packaged in a packaging material and identified in print, in or on the packaging material for use in the treatment of a laminin-associated disease or condition.
- According to an aspect of some embodiments of the present invention there is provided an antibody comprising an antigen recognition domain comprising CDRs as set forth in SEQ ID NOs: 26-31, wherein the antibody specifically binds murine QSOX1.
- According to an aspect of some embodiments of the present invention there is provided a method for in vivo determining the efficiency of an antibody in reducing a laminin-associated disease or condition in a murine animal, the method comprising administering to the murine animal the antibody of some embodiments of the invention and monitoring progression of a laminin-associated disease or condition in the murine animal, thereby determining the efficiency of the antibody.
- According to an aspect of some embodiments of the present invention there is provided an isolated polynucleotide comprising a nucleic acid sequence encoding the antibody of some embodiments of the invention.
- According to an aspect of some embodiments of the present invention there is provided an isolated polynucleotide comprising a nucleic acid sequence encoding an antibody comprising the CDRs set forth in SEQ ID NOs: 46-51.
- According to an aspect of some embodiments of the present invention there is provided an isolated polynucleotide comprising a nucleic acid sequence encoding an antibody comprising the CDRs set forth in SEQ ID NOs: 26-31.
- According to an aspect of some embodiments of the present invention there is provided a method of producing an antibody which comprises an antigen recognition domain exhibiting species cross reactivity to QSOX1, the method comprising: (a) introducing at least one point mutation in the antigen binding domain of an antibody which binds QSOX1 of a first species, which the at least one point mutation increases the water-mediated hydrogen bonding in the interaction interface between the antigen binding domain of the antibody and the QSOX1 of the first species, and alternatively or additionally the at least one point mutation reduces aromatic interactions between the antigen binding domain of the antibody and the QSOX1 of the first species, wherein the at least one point mutation does not substantially affect affinity of the antibody to the QSOX1 of the first species; and (b) testing binding of the antibody having the at least one point mutation to QSOX1 of a second species, wherein when the antibody having the at least one point mutation binds the QSOX1 of the first species and the second species with substantially the same affinity the antibody is considered having cross reactivity to QSOX1.
- According to some embodiments of the invention, the antibody comprises a lower content of aromatic amino acids in CDRs of the antigen recognition domain as compared to that of a species-specific antibody to the human QSOX1.
- According to some embodiments of the invention, the aromatic amino acids comprise tyrosine.
- According to some embodiments of the invention, the antibody comprises at least one charged amino acid in CDR3 of a variable heavy chain of the antibody.
- According to some embodiments of the invention, the charged amino acid comprises aspartic acid.
- According to some embodiments of the invention, the antibody inhibits QSOX1 activity in mediating laminin incorporation in the basement membrane.
- According to some embodiments of the invention, the activity is assayed by at least one of an immunofluorescence (IF) staining assay of the extracellular matrix or western blot assay detecting for soluble laminin.
- According to some embodiments of the invention, the antibody is an antibody fragment.
- According to some embodiments of the invention, the antibody is selected from the group consisting of a Fab fragment, an Fv fragment, a single chain antibody and a single domain antibody.
- According to some embodiments of the invention, the antibody is a monoclonal antibody.
- According to some embodiments of the invention, the monoclonal antibody is MAb492gen and comprises CDRs SEQ ID NOs: 46-51.
- According to some embodiments of the invention, the antibody is a single chain antibody.
- According to some embodiments of the invention, the single chain antibody is seFV492gen and comprises CDRs SEQ ID NOs: 46-51.
- According to some embodiments of the invention, the antibody is humanized.
- According to some embodiments of the invention, the antibody is a chimeric antibody.
- According to some embodiments of the invention, the antibody is immobilized to a solid support.
- According to some embodiments of the invention, the antibody is attached to a detectable moiety.
- According to some embodiments of the invention, the antibody comprises an amino acid sequence as set forth in SEQ ID NOs: 44 and 45.
- According to some embodiments of the invention, the method further comprises administering to the subject a chemotherapeutic agent.
- According to some embodiments of the invention, the use further comprises the use of a chemotherapeutic agent.
- According to some embodiments of the invention, the article of manufacture further comprises a chemotherapeutic agent.
- According to some embodiments of the invention, the laminin-associated disease or condition is a tumor.
- According to some embodiments of the invention, the tumor is a metastasizing solid tumor.
- According to some embodiments of the invention, the tumor is an adenocarcinoma.
- According to some embodiments of the invention, the tumor is a cancer selected from the group consisting of a prostate cancer, a lung cancer, a breast cancer, a cervical cancer, an urachus cancer, a vaginal cancer, a colon cancer, an esophagus cancer, a pancreatic cancer, a throat cancer, a stomach cancer and a myeloid leukemia.
- According to some embodiments of the invention, the laminin-associated disease or condition is associated with fibrosis.
- According to some embodiments of the invention, the amino acid sequence is as set forth in SEQ ID NOs: 9 and 10.
- According to some embodiments of the invention, the antibody is a monoclonal antibody.
- According to some embodiments of the invention, the at least one point mutation is in a CDR sequence of the antibody.
- According to some embodiments of the invention, the at least one point mutation which reduces aromatic interactions is in a tyrosine.
- According to some embodiments of the invention, the at least one point mutation which reduces aromatic interactions comprises an amino acid comprising a flexible side chain.
- According to some embodiments of the invention, the at least one point mutation which increases the water-mediated hydrogen bonding comprises at least one charged amino acid.
- According to some embodiments of the invention, the at least one point mutation which increases the water-mediated hydrogen bonding is an aspartic acid.
- Unless otherwise defined, all technical and/or scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which the invention pertains. Although methods and materials similar or equivalent to those described herein can be used in the practice or testing of embodiments of the invention, exemplary methods and/or materials are described below. In case of conflict, the patent specification, including definitions, will control. In addition, the materials, methods, and examples are illustrative only and are not intended to be necessarily limiting.
- The patent or application file contains at least one drawing executed in color. Copies of this patent or patent application publication with color drawing(s) will be provided by the Office upon request and payment of the necessary fee.
- Some embodiments of the invention are herein described, by way of example only, with reference to the accompanying drawings. With specific reference now to the drawings in detail, it is stressed that the particulars shown are by way of example and for purposes of illustrative discussion of embodiments of the invention. In this regard, the description taken with the drawings makes apparent to those skilled in the art how embodiments of the invention may be practiced.
- In the drawings:
-
FIGS. 1A-1B are schematic illustrations of QSOX1 domain organization and inhibition by MAb492.1.FIG. 1A shows that the two modules of mammalian QSOX1 enzymes are linked by a flexible linker (black). The amino--terminal module, QSOX1Trx, is composed of two Trx-fold domains, the first of which has a redox-active CXXC motif (yellow balls). A second redox-active CXXC motif is located in the carboxy-terminal Erv domain. This domain binds an FAD cofactor (fused hexagons). The domain labeled ψErv is a degenerate Erv domain lacking active-site cysteines and a FAD cofactor; andFIG. 1B shows the surface presentation of a complex of a Fab fragment of Mab492.1 (Fab492.1) and HsQSOX1Trx (PDB code: 4IJ3) showing that Fab492.1 inhibits HsQSOX1 by burying the Trx CXXC active site (yellow spheres). -
FIG. 1C is a schematic illustration of the catalytic cycle of QSOX1 oxidizing two free thiols in a substrate molecule to a disulfide bond, and reducing oxygen to hydrogen peroxide. Different chemical enzyme states in the cycle are designated with numbers 1-5. Instate 3, an inter-domain disulfide requires a conformational change that leads to physical proximity of the two CXXC motifs. Fused yellow balls represent disulfide bonds. Separated yellow bills indicate reduced cysteines. Orange FAD hexagons represent oxidized FAD, whereas yellow hexagons indicate reduced FAD. -
FIGS. 2A-2D illustrate that MAb492.1 is species specific.FIG. 2A shows the turnover numbers of various mammalian QSOX1 enzymes in the absence and presence of 250 nM or 1 μM MAb492.1. Activity was evaluated using an oxygen consumption assay;FIG. 2B shows the sequence alignment of HsQSOX1 and other mammalian QSOX1 orthologs in the region bound by MAb492.1. Residues involved in interactions with MAb492.1 are indicated in bold. Residues from MmQSOX1, RnQSOX1, and CpQSOX1 that differ from the corresponding HsQSOX1 residues are colored red;FIG. 2C shows superposition of the Fab492.1-HsQSOX1Trx complex structure (PDB code: 4IJ3) and the structure of MmQSOX1Trx (PDB code: 5D8I), The two chains of MmQSOX1Trx from the crystal asymmetric unit are light (chain B) and dark (chain A) gray, and HsQSOX1Trx is pink. Right, close-up of the expected clash between CDR H3 and residues TLPG(138-141) from MmQSOX1. Left, close-up of the expected clash between CDR L3 and Asn117 from MmQSOX1. Only chain B of MmQSOX1Trx is shown for simplicity; andFIG. 2D shows the percent activity for different MmQSOX1 mutants in the presence of MAb492.1. Oxygen consumption measurements were conducted with 100 nM enzyme, 250 nM MAb492.1, and 200 μM DTT. Percent activity was calculated according to the results of the same measurements in the absence of antibody. Error bars represent standard deviations from an average of three measurements. -
FIGS. 3A-3I illustrate the evaluation of binding and inhibition constants of antibodies targeting MmQSOX1.FIG. 3A shows histograms of fluorescence (APC-conjugated streptavidin) reporting MmQSOX1Trx binding to the surface of yeast displaying scFv492.1 or a scFv492.1 mutant (mutant d, Table 3). Each histogram represents 50,000 yeast cells. The scFv492.1 mutant shows an increase in APC fluorescence compared to wild-type scFv492.1;FIG. 3B shows a dose-response curve of MAb492gen to 150 or 25 nM MmQSOX1, based on results from a colorimetric assay quantifying RNase A oxidation. The inhibitory activity is expressed as absorbance at 412 nm, representing free thiols that reacted with 5,5′-dithiobis-(2-nitrobenzoic acid). Error bars represent standard deviations from an average of three measurements. The IC50 values were determined by nonlinear regression analysis and yielded values close to the MmQSOX1 concentration;FIG. 3C shows the inhibition curve of MAb492gen to 50 nM MmQSOX1, based on results from oxygen electrode assays at a range of MAb492gen concentrations. Inhibitory activity is expressed as the ratio of the inhibited rate to the uninhibited rate (vi/v0). Error bars represent standard deviations from an average of three measurements. The Ki value was determined by nonlinear regression analysis;FIG. 3D shows the same asFIG. 3C only for MAb316.1;FIGS. 3E-3H show representative images of laminin immunostaining in cultures treated with no antibody (FIG. 3E ), MAb492.1 (FIG. 3F ), MAb316.1 (FIG. 3H ), or MAb492gen (FIG. 3G ). Scale bar is 20 μm, Additional images are presented inFIGS. 4B-4I ; andFIG. 3I shows quantification of adhesion of fluorescently labeled epithelial cells to a mouse fibroblast monolayer grown in the absence or presence of MAb492.1, MAb316.1, or MAb492gen. Error bars are standard error of the mean. Sample images are shown inFIGS. 4J-O . -
FIG. 3J illustrates a sequence alignment of MAb492gen and MAb492.1 variable regions. Mutated residues are colored red. -
FIGS. 3K-3L illustrate histograms of red fluorescence (APC bound to streptavidin) representing MmQSOX1Trx binding at various concentrations to the surface of yeast displaying scFv492gen (FIG. 3K ). Each histogram represents 50,000 yeast cells; andFIG. 3L shows a quantification ofFIG. 3K . For each histogram inFIG. 3K , the mean APC fluorescence was measured and plotted as function of MmQSOX1Trx concentration. Data were fit to a binding isotherm, yielding an apparent Kd of 65±10 nM for MmQSOX1Trx binding on the surface of yeast. -
FIG. 4A illustrates a MmQSOX1 immunoblot with a rabbit polyclonal antibody (dilution 1:1000).Lane 1, recombinant MmQSOX1.Lane 2, the supernatant of confluent mouse fibroblasts, showing that MmQSOX1 is secreted. Recombinant MmQSOX1 is truncated at the carboxy-terminus and so migrates faster than endogenous secreted MmQSOX1. Endogenous MmQSOX1 appears as two bands due to its two splice variants. -
FIGS. 4B-4I illustrate additional representative images of laminin immunostaining, as shown inFIGS. 3E-I . Scale bar is 40 μm. -
FIGS. 4J-4O illustrate representative images of adherent epithelial cells to a MEF monolayer. Fifteen such fields were quantified in each treatment (FIG. 3I ). Scale bar is 100 μm. -
FIGS. 5A-5E are schematic illustrations of the structure of the Fab492gen-MmQSOX1Trx complex.FIG. 5A shows a surface presentation of the Fab492gen-MmQSOX1Trx complex (PDB code: 5D96) showing that Fab492gen binds MmQSOX1 in the same mode as Fab492.1 with respect to HsQSOX1Trx, by burying the Trx CXXC active site (yellow spheres);FIG. 5B shows the top view of MAb492.1 and MAb492gen CDRs. Coloring of Fab492gen chains is as inFIG. 5A . The Fab492gen-MmQSOX1Trx complex was overlaid on the Fab492.1-HsQSOX1Trx complex by aligning MmQSOX1Trx and HsQSOX1Trx;FIG. 5C shows a cartoon presentation of CDRs L2 and H3 in Fab492gen, showing their close interaction. Residues in stick presentation were mutated in the development of Fab492gen from Fab492.1. The dashed black line represents a hydrogen bond.FIGS. 5D-5E show a comparison of the CDR L1-QSOX1Trx interaction in Fab492gen-MmQSOX1Trx and Fab492.1-HsQSOX1Trx complexes. Coloring is as inFIG. 5A and.FIG. 5B . One hydrogen bond is possible between Fab492.1 and HsQSOX1Trx, and none between Fab492.1 and MmQSOX1Trx (FIG. 5D ). Two hydrogen bonds provide interactions in the Fab492gen- MmQSOX1Trx complex (FIG. 5E ). -
FIG. 5F is a schematic illustration showing a comparison of CDR H3 between Fab492.1 and Fab492gen. In addition to the shift in backbone, mutation of Tyr to Met prevents a clash between CDR H3 and MmQSOX1Trx. The position of CDR H3 in Fab492gen enables binding of both MmQSOX1 and HsQOX1. -
FIGS. 6A-6C illustrate that MAb316.1 binds the Trx domain of MmQSOX1.FIG. 6A shows elution profiles of MAb316.1 and MmQSOX1. or its fragments from analytical size-exclusion chromatography. MAb316.1 binds the Trx module;FIG. 6B shows the surface presentation of the Fab316.1-HsQSOX1Trx complex (PDB code: 5D93) showing that Fab316.1 does not bury the CXXC motif, accessible at the complex surface (yellow); andFIG. 6C shows superposition of the Fab31.6.1-HsQSOX1Trx, complex (PDB code: 5D93) and MmQSOX1 C76A/C455S (PDB code: 3T58). Only the variable region of the light chain is shown (gray) from Fab316.1. Yellow spheres represent the interdomain disulfide between the Trx and Erv active-site cysteines. MmQSOX1Erv clashes with the Fab316.1 light chain (black circle), suggesting that Fab316.1 inhibits MmQSOX1 by interfering with formation of the inter-domain electron-transfer intermediate. -
FIGS. 7A-7D illustrate HsQSOX1 inhibition by MAb316.1 and MAb492gen.FIG. 7A shows turnover numbers of HsQSOX1 in the absence and presence of 250 nM or 1 μM MAb316.1. Activity was evaluated using an oxygen consumption assay. Error bars represent standard deviations from an average of three measurements;FIG. 7B shows the inhibition curve of MAb492gen calculated from oxygen electrode assays of 50 nM HsQSOX1 in the presence of various MAb492gen concentrations. Inhibitory activity is expressed as the ratio of the inhibited rate to the uninhibited rate (vi/v0). Error bars represent standard deviations from an average of three measurements. The Ki value was determined by nonlinear regression analysis;FIG. 7C shows the superposition of HsQSOX1Trx (PDB code: 4IJ3, chain a) and Fab316.1-MmQSOX1Trx complex (PDB code: 5D93). Residues that differ in sequence between the two QSOX1Trx orthologs, namely the VFPV(135-138) loop from HsQSOX1 and the corresponding TLPG(138-141) loop from MmQSOX1, are in stick presentation.FIG. 7D shows the percent activity of MmQSOX1, HsQSOX1, and its mutant VFPV(135-138)TLPG, designated TLPG, in the presence of MAb316.1. Measurements were conducted in an oxygen consumption assay with 100 nM enzyme, 250 nM MAb492.1, and 200 μM DTT. Percent activity was calculated according to the results of the same measurements in the absence of antibody. Error bars represent standard deviations from an average of three measurements. -
FIG. 8 illustrates in vivo that treatment with MAb316.1 slows the progression of an aggressive breast cancer in mice. Mice were treated with 15 mg/kg or 30 mg/kg of MAb316.1 and/or with doxorubicin (as described in Table 1B, hereinbelow). Average tumor volumes of the five groups of mice injected with 4T1 cells was monitored. Tumor dimensions were measured twice a week with a caliper. Tumor volume was calculated as: x*y*z*6/π. Error bars represent SEM. - The present invention, in some embodiments thereof, relates to antibodies targeting QSOX1 including cross-species-specific antibodies, and, more particularly, but not exclusively, to the generation and use of same.
- The principles and operation of the present invention may be better understood with reference to the drawings and accompanying descriptions.
- Before explaining at least one embodiment of the invention in detail, it is to be understood that the invention is not necessarily limited in its application to the details set forth in the following description or exemplified by the Examples. The invention is capable of other embodiments or of being practiced or carried out in various ways. Also, it is to be understood that the phraseology and terminology employed herein is for the purpose of description and should not be regarded as limiting.
- The secreted disulfide catalyst Quiescin sulfhydryl oxidase 1 (QSOX1) affects extracellular matrix (ECM) composition and is over-expressed in various adenocarcinomas and associated stroma. Specifically, QSOX1 is found in the Golgi apparatus and is secreted from quiescent fibroblasts into the ECM, where it affects ECM composition and especially laminin incorporation into the basement membrane (BM), a layer of the ECM at the interface between body cavities or blood vessels and underlying stromal fibroblasts.
- Inhibition of extracellular human QSOX1 by a monoclonal antibody has been previously suggested to decrease tumor cell migration, However, the species-specificity of the QSOX1 monoclonal antibody has been a setback in assessing its utility as an anti-metastatic agent in vivo, a common problem in the antibody-therapy industry.
- The introduction of desired properties into monoclonal antibodies is often challenging as such properties may be accomplished on the expense of other properties. The present inventors demonstrated herein the importance of using complex structural information for identifying the specificity determinants in broadening of the antibody specificity. Thus, although human and mouse QSOX1 have a high sequence identity (79%) structural differences are noted between HsQSOX1 and MmQSOX1 which affect species specificity of the antibody. In order to broaden antibody species specificity, the present inventors found that relieving steric clashes between the anti-QSOX1 antibody and its target is necessary but not sufficient to extend binding to a distinct ortholog of the target human QSOX1 and that additional favorable interactions have to be introduced. These interactions are accomplished by altering the association between the heavy and light antibody chains, which recruits CDRs L1 and L2 into the antibody-MmQSOX1 interface. Moreover, dual specificity is enabled by substituting the constrained rings of aromatic residues with more flexible side chains, including those that can participate in water-bridged polar interactions. CDRs that recognize structurally conserved elements are left in their natural state, preserving specificity to QSOX1 antigens.
- Thus, while reducing the present invention to practice, the present inventors have performed a structure-guided modification of the MAb492.1 antibody (which binds human QSOX1) to introduce point mutations rendering the antibody (termed MAb492gen) capable of binding the mouse QSOX1 ortholog. The present inventors have also generated a new anti-QSOX1 inhibitory monoclonal antibody targeting murine QSOX1. These antibodies can be used in in vivo pre-clinical trials overcoming the barriers of species cross-reactivity as well as for various biotechnological applications.
- As is shown herein below and in the Examples section which follows, the present inventors have used structure-guided engineering to expand the antibody species specificity, improving its affinity towards mouse QSOX1 by at least four orders of magnitude (Tables 3 and 4,
FIGS. 3A-3L ). A crystal structure of the re--engineered variant, complexed with its mouse antigen, revealed that the antibody accomplishes dual-species targeting through altered contacts between its heavy and light chains, plus replacement of bulky aromatics by flexible side chains and versatile water-bridged polar interactions (FIGS. 5A-5F ). The to present inventors have also produced an antibody targeting mouse QSOX1, termed MAb316.1, which exhibits a new QSOX1 inhibition mode (Table 2,FIGS. 6A-6C ). Thus, while MAb492.1 and MAb492gen inhibit QSOX1 by blocking substrate access to the Trx CXXC redox-active site (FIG. 1B ), Fab316.1 envelopes the helix containing the Trx redox-active site at its amino terminus but does not block access to the CXXC motif itself (FIG. 6B ). Accordingly, MAb316.1 inhibits QSOX1 by physically preventing formation of the inter-domain electron-transfer intermediate of MmQSOX1 (FIG. 6C ), thus interrupting a different step in the catalytic cycle than MAb492.1 and MAb492gen (transition fromstate 2 to 3, rather than 1 to 2 inFIG. 1C ). - These discoveries provide the framework for generating cross-species-specific antibodies capable of binding and inhibiting mouse and human QSOX1 for pre-clinical trials for better qualifying antibodies for future therapeutic applications.
- Thus, according to one aspect of the present invention there is provided an antibody comprising an antigen recognition domain exhibiting species cross reactivity to human QSOX1 and murine QSOX1.
- As used herein, the term “QSOX1” relates to the
Quiescin Sulfhydryl Oxidase 1. The protein accession number for the long variant of human QSOX1 on the NCBI database is NP_002817 (SEQ ID NO: 3), and the accession number for the short form of human QSOX1 is NP_001004128 (SEQ ID NO: 4). The protein accession number for the long variant of mouse QSOX1 on the NCBI database is NM_001024945.1 (SEQ ID NO: 34), and the accession number for the short form of mouse QSOX1 is NM_023268.2 (SEQ ID NO: 35). - The antibody of the present invention exhibits species cross reactivity to human QSOX1 and murine QSOX1 (e.g., mouse QSOX1).
- The term “species cross reactivity” as used herein refers to binding of the antigen recognition domain described herein to the same target molecule in humans and mice (i.e. QSOX1) with substantially the same affinity (as determined by a specific affinity assay e.g., BiaCore, ELISA). According to one embodiment, the binding of the antigen recognition domain described herein to the same target molecule in humans and mice (i.e. QSOX1) results in the same activity (e.g., inhibition of QSOX1 activity).
- As used herein “substantially the same affinity” refers to a binding affinity which is the same or within one order of magnitude difference, as determined in the same, binding assay.
- According to one embodiment, the affinity of the antibody to human QSOX1 is characterized by a KD of 0.1-100 nM, KD of 0.1-50 nM, KD of 0.1-10 nM, KD of 1-10 nM, KD of 0.1-5 nM, KD of 1-5 nM, KD of 1-3 nM, KD of 1.5-2 nM, or KD of 1.6 nM.
- According to one embodiment, the affinity of the antibody to mouse QSOX1 is characterized by a KD of 0.1-100 nM, KD of 0.1-50 nM, KD of 0.1-10 nM, KD of 1-10 nM, KD of 0.1-5 nM, KD of 1-5 nM, KD of 2-3 nM, KD of 2-2.5 nM, or KD of 2.2 nM.
- Thus, “species cross reactivity” is to be understood as an interspecies reactivity to the same molecule (i.e. QSOX1) of different species, but not to a molecule other than QSOX1.
- Species cross reactivity of an antibody recognizing human QSOX1 and mouse QSOX1 can be determined, for example, by FACS analysis. The FACS analysis is carried out in a way that the respective antibody is tested for binding to the human and mouse QSOX1 proteins. For example, a yeast-surface display may be used for expression of single-chain variable fragments (scFv) of the antibody tested. Binding of scFv displayed on cells to soluble QSOX1 (e.g., human or mouse) can be monitored using FACS analysis, e.g., utilizing streptavidin-APC fluorescence. Alternatively, species cross reactivity may be determined by any other method known in the art, e.g., by ELISA.
- The term “antibody” as used in this invention includes intact molecules as well as functional fragments thereof (such as Fab, F(ab′)2, Fv, scFv, dsFv, or single domain molecules such as VH and VL) that are capable of binding to an epitope of an antigen.
- The term “isolated” refers to at least partially separated from the natural environment e.g., from a hybridoma cell.
- Suitable antibody fragments for practicing some embodiments of the invention include a complementarity-determining region (CDR) of an immunoglobulin light chain (referred to herein as “light chain”), a complementarity-determining region of an immunoglobulin heavy chain (referred to herein as “heavy chain”), a variable region of a light chain, a variable region of a heavy chain, a light chain, a heavy chain, an Fd fragment, and antibody fragments comprising essentially whole variable regions of both light and heavy chains such as an Fv, a single chain Fv (scFv), a disulfide-stabilized Fv (dsFv), an Fab, an Fab′, and an F(ab′)2.
- As used herein, the terms “complementarily-determining region” or “CDR” are used to interchangeably to refer to the antigen binding regions found within the variable region of the heavy and light chain polypeptides. Generally, antibodies comprise three CDRs in each of the VH (CDR HI or HI; CDR H2 or H2; and CDR H3 or H3) and three in each of the VL (CDR LI or LI; CDR L2 or L2; and CDR L3 or L3).
- The identity of the amino acid residues in a particular antibody that make up a variable region or a CDR can be determined using methods well known in the art and include methods such as sequence variability as defined by Kabat et al. (See, e.g., Kabat et al., 1992, Sequences of Proteins of immunological interest, 5th ed., Public Health Service, NIH, Washington D.C.), location of the structural loop regions as defined by Chothia et al. (see, e.g., Chothia et al., Nature 342:877-883, 1989.), a compromise between Kabat and Chothia using Oxford Molecular's AbM antibody modeling software (now Accelrys®, see, Martin et al., 1989, Proc. Natl Acad Sci USA. 86:9268; and world wide web site www(dot)bioinf-org(dot)uk/abs), available complex crystal structures as defined by the contact definition (see MacCallum et al., J. Mol. Biol. 262:732-745, 1996) and the “conformational definition” (see, e.g., Makabe et al., Journal of Biological Chemistry, 283:1156-1166, 2008).
- As used herein, the “variable regions” and “CDRs” may refer to variable regions and CDRs defined by any approach known in the art, including combinations of approaches.
- Functional antibody fragments comprising whole or essentially whole variable regions of both light and heavy chains are defined as follows:
- (i) Fv, defined as a genetically engineered fragment consisting of the variable region of the light chain (VL) and the variable region of the heavy chain (VH) expressed as two chains;
- (ii) single chain Fv (“seFv”), a genetically engineered single chain molecule including the variable region of the light chain and the variable region of the heavy chain, linked by a suitable polypeptide linker as a genetically fused single chain molecule;
- (iii) disulfide-stabilized Fv (“dsFv”), a genetically engineered antibody including the variable region of the light chain and the variable region of the heavy chain, linked by a genetically engineered disulfide bond;
- (iv) Fab, a fragment of an antibody molecule containing a monovalent antigen-binding portion of an antibody molecule which can be obtained by treating whole antibody with the enzyme papain to yield the intact light chain and the Fd fragment of the heavy chain which consists of the variable and CH1 domains thereof;
- (v) Fab′, a fragment of an antibody molecule containing a monovalent antigen-binding portion of an antibody molecule which can be obtained by treating whole antibody with the enzyme pepsin, followed by reduction (two Fab′ fragments are obtained per antibody molecule);
- (vi) F(ab′)2, a fragment of an antibody molecule containing a monovalent antigen-binding portion of an antibody molecule which can be obtained by treating whole antibody with the enzyme pepsin (i.e., a dimer of Fab′ fragments held together by two disulfide bonds); and
- (vii) Single domain antibodies or nanobodies are composed of a single VH or VL domains which exhibit sufficient affinity to the antigen.
- Methods of producing polyclonal and monoclonal antibodies as well as fragments thereof are well known in the art (See for example, Harlow and Lane, Antibodies: A Laboratory Manual, Cold Spring Harbor Laboratory, New York, 1988, incorporated herein by reference).
- Antibody fragments according to some embodiments of the invention can be prepared by proteolytic hydrolysis of the antibody or by expression in E. coli or mammalian cells (e.g., Chinese hamster ovary cell culture or other protein expression systems) of DNA encoding the fragment. Antibody fragments can be obtained by pepsin or papain digestion of whole antibodies by conventional methods. For example, antibody fragments can be produced by enzymatic cleavage of antibodies with pepsin to provide a 5S fragment denoted F(ab′)2. This fragment can be further cleaved using a thiol reducing agent, and optionally a blocking group for the sulfhydryl groups resulting from cleavage of disulfide linkages, to produce 3.5S Fab′ monovalent fragments. Alternatively, an enzymatic cleavage using pepsin produces two monovalent Fab′ fragments and an Fc fragment directly. These methods are described, for example, by Goldenberg, U.S. Pat. Nos. 4,036,945 and 4,331,647, and references contained therein, which patents are hereby incorporated by reference in their entirety. See also Porter, R. R. [Biochem. J. 73: 119-126 (1959)], Other methods of cleaving antibodies, such as separation of heavy chains to form monovalent light-heavy chain fragments, further cleavage of fragments, or other enzymatic, chemical, or genetic techniques may also be used, so long as the fragments bind to the antigen that is recognized by the intact antibody.
- Fv fragments comprise an association of VH and VL chains. This association may be noncovalent, as described in Inbar et al, [Proc. Nat'l Acad. Sci. USA 69:2659-62 (19720]. Alternatively, the variable chains can be linked by an intermolecular disulfide bond or cross-linked by chemicals such as glutaraldehyde. Preferably, the Fv fragments comprise VH and VL chains connected by a peptide linker. These single-chain antigen binding proteins (sFv) are prepared by constructing a structural gene comprising DNA sequences encoding the VH and VL domains connected by an oligonucleotide. The structural gene is inserted into an expression vector, which is subsequently introduced into a host cell such as E. coli. The recombinant host cells synthesize a single polypeptide chain with a linker peptide bridging the two V domains. Methods for producing sFvs are described, for example, by [Whitlow and Filpula, Methods 2: 97-105 (1991); Bird et al., Science 242:423-426 (1988); Pack et al., Bio/Technology 11:1271-77 (1993); and U.S. Pat. No. 4,946,778, which is hereby incorporated by reference in its entirety.
- Another form of an antibody fragment is a peptide coding for a single complementarity-determining region (CDR). CDR peptides (“minimal recognition units”) can be obtained by constructing genes encoding the CDR of an antibody of interest. Such genes are prepared, for example, by using the polymerase chain reaction to synthesize the variable region from RNA of antibody-producing cells. See, for example, Larrick and Fry [Methods, 2:106-10 (1991)].
- Humanized forms of non-human (e.g., murine) antibodies are chimeric molecules of immunoglobulins, immunoglobulin chains or fragments thereof (such as Fv, Fab, Fab′, F(ab′)2 or other antigen-binding subsequences of antibodies) which contain minimal sequence derived from non-human immunoglobulin. Humanized antibodies include human immunoglobulins (recipient antibody) in which residues form a complementary determining region (CDR) of the recipient are replaced by residues from a CDR of a non-human species (donor antibody) such as mouse, rat or rabbit having the desired specificity, affinity and capacity. In some instances, Fv framework residues of the human immunoglobulin are replaced by corresponding non-human residues. Humanized antibodies may also comprise residues which are found neither in the recipient antibody nor in the imported CDR or framework sequences. In general, the humanized antibody will comprise substantially all of at least one, and typically two, variable domains, in which all or substantially all of the CDR regions correspond to (hose of a non-human immunoglobulin and all or substantially all of the FR regions are those of a human immunoglobulin consensus sequence. The humanized antibody optimally also will comprise at least a portion of an immunoglobulin constant region (Fc), typically that of a human immunoglobulin [Jones et al., Nature, 321:522-525 (1986); Riechmann et al., Nature, 332:323-329 (1988); and Presta, Curr. Op. Struct. Biol., 2:593-596 (1992)].
- Methods for humanizing non-human antibodies are well known in the art. Generally, a humanized antibody has one or more amino acid residues introduced into it from a source which is non-human. These non-human amino acid residues are often referred to as import residues, which are typically taken from an import variable domain. Humanization can be essentially performed following the method of Winter and co-workers [Jones et al., Nature, 321:522-525 (1986); Riechmann et al., Nature 332:323-327 (1988); Verhoeyen et al., Science, 239:1534-1536 (1988)], by substituting rodent CDRs or CDR sequences for the corresponding sequences of a human antibody. Accordingly, such humanized antibodies are chimeric antibodies (U.S. Pat. .No. 4,816,567), wherein substantially less than an intact human variable domain has been substituted by the corresponding sequence from a non-human species. In practice, humanized antibodies are typically human antibodies in which some CDR residues and possibly some FR residues are substituted by residues from analogous sites in rodent antibodies.
- Human antibodies can also be produced using various techniques known in the art, including phage display libraries [Hoogenboom and Winter, J. Mol. Biol., 227:381 (1991); Marks et al., J. Mol. Biol., 222:581 (1991)]. The techniques of Cole et al. and Boerner et al. are also available for the preparation of human monoclonal antibodies [Cole et al., Monoclonal Antibodies and Cancer Therapy, Alan R. Liss, p. 77 (1985) and Boemer et al., J. Immunol., 147(1):86-95 (1991)]. Similarly, human antibodies can be made by introduction of human immunoglobulin loci into transgenic animals, e.g., mice in which the endogenous immunoglobulin genes have been partially or completely inactivated. Upon challenge, human antibody production is observed, which closely resembles that seen in humans in all respects, including gene rearrangement, assembly, and antibody repertoire. This approach is described, for example, in U.S. Pat. Nos. 5,545,807; 5,545,806; 5,569,825; 5,625,126; 5,633,425; 5,661,016, and in the following scientific publications: Marks et al., Bio/
Technology 10,: 779-783 (1992); Lonberg et al., Nature 368: 856-859 (1994); Morrison, Nature 368 812-13 (1994); Fishwild et al., Nature Biotechnology 14, 845-51 (1996); Neuberger, Nature Biotechnology 14: 826 (1996); and Lonberg and Huszar, Intern. Rev. Immunol. 13, 65-93 (1995). - According to one embodiment, there is provided a method of producing an antibody which comprises an antigen recognition domain exhibiting species cross reactivity to QSOX1, the method comprising: (a) introducing at least one point mutation in the antigen binding domain of an antibody which binds QSOX1 of a first species, which at least one point mutation increases the water-mediated hydrogen bonding in the interaction interface between the antigen binding domain of the antibody and QSOX1 of the first species, and alternatively or additionally the at least one point mutation reduces aromatic interactions between the antigen binding domain of the antibody and QSOX1 of the first species, wherein the at least one point mutation does not substantially affect affinity of the antibody to QSOX1 of the first species; and (b) testing binding of the antibody having the at least one point mutation to QSOX1 of a second species, wherein when the antibody having the at least one point mutation binds QSOX1 of the first species and the second species with substantially the same affinity the antibody is considered having cross reactivity to QSOX1.
- Accordingly, any antibody which binds a first species (e.g., human) QSOX1 may be used. Such antibodies may be obtained commercially (e.g., from Merck Millipore, Atlas Antibodies, MBL International or Thermo Scientific Pierce Antibodies), or may be produced by any method known in the art, e.g., as described below, provided that their coding sequence can be elucidated.
- According to one embodiment, anti-QSOX1 monoclonal antibodies may be produced e.g., in murine animals, such as in mice, by first immunizing with an emulsion of recombinant human QSOX1 and Complete Freund's adjuvant (e.g., obtained from DifcoLboratories). For instance, mice may be immunized three, four, or five times at intervals of two or three weeks. QSOX1 peptides used for immunization may comprise between 50-100 amino acids, between 50-150 amino acids, between 50-200 amino acids, between 50-232 amino acids, between 100-200 amino acids or between 150-232 amino acids.
- According to one embodiment, immunization can be done using a fragment spanning 33 to 546 of Homo sapiens QSOX1, which comprises all the functional domains of the enzyme.
- According to one embodiment, immunization can be done using a fragment spanning residues 33 to 272 of Homo sapiens QSOX1.
- According to one embodiment, immunization can be done using the Trx module of QSOX1 (e.g., two Trx domains) or using the Erv module of QSOX1 (e.g., two Erv domains).
- According to one embodiment, immunization can be done using the full-length QSOX1.
- Next, spleen cells from selected mice are fused with myeloma cells (e.g., NSO myeloma cells) using polyethylene glycol. Hybridoma cells are then selected by a selection medium (e.g., HAT medium) and supernatants of the cells (i.e. comprising the antibodies) are screened for specific binding to human QSOX1 and/or inhibition thereof.
- In order to generate antibodies with species cross reactivity (e.g., to human and mouse QSOX1), at least one amino acid sequence of the antibody is modified (e.g., by point mutations, deletions and/or insertions), wherein the modification enables functional flexibility, i.e., flexibility in the interaction interface of the antibody with an antigen, enabling interaction with more than one antigen (e.g., QSOX1 of different species).
- As detailed in the Examples section which follows, the amino acid sequence of the antibody may be modified to comprise a lower content of aromatic amino acids (e.g., tyrosines) as compared to that of a species-specific antibody to the human QSOX1. The aromatic amino acids may be replaced by more flexible amino acids (i.e. amino acids comprising flexible side chains). Furthermore, the amino acid of the antibody may be modified to include at least one charged amino acid (i.e., amino acid which comprises a charged residue). It will be appreciated that charged amino acids comprise energetically favorable contact h water and accordingly can participate in water-bridged polar interactions between the antibody and QSOX1.
- Thus, according to one embodiment, in order to generate antibodies with species cross reactivity an antibody recognizing human QSOX1 is modified in at least one amino acid residue.
- According to one embodiment, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12 or more point mutations are generated in the amino acid sequence of the antibody.
- According to one embodiment, the point mutation is generated in the heavy chain of the antibody.
- According to one embodiment, the point mutation is generated in the light chain of the antibody. According to an embodiment, the point mutation may be a plurality of point mutations in the heavy chain and in the light chain of the antibody.
- According to one embodiment, the at least one point mutation is at the antigen binding domain of the antibody.
- According to one embodiment, the at least one point mutation is in a CDR sequence of the antibody.
- According to one embodiment, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12 or more point mutations are generated in CDR sequences of the antibody.
- According to a specific embodiment, a point mutation is generated in the heavy chain variable region of the antibody, e.g., in CDR1 CDR2 and/or CDR3.
- According to specific embodiment, a point mutation is generated in the light chain variable region of the antibody, e.g., in CDR1, CDR2 and/or CDR3.
- According to one embodiment, the at least one point mutation which reduces aromatic interactions is in an aromatic amino acid (e.g. tyrosine). Accordingly, aromatic amino acids within the amino acid sequence of the antibody may be replaced by more flexible amino acids (as discussed in detail below).
- According to one embodiment, the at least one point mutation which reduces aromatic interactions comprises an amino acid comprising a flexible side chain.
- According to one embodiment, the amino acid sequence of the antibody comprises a lower content of aromatic amino acids (e.g., tyrosines) as compared to that of a species-specific antibody to the human QSOX1.
- According to one embodiment, the amino acid sequence of the antibody comprises a lower content of aromatic amino acids (e.g., tyrosines) in CDRs of the antigen recognition domain as compared to that of a species-specific antibody to the human QSOX1.
- A lower content of aromatic amino acids may include 1, 2, 3, 4, or 5 fewer aromatic amino acids (e.g., tyrosines) in the amino acid sequence of the antibody as compared to that of a species-specific antibody to the human QSOX1. (e.g., mAb492.1).
- Aromatic amino acids include, for example, tyrosine, phenylalanine, histidine and tryptophan.
- According to a specific embodiment, the amino acid sequence of the antibody comprises a lower content of tyrosines as compared to that of a species-specific antibody to the human QSOX1.
- According to a specific embodiment, the amino acid sequence of the antibody comprises a lower content of tyrosines in CDRs of the antigen recognition domain as compared to that of a species-specific antibody to the human QSOX1.
- A lower content of tyrosines may include 1, 2, 3, 4, or 5 fewer tyrosines in the amino acid sequence of the antibody as compared to that of a species-specific antibody to the human QSOX1 (e.g., mAb492.1).
- According to another specific embodiment, the amino acid sequence of the antibody comprises a lower content of aromatic amino acids (e.g., tyrosine) in CDR3 of the variable heavy chain of the antibody (as compared to that of a species-specific antibody to the human QSOX1). Additionally or alternatively, the amino acid sequence of the antibody comprises a lower content of aromatic amino acids (e.g., tyrosine) in CDR2 of the variable light chain of the antibody (as compared to that of a species-specific antibody to the human QSOX1).
- According to another specific embodiment, tyrosine at
position 99 of the variable heavy chain of the antibody as set forth in SEQ ID NO: 37 is replaced by a point mutation. - Additionally or alternatively, tyrosine at
position 100 of the variable heavy chain of the antibody as set forth in SEQ ID NO: 37 is replaced by a point mutation. Additionally or alternatively, tyrosine at position 53 of the variable light chain of the antibody as set forth in SEQ ID NO: 36 is replaced by a point mutation. - According to another specific embodiment, aromatic amino acids (e.g., tyrosine) are replaced by more flexible amino acids (i.e. amino acids comprising flexible side chains), including, but not limited to glutamine, methionine, arginine, lysine, aspartate, glutamate, and serine.
- According to another specific embodiment, tyrosine at
position 99 of the variable heavy chain of the antibody as set forth in SEQ ID NO: 37 is replaced by a serine. Additionally or alternatively, tyrosine atposition 100 of the variable heavy chain of the antibody as set forth in SEQ ID NO: 37 is replaced by a methionine. Additionally or alternatively, tyrosine at position 53 of the variable light chain of the antibody as set forth in SEQ ID NO: 36 is replaced by a glutamine. - As discussed above, in order to improve antibody binding to murine QSOX1, the antibody of the invention may alternatively or additionally be modified to include at least one charged amino acid residue.
- According to one embodiment, the at least one point mutation which increases the water-mediated hydrogen bonding comprises at least one charged or polar (e.g. non-charged polar) amino acid.
- According to one embodiment, the amino acid sequence of the antibody comprises at least 1, 2, 3 or more charged or polar amino acids in the amino acid sequence of the antibody as compared to that of a species-specific antibody to human QSOX1 (e.g., mAb492.1).
- According to one embodiment, the amino acid sequence of the antibody comprises at least one charged or polar amino acid in a CDR of the antigen recognition domain of the antibody.
- According to one embodiment, the amino acid sequence of the antibody comprises at least one charged or polar amino acid in CDR3 of a variable heavy chain of the antibody.
- Charged amino acids (i.e. amino acids which comprise a charged residue) include, but are not limited to, lysine, arginine, aspartic acid, histidine and glutamic acid.
- Polar amino acids include, but are not limited to, serine, threonine, asparagine, glutamine, histidine and tyrosine.
- According to one embodiment, the at least one point mutation which increases the water-mediated hydrogen bonding is an aspartic acid.
- According to a specific embodiment, the amino acid sequence of the antibody comprises aspartic acid in CDR3 of a variable heavy chain of the antibody (e.g., at
position 101 of a variable heavy chain amino acid sequence of the antibody as set forth in SEQ ID NO: 45). - According to one embodiment, the amino acid sequence of the antibody comprises a serine, methionine, aspartic acid, proline (i.e. SMDP) sequence in CDR3 of the variable heavy chain of the antibody (e.g., at positions 99-102 of a variable heavy chain amino acid sequence of the antibody as set forth in SEQ ID NO: 45).
- The modification to the antibody's amino acid sequence is typically carried out using the minimal number of amino acid alteration in order to increase binding affinity to and optimally inhibit mouse QSOX1 without substantially losing binding affinity to human QSOX1. (i.e. binding affinity which is the same or within one order of magnitude difference, as determined in the same binding assay).
- In order to select an antibody with species cross reactivity, the antibody generated according to the teachings of some embodiments of the invention is tested for binding of the antibody having the at least one point mutation to QSOX1 of a second species, wherein when the antibody having the at least one point mutation binds QSOX1 of the first species and the second species with substantially the same affinity the antibody is considered having cross reactivity to QSOX1 .
- Selecting antibodies which bind to a first species (e.g., human) QSOX1 and a second species (e.g., mouse) QSOX1. (i.e. species cross reactivity) can be carried out using any method known in the art (e.g., by a specific affinity assay using, for example, BiaCore, ELISA or FACS analyses as described in detail hereinabove) as long as the same assay and conditions are used for both species human and murine) QSOX1.
- Large scale antibodies may then be produced using, for example, a miniPERM bioreactor (Sarstedt) in serum--free medium (DCCM).
- Thus, the teachings of the present invention provide for an antibody comprising an antigen recognition domain which binds to human QSOX1 and murine QSOX1.
- According to one aspect of the invention, there is provided an antibody comprising an antigen recognition domain exhibiting species cross reactivity to human QSOX1 and murine QSOX1, the antigen recognition domain comprising complementarity determining regions (CDR) as set forth in SEQ ID NOs: 46-51.
- According to a specific embodiment, the antibody of the present invention is a monoclonal antibody (MAb).
- According to a specific embodiment, CDRs 1-3 (SEQ ID NOs: 46-48 respectively) are located on the light chain of the MAb antibody.
- According to another specific embodiment, CDRs 1-3 (SEQ ID NOs: 49-51, respectively) are located on the heavy chain of the MAb antibody.
- According to a specific embodiment the MAb antibody is MAb492gen.
- According to another embodiment, the antibody of the present invention is a single chain antibody.
- According to another specific embodiment, CDRs 1-3 (SEQ ID NOs: 46-48, respectively) are located on the light chain of the single chain antibody.
- According to another specific embodiment, CDRs 1-3 (SEQ ID NOs: 49-51, respectively) are located on the heavy chain of the single chain antibody.
- An exemplary single chain antibody which may be used in accordance with the present teachings is scFv492gen.
- According to another embodiment scFv492gen comprises CDRs set forth SEQ ID NOs: 46-51.
- According to another embodiment, the antibody of the present invention is a fragment antigen-binding (Fab) antibody.
- According to another specific embodiment, CDRs 1-3 (SEQ ID NOs: 46-48, respectively) are located on the :light chain of the Fab antibody.
- According to another specific embodiment, CDRs 1-3 (SEQ ID NOs: 49-51, respectively) are located on the heavy chain of the Fab antibody.
- An exemplary Fab antibody which may be used in accordance with the present teachings is Fab492gen.
- According to anther embodiment Fab492gen comprises CDRs set forth in SEQ ID NOs: 46-51.
- According to anther embodiment, an isolated antibody of the present invention comprises the amino acid sequence as set forth in SEQ ID NOs: 44 and 45.
- According to some embodiments of the invention, the amino acid sequence comprises an amino acid sequence having at least 80%, at least 81%, 82%, 83%, 84%, 85%, 86%, 87%, 88%, 89%, 90%, 91%, 92%, 94%, 95%, 96%, 97%, 98%, 99%, or 100% sequence homology or identity to the peptide set forth in SEQ ID NOs: 44 and 45, wherein the antibody is capable of binding but an QSOX1 and mouse QSOX1 according to the cross reactivity definition.
- Homology (e.g., percent homology, identity+similarity) can be determined using any homology comparison software, including for example, the BlastP or TBLASTN software of the National Center of Biotechnology Information (NCBI) such as by using default parameters, when starting from a polypeptide sequence; or the tBLASTX algorithm (available via the NCBI) such as by using default parameters, which compares the six-frame conceptual translation products of a nucleotide query sequence (both strands) against a protein sequence database.
- For example, default parameters for tBLASTX include: Max target sequences: 100; Expected threshold: 10; Word size: 3; Max matches in a query range: 0; Scoring parameters: Matrix—BLOSUM62; filters and masking: Filter—low complexity regions.
- The teachings of the present invention also provide for an antibody capable of binding mouse QSOX1.
- According to one aspect of the invention, there is provided an antibody comprising an antigen recognition domain comprising CDRs as set forth in SEQ ID NOs: 26-31, wherein the antibody specifically binds murine QSOX1.
- According to a specific embodiment, the antibody capable of binding murine QSOX1. of the present invention is a monoclonal antibody (MAb).
- According to a specific embodiment, CDRs 1-3 (SEQ ID NOs: 26-28, respectively) are located on the light chain of the MAb antibody.
- According to a specific embodiment CDRs 1-3 (SEQ ID NOs: 29-31, respectively) are located on the heavy chain of the MAb antibody.
- An exemplary monoclonal antibody which may be used in accordance with the present teachings is MAb316.1.
- According to a specific embodiment, MAb316.1 comprises CDRs set forth in SEQ ID NOs: 26-31.
- According to another embodiment, an isolated antibody of the present invention comprises the amino acid sequence as set forth in SEQ ID NOs: 9 and 10.
- According to some embodiments of the invention, the amino acid sequence comprises an amino acid sequence having at least 80%, at least 81%, 82%, 83%, 84%, 85%, 86%, 87%, 88%, 89%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98%, 99%, or 100% sequence homology or identity to the peptide set forth in SEQ ID NOs: 9 and 10. wherein the antibody is capable of binding mouse QSOX1.
- The antibodies and antibody fragments generated according to the teachings of the present invention serve as inhibitors of QSOX1.
- According to one embodiment of the invention, the antibodies or antibody fragments inhibit QSOX1 activity in mediating laminin incorporation in the basement membrane, e.g., laminin assembly that supports cell migration.
- As used herein, the term “laminin” refers to a human laminin protein. Typically laminins are trimeric proteins that contain an α-chain, a β-chain, and a γ-chain (found in five, four, and three genetic variants, respectively). Thus, the term laminin as used herein encompasses any type of human laminin, including any of the different chain combinations or any individual subunits of laminin. The different chains and trimer molecules differ with respect to their tissue distribution apparently reflecting diverse functions in vivo. Exemplary laminin subunits of the present invention include, but are not limited to, LAMA1, LAMA2, LAMA3, LAMA4, LAMA5, LAMB1, LAMB2, LAMB3, LAMB4, LAMC1, LAMC2 and LAMC3.
- According to an embodiment of the present invention, the laminin comprises an
alpha 4 chain. - According to a specific embodiment, the laminin is laminin-411 or laminin- 421.
- The term “laminin assembly” refers to the incorporation of laminin proteins into the basal lamina (i.e. one of the layers of the basement membrane). Typically, laminin is secreted from cells fibroblasts, epithelial cells, tumor cells) and is incorporated into cell-associated extracellular matrices where they form independent networks and are associated with type IV collagen networks via entactin, fibronectin and perlecan.
- The term “basement membrane” or “laminin-comprising basement membrane” refers to the thin layer of fibers which anchors and supports the epithelium and endothelium and comprises the basal lamina (i.e. comprising laminin).
- The phrase “inhibiting or preventing laminin assembly” refers to reducing, reversing, attenuating, minimizing, suppressing or halting laminin assembly in a basement membrane. According to one embodiment, inhibiting or preventing laminin assembly is by at least about 10%, by at least about 20%, by at least about 30%, by at least about 40%, by at least about 50%, by at least about 60%, by at least about 70%, by at least about 80%, by at least about 90% or by about 100%, as compared to laminin assembly in the absence of the anti-QSOX1 antibody or antibody fragment (as described hereinabove). Thus, according to an embodiment of the invention laminin is not incorporated into the basement membrane.
- Laminin which is not incorporated into the basal membrane can be found in soluble form (e.g., in the culture medium of in vitro cultured cells). Thus, monitoring reduction in laminin assembly can be monitored by e.g., immunofluorescence (IF) staining of the extracellular matrix or by Western blotting of the soluble laminin (i.e, that which was not incorporated into the basal membrane).
- According to an embodiment of the invention, the activity of the antibody in inhibiting QSOX1 activity is assayed by at least one of an immunofluorescence (IF) staining assay of the extracellular matrix or Western blot assay for soluble laminin (i.e. that which is not incorporated into the basal membrane, as further described in the Examples section which follows).
- It will be appreciated that inhibiting or preventing laminin assembly may be advantageous in situations in which excess connective tissue is produced in a non-structured manner in an organ or tissue in a reparative or reactive process, such as fibrosis. Thus, while further reducing the present invention to practice, inhibition of QSOX1 and subsequently generation of soluble laminin may be therapeutic for fibrotic processes.
- It will be appreciated that laminins are an important biologically active part of the basal lamina and basal membrane influencing cell adhesion, signaling, migration, phenotype, differentiation and survival. An exemplary cell migration of the present invention comprises tumor cell migration leading to metastasis.
- Accordingly, inhibiting or preventing laminin assembly may be advantageous in situations in which inhibition of cell migration is warranted. The cell may comprise, for example, a brain cell, a neuron, a cardiac cell, a muscle cell, a skin cell, a bone cell, a pancreatic cell, a liver cell, a kidney cell, an intestinal cell, a spleen cell, a respiratory cell, a lung cell, a lymphocyte or a monocyte. The cell of the present invention may comprise a healthy cell or may alternately comprise a mutated cell (e.g., a tumor cell).
- According to one embodiment, inhibiting or preventing cell migration refers to reducing, reversing, attenuating, minimizing, suppressing or halting migration of a cell (e.g., tumor cell) via a laminin-comprising basement membrane.
- According to one embodiment, inhibiting or preventing cell migration is by at least about 10%, by at least about 20%, by at least about 30%, by at least about 40%, by at least about 50 by at least about 60%, by at least about 70%, by at least about 80%, by at least about 90% or by at least about 100%, as compared to cell migration via a laminin-comprising basement membrane in the absence of the anti-QSOX1 antibody or antibody fragment (as described hereinabove). Thus, according to an embodiment of the invention cell migration is completely inhibited through the basement membrane.
- The methods of the present invention (e.g., inhibiting cell migration) may be effected in vitro, in vivo or ex vivo.
- As mentioned, the ability to modulate cell migration can be used as a therapeutic modality.
- Accordingly, one specific use for the antibodies of the present invention is for preventing or treating a laminin-associated disease or condition in a subject in need thereof.
- The phrase “preventing or treating” refers to inhibiting or arresting the development of a disease, disorder or condition and/or causing the reduction, remission, or regression of a disease, disorder or condition or keeping a disease, disorder or medical condition from occurring in a subject who may be at risk for the disease disorder or condition, but has not yet been diagnosed as having the disease disorder or condition. Those of skill in the art will understand that various methodologies and assays can be used to assess the development of a disease, disorder or condition, and similarly, various methodologies and assays may be used to assess the reduction, remission or regression of a disease, disorder or condition.
- As used herein, the term “subject” refers to an animal, preferably a mammal, most preferably a human being, including both young and old human beings of both genders who suffer from or are predisposed to a laminin-associated disease or condition.
- As used herein, the term “laminin-associated disease or condition” refers to a disease or condition in which laminin function is associated with the onset or progression of a disease.
- According to one embodiment, e laminin-associated disease or condition is a tumor.
- Examples of tumors include, but are not limited to, carcinoma, blastoma and sarcoma. Particular examples of cancerous diseases but are not limited to: myeloproliferative diseases, such as solid tumors benign meningioma, mixed tumors of salivary gland, colonic adenomas; adenocarcinomas, such as small cell lung cancer, kidney, uterus, prostate, bladder, ovary, colon, sarcomas, liposarcoma, myxoid, synovial sarcoma, rhabdomyosarcoma (alveolar), extraskeletal myxoid chonodrosarcoma, Ewing's tumor; other include testicular and ovarian dysgerminoma, retinoblastoma, Wilms' tumor, neuroblastoma, malignant melanoma, mesotheliorna, breast, skin, prostate, and ovarian.
- According to an embodiment, the tumor is a metastasizing solid tumor (e.g., formed by metastatic cancer cells).
- According to an embodiment, the tumor is an adenocarcinoma.
- According to one embodiment the tumor is a cancer.
- Types of cancerous diseases amenable to treatment by the methods of some embodiments of the invention include benign tumors, warts, polyps, pre-cancers, and malignant tumors/cancers.
- Specific examples of cancerous diseases which can be treated using the methods of the present invention include, but are not limited to, tumors of the gastrointestinal tract (colon carcinoma, rectal carcinoma, colorectal carcinoma, colorectal cancer, colorectal adenoma,
hereditary nonpolyposis type 1,hereditary nonpolyposis type 2,hereditary nonpolyposis type 3, hereditary nonpolyposis type 6; colorectal cancer, hereditary nonpolyposis type 7, small and/or large bowel carcinoma, esophageal carcinoma, tylosis with esophageal cancer, stomach carcinoma, pancreatic carcinoma, pancreatic endocrine tumors), endometrial carcinoma, dermatofibrosarcoma protuberans, gallbladder carcinoma, Biliary tract tumors, prostate cancer, prostate adenocarcinoma, renal cancer (e.g., Wilms'tumor type 2. or type 1), liver cancer (e.g., hepatoblastoma, hepatocellular carcinoma, hepatocellular cancer), bladder cancer, embryonal rhabdomyosarcoma, germ cell tumor, trophoblastic tumor, testicular germ cells tumor, immature teratoma of ovary, uterine, epithelial ovarian, sacrococcygeal tumor, choriocarcinoma, placental site trophoblastic tumor, epithelial adult tumor, ovarian carcinoma, serous ovarian cancer, ovarian sex cord tumors, cervical carcinoma, uterine cervix carcinoma, small-cell and non-small cell lung carcinoma, nasopharyngeal, breast carcinoma (e.g., ductal breast cancer, invasive intraductal breast cancer, sporadic; breast cancer, susceptibility to breast cancer, type 4 breast cancer, breast cancer-1, breast cancer-3; breast-ovarian cancer), squamous cell carcinoma (e.g., in head and neck), neurogenic tumor, astrocytoma, ganglioblastoma, neuroblastoma, lymphomas (e.g., Hodgkin's disease, non-Hodgkin's lymphoma, B cell, Burkitt, cutaneous T cell, histiocytic, lymphoblastic, T cell, thymic), gliomas, adenocarcinoma, adrenal tumor, hereditary adrenocortical carcinoma, brain malignancy (tumor), various other carcinomas (e.g., bronchogenic large cell, ductal, Ehrlich-Lettre ascites, epidermoid, large cell, Lewis lung, medullary, mucoepidermoid, oat cell, small cell, spindle cell, spinocellular, transitional cell, undifferentiated, carcinosarcoma, choriocarcinoma, cystadenocarcinoma), ependimoblastoma, epithelioma, erythroleukemia (e.g., Friend, lymphoblast), fibrosarcoma, giant cell tumor, glial tumor, glioblastoma (e.g., multiforme, astrocytorna), glioma hepatoma, heterohybridoma, heteromyeloma, histiocytoma, hybridoma (e.g., B cell), hypernephroma, insulinoma, islet tumor, keratoma, leioniyoblastorna, leiomyosarcoma, leukemia (e.g., acute lymphatic, acute lymphoblastic, acute lymphoblastic pre-B cell, acute lymphoblastic T cell leukemia, acute- megakaryoblastic, monocytic, acute myelogenous, acute myeloid, acute myeloid with eosinophilia, B cell, basophilic, chronic myeloid, chronic, B cell, eosinophilic, Friend, granulocytic or myelocytic, hairy cell, lymphocytic, megakaryoblastic, monocytic, monocytic-macrophage, myeloblastic, myeloid, myelomonocytic, plasma cell, pre-B cell, promyelocytic, subacute, T cell, lymphoid neoplasm, predisposition to myeloid malignancy, acute nonlymphocytic leukemia), lymphosarcoma, melanoma, mammary tumor, mastocytoma, medulloblastoma, mesothelioma, metastatic tumor, monocyte tumor, multiple myeloma, myelodysplastic syndrome, myeloma, nephroblastoma, nervous tissue glial tumor, nervous tissue neuronal tumor, neurinoma, neuroblastoma, oligodendroglioma, osteochondroma, osteomyeloma, osteosarcoma Ewing's), papilloma, transitional cell, pheochromocytoma, pituitary tumor (invasive), plasmacytoma, retinoblastoma, rhabdomyosarcoma, sarcoma (e.g., Ewing's, histiocytic cell, Jensen, osteogenic, reticulum cell), schwannoma, subcutaneous tumor, teratocarcinoma (e.g., pluripotent), teratoma, testicular tumor, thymoma and trichoepithelioma, gastric cancer, fibrosarcoma, glioblastoma multiforme; multiple glomus tumors, Li-Fraumeni syndrome, liposarcoma, lynch cancer family syndrome II, male germ cell tumor, mast cell leukemia, medullary thyroid, multiple meningioma, endocrine neoplasia myxosarcoma, paraganglioma, familial nonchromaffin, pilomatricoma, papillary, familial and sporadic, rhabdoid predisposition syndrome, familial, rhabdoid tumors, soft tissue sarcoma, and Turcot syndrome with glioblastoma. - According to a specific embodiment of this aspect of the present invention, the cancers which may be treated in accordance with the present teachings, include but are not limited to, prostate cancer, lung cancer, breast cancer, cervical cancer, urachus cancer, vaginal cancer, colon cancer, esophagus cancer, pancreatic cancer, throat cancer, stomach cancer and myeloid leukemia.
- According to one embodiment, the laminin-associated disease or condition is associated with fibrosis.
- The term “fibrosis” refers to a formation or a presence of excess connective tissue in an organ or tissue. It may occur as a repair or replacement response to a stimulus such as tissue injury or inflammation.
- Examples of disorders involving fibrosis include, but are not limited to, liver fibrosis, pulmonary fibrosis, renal fibrosis, pancreatic fibrosis, scleroderma, connective tissue diseases, scarring, skin fibrosis, cardiac fibrosis, organ transplant, vascular stenosis, restenosis, arterial fibrosis, arthrofibrosis, breast fibrosis, muscle fibrosis, retroperitoneal fibrosis, thyroid fibrosis, lymph node fibrosis, bladder fibrosis, pleural fibrosis and COPD.
- According to one embodiment, the laminin-associated disease or condition is a bacterial disease, a viral disease or a parasitic disease.
- An exemplary parasitic disease which may be treated by the teachings of the present invention includes African trypanosomiasis.
- According to the present teachings, in order to treat the laminin-associated disease or condition, the subject is administered with the anti-QSOX1 antibody (or antibody fragment) of some embodiments of the invention, as further detailed hereinabove.
- Each of the antibody or antibody fragments described hereinabove can be administered to the individual per se or as part of a pharmaceutical composition which also includes a physiologically acceptable carrier. The purpose of a pharmaceutical composition is to facilitate administration of the active ingredient to an organism.
- As used herein a “pharmaceutical composition” refers to a preparation of one or more of the active ingredients described herein with other chemical components such as physiologically suitable carriers and excipients. The purpose of a pharmaceutical composition is to facilitate administration of a compound to an organism.
- Herein the term “active ingredient” refers to the anti-QSOX1 antibody or fragment thereof accountable for the biological effect.
- Hereinafter, the phrases “physiologically acceptable carrier” and “pharmaceutically acceptable carrier” which may be interchangeably used refer to a carrier or a diluent that does not cause significant irritation to an organism and does not abrogate the biological activity and properties of the administered compound. An adjuvant is included under these phrases.
- Herein the term “excipient” refers to an inert substance added to a pharmaceutical composition to further facilitate administration of an active ingredient. Examples, without limitation, of excipients include calcium carbonate, calcium phosphate, various sugars and types of starch, cellulose derivatives, gelatin, vegetable oils and polyethylene glycols.
- Techniques for formulation and administration of drugs may be found in “Remington's Pharmaceutical Sciences,” Mack Publishing Co., Easton, Pa., latest edition, which is incorporated herein by reference.
- Suitable routes of administration may, for example, include oral, rectal, transmucosal , especially transnasal, intestinal or parenteral delivery, including intramuscular, subcutaneous and intramedullary injections as well as intrathecal, direct intraventricular, intracardiac, e.g., into the right or left ventricular cavity, into the common coronary artery, intravenous, intraperitoneal, intranasal, or intraocular injections.
- Conventional approaches for drug delivery to the central nervous system (CNS) include: neurosurgical strategies intracerebral injection or intracerebroventricular infusion); molecular manipulation of the agent (e.g., production of a chimeric fusion protein that comprises a transport peptide that has an affinity for an endothelial cell surface molecule in combination with an agent that is itself incapable of crossing the BBB) in an attempt to exploit one of the endogenous transport pathways of the BBB; pharmacological strategies designed to increase the lipid solubility of an agent (e.g., conjugation of water-soluble agents to lipid or cholesterol carriers); and the transitory disruption of the integrity of the BBB by hyperosmotic disruption (resulting from the infusion of a mannitol solution into the carotid artery or the use of a biologically active agent such as an angiotensin peptide).
- Alternately, one may administer the pharmaceutical composition in a local rather than systemic manner, for example, via injection of the pharmaceutical composition directly into a tissue region of a patient.
- Pharmaceutical compositions of some embodiments of the invention may be manufactured by processes well known in the art, e.g., by means of conventional mixing, dissolving, granulating, dragee-making, levigating, emulsifying, encapsulating, entrapping or lyophilizing processes.
- Pharmaceutical compositions for use in accordance with some embodiments of the invention thus may be formulated in conventional manner using one or more physiologically acceptable carriers comprising excipients and auxiliaries, which facilitate processing of the active ingredients into preparations which, can be used pharmaceutically. Proper formulation is dependent upon the route of administration chosen.
- For injection, the active ingredients of the pharmaceutical composition may be formulated in aqueous solutions, preferably in physiologically compatible buffers such as Hank's solution, Ringer's solution, or physiological salt buffer. For transmucosal administration, penetrants appropriate to the barrier to be permeated are used in the formulation. Such penetrants are generally known in the art.
- For oral administration, the pharmaceutical composition can be formulated readily by combining the active compounds with pharmaceutically acceptable carriers well known in the art. Such carriers enable the pharmaceutical composition to be formulated as tablets, pills, dragees, capsules, liquids, gels, syrups, slurries, suspensions, and the like, for oral ingestion by a patient. Pharmacological preparations for oral use can be made using a solid excipient, optionally grinding the resulting mixture, and processing the mixture of granules, after adding suitable auxiliaries if desired, to obtain tablets or dragee cores. Suitable excipients are, in particular, fillers such as sugars, including lactose, sucrose, mannitol, or sorbitol; cellulose preparations such as, for example, maize starch, wheat starch, rice starch, potato starch, gelatin, gum tragacanth, methyl cellulose, hydroxypropylmethyl-cellulose, sodium carbomethylcellulose; and/or physiologically acceptable polymers such as polyvinylpyrrolidone (PVP). If desired, disintegrating agents may be added, such as cross-linked polyvinyl pyrrolidone, agar, or alginic acid or a salt thereof such as sodium alginate.
- Dragee cores are provided with suitable coatings. For this purpose, concentrated sugar solutions may be used which may optionally contain gum arabic, talc, polyvinyl pyrrolidone, carbopol gel, polyethylene glycol, titanium dioxide, lacquer solutions and suitable organic solvents or solvent mixtures. Dyestuffs or pigments may be added to the tablets or dragee coatings for identification or to characterize different combinations of active compound doses.
- Pharmaceutical compositions which can be used orally, include push-fit capsules made of gelatin as well as soft, sealed capsules made of gelatin and a plasticizer, such as glycerol or sorbitol. The push-fit capsules may contain the active ingredients in admixture with filler such as lactose, binders such as starches, lubricants such as talc or magnesium stearate and, optionally, stabilizers, In soft capsules, the active ingredients may be dissolved or suspended in suitable liquids, such as fatty oils, liquid paraffin, or liquid polyethylene glycols. In addition, stabilizers may be added. All formulations for oral administration should be in dosages suitable for the chosen route of administration.
- For buccal administration, the compositions may take the form of tablets or lozenges formulated in conventional manner.
- For administration by nasal inhalation, the active ingredients for use according to some embodiments of the invention are conveniently delivered in the form of an aerosol spray presentation from a pressurized pack or a nebulizer with the use of a suitable propellant, e.g., dichlorodifluoromethane, trichlorofluoromethane, dichlorotetrafluoroethane or carbon dioxide. In the case of a pressurized aerosol, the dosage unit may be determined by providing a valve to deliver a metered amount. Capsules and cartridges of, e.g., gelatin for use in a dispenser may be formulated containing a powder mix of the compound and a suitable powder base such as lactose or starch.
- The pharmaceutical composition described herein may be formulated for parenteral administration, e.g., by bolus injection or continuous infusion. Formulations for injection may be presented in unit dosage form, e.g., in ampoules or in multidose containers with optionally, an added preservative. The compositions may be suspensions, solutions or emulsions in oily or aqueous vehicles, and may contain formulatory agents such as suspending, stabilizing and/or dispersing agents.
- Pharmaceutical compositions for parenteral administration include aqueous solutions of the active preparation in water-soluble form. Additionally, suspensions of the active ingredients may be prepared as appropriate oily or water based injection suspensions. Suitable lipophilic solvents or vehicles include fatty oils such as sesame oil, or synthetic fatty acids esters such as ethyl oleate, triglycerides or liposomes. Aqueous injection suspensions may contain substances, which increase the viscosity of the suspension, such as sodium carboxymethyl cellulose, sorbitol or dextran. Optionally, the suspension may also contain suitable stabilizers or agents which increase the solubility of the active ingredients to allow for the preparation of highly concentrated solutions.
- Alternatively, the active ingredient may be in powder form for constitution with a suitable vehicle, e.g., sterile, pyrogen-free water based solution, before use.
- The pharmaceutical composition of some embodiments of the invention may also be formulated in rectal compositions such as suppositories or retention enemas, using, e.g., conventional suppository bases such as cocoa butter or other glycerides.
- Pharmaceutical compositions suitable for use in context of some embodiments of the invention include compositions wherein the active ingredients are contained in an amount effective to achieve the intended purpose. More specifically, a therapeutically effective amount means an amount of active ingredients (anti-QSOX1 antibody or fragment thereof) effective to prevent, alleviate or ameliorate symptoms of a disorder (e.g., laminin-associated disease or condition) or prolong the survival of the subject being treated.
- Determination of a therapeutically effective amount is well within the capability of those skilled in the art, especially in light of the detailed disclosure provided herein.
- For any preparation used in the methods of the invention, the therapeutically effective amount or dose can be estimated initially from in vitro and cell culture assays. For example, a dose can be formulated in animal models to achieve a desired concentration or titer. Such information can be used to more accurately determine useful doses in humans.
- Animal models for laminin-associated diseases include, for example, the murine animal model for liver fibrosis [see e.g., review paper by Hiromitsu Hayashi and Takao Sakail , Amer Journal Physiol-GI(2011)300(5):G729-G738] and the murine animal model for metastatic breast cancer [Anna Fantozzi and Gerhard Christofori, Breast Cancer Research (2006) 8:212].
- Toxicity and therapeutic efficacy of the active ingredients described herein can be determined by standard pharmaceutical procedures in vitro, in cell cultures or experimental animals. The data obtained from these in vitro and cell culture assays and animal studies can be used in formulating a range of dosage for use in human. The dosage may vary depending upon the dosage form employed and the route of administration utilized. The exact formulation, route of administration and dosage can be chosen by the individual physician in view of the patient's condition. (See e.g., Fingl, et al., 1975, in “The Pharmacological Basis of Therapeutics”, Ch. 1 p.1).
- Dosage amount and interval may be adjusted individually to provide the active ingredient at a sufficient amount to induce or suppress the biological effect (minimal effective concentration, MEC). The MEC will vary for each preparation, but can be estimated from in vitro data. Dosages necessary to achieve the MEC will depend on individual characteristics and route of administration. Detection assays can be used to determine plasma concentrations.
- Depending on the severity and responsiveness of the condition to be treated, dosing can be of a single or a plurality of administrations, with course of treatment lasting from several days to several weeks or until cure is effected or diminution of the disease state is achieved.
- It will be appreciated that the antibodies of some embodiments of the invention exhibiting cross-species reactivity (e.g., recognizing both human and mouse QSOX1) are particularly useful for preclinical trials to determine the therapeutic effective amount, toxicity and the efficacy of the antibodies for treatment. Furthermore, the anti-mouse QSOX1 antibodies of some embodiments of the invention may also be used for preclinical trials to determine the therapeutic effective amount, toxicity and the efficacy of the antibodies for treatment.
- The amount of a composition to be administered will, of course, be dependent on the subject being treated, the severity of the affliction, the manner of administration, the judgment of the prescribing physician, etc.
- Compositions of some embodiments of the invention may, if desired, be presented in a pack or dispenser device, such as an FDA approved kit, which may contain one or more unit dosage forms containing the active ingredient. The pack may, for example, comprise metal or plastic foil, such as a blister pack. The pack or dispenser device may be accompanied by instructions for administration. The pack or dispenser may also be accommodated by a notice associated with the container in a form prescribed by a governmental agency regulating the manufacture, use or sale of pharmaceuticals, which notice is reflective of approval by the agency of the form of the compositions or human or veterinary administration. Such notice, for example, may be of labeling approved by the U.S. Food and Drug Administration for prescription drugs or of an approved product insert. Compositions comprising a preparation of the invention formulated in a compatible pharmaceutical carrier may also be prepared, placed in an appropriate container, and labeled for treatment of an indicated condition, as is further detailed above.
- According to one embodiment, the antibody of some embodiments of the invention is used in conjunction with another agent capable of treating a laminin-associated disease or condition in a subject (e.g. tumor). In such cases, the antibody may be administered to the subject prior to, concomitantly with, or following said other agent (e.g. within a time frame of 30 minutes, 1 hour, 2 hours, 4 hours, 6 hours, 12 hours, 24 hours, 36 hours, 48 hours, 3 days, 4 days, 5 days, 6 days, 7 days, 10 days, 14 days, 21 days, 30 days, 60 days, 90 days or 120 days of each other).
- Exemplary agents include, but are not limited to, chemotherapeutic agents (e.g. cytotoxic drugs), hormonal therapeutic agents, radiotherapeutic agents, anti-proliferative agents, and combinations thereof.
- Non-limiting examples of chemotherapeutic agents include, but are not limited to, platinum-based drugs (e.g., oxaliplatin, cisplatin, carboplatin, spiroplatin, iproplatin, satraplatin, etc.), alkylating agents (e.g., cyclophosphamide, ifosfamide, chlorambucil, busulfan, melphalan, mechlorethamine, uramustine, thiotepa, nitrosoureas, etc.), anti-metabolites (e.g., 5-fluorouracil, azathioprine, 6-mercaptopurine, methotrexate, leucovorin, capecitabine, cytarabine, floxuridine, fludarabine, gemcitabine (Gemzar®), pemetrexed (ALIMTA®), raltitrexed, etc.), plant alkaloids (e.g., vincristine, vinblastine, vinorelbine, vindesine, podophyllotoxin, paclitaxel (Taxol®), docetaxel (Taxotere®), etc.), topoisomerase inhibitors (e.g., irinotecan, topotecan, amsacrine, etoposide (VP16), etoposide phosphate, teniposide, etc.), antitumor antibiotics (e.g., doxorubicin, adriamycin, daunorubicin, epirubicin, actinomycin, Neomycin, mitomycin, mitoxantrone, plicamycin, etc.), pharmaceutically acceptable salts thereof, stereoisomers thereof, derivatives thereof, analogs thereof, and combinations thereof.
- According to a specific embodiment the chemotherapeutic agent is Doxorubicin.
- It will be appreciated that the antibody may allow lower doses of chemotherapeutic agents to be used (e.g. doses which are less than the current gold standard), thus minimizing adverse toxicity typically associated with the use of such treatments.
- Examples of hormonal therapeutic agents include, but are not limited to, aromatase inhibitors (e.g., aminoglutethimide, anastrozole (Arimidex®), letrozole (Femora®), vorozole, exemestane (Aromasin®), 4-androstene-3,6,17-trione (6-OXO), 1,4,6-androstatrien-3,17-dione (ATD), formestane (Lentaron®), etc.), selective estrogen receptor modulators (e.g., bazedoxifene, clomifene, fulvestrant, lasofoxifene, raloxifene, tamoxifen, toremifene, etc.), steroids (e.g., dexamethasone), finasteride, and gonadotropin-releasing hormone agonists (GnRH) such as goserelin, pharmaceutically acceptable salts thereof, stereoisomers thereof, derivatives thereof, analogs thereof, and combinations thereof.
- Radiation therapy includes, but is not limited to, fractionated radiotherapy, non-fractionated radiotherapy and hyper-fractionated radiotherapy, and combination radiation and chemotherapy. Types of radiation also include ionizing (gamma) radiation, particle radiation, low energy transmission (LET), high energy transmission (HET), ultraviolet radiation, infrared radiation, visible light, and photosensitizing radiation.
- Exemplary anti-proliferative agents include mTOR inhibitors such as sirolimus (rapamycin), temsirolimus (CCI-779), and everolimus (RAD001); Akt inhibitors such as IL6-hydroxymethyl-chiro-inositol-2-(R)-2-O-methyl-3-O-octadecyl-sn-glycer ocarbonate, 9-methoxy-2-methylellipticinium acetate, 1,3-dihydro-1-(1-((4-(6-phenyl-1H-imidazo [4,5-g]quinoxalin-7-yl) phenyl)me-thyl)-4-piperidinyl)-2H-benzimidazol-2-one,10-(4′-(N-diethylamino)butyl) -2-chlorophenoxazine, 3-formylchromone thiosemicarbazone (Cu(II)Cl.sub.2 complex), API-2, a 15-mer peptide derived from amino acids 10-24 of the proto-oncogene TCL1 (Hiromura et al., J. Biol. Chem., 279:53407-53418 (2004), KP372-1, and the compounds described in Kozikowski et al., J. Am. Chem. Soc., 125:1144-1145 (2003) and Kau et al., Cancer Cell, 4:463-476 (2003); and combinations thereof.
- It will be appreciated that since the anti-QSOX1 antibody or antibody fragment of the present invention is capable of specifically binding human QSOX1 and mouse QSOX1, and since QSOX1 levels are elevated in medical conditions associated with laminin (e.g., tumors or fibrosis), such an antibody can be used in assessing the efficiency of treatment (e.g., in preclinical trials prior to human therapeutics).
- Thus, according to an aspect of the present invention there is provided a method for in vivo determining the efficiency of an antibody in reducing a laminin-associated disease or condition in a murine animal, the method comprising administering to the murine animal the antibody of some embodiments of the invention and monitoring progression of a laminin-associated disease or condition in the murine animal, thereby determining the efficiency of the antibody.
- As used herein, the term “in vivo” refers to a process occurring within a living organism.
- According to one embodiment, the organism is a murine animal including a mouse or a rat. Alternatively, other animal models known in the art, including e.g., guinea pigs, hamsters, rabbits or gerbils, can be used in accordance with the present teachings.
- According to a specific embodiment, the murine animal is a mouse.
- According to one embodiment, the murine animal (e.g., mouse) can lack all or part of a functional immune system (e.g., SCID mouse) or a full or part of a gene (e.g., knockout mouse or transgenic mouse). The murine animal may also be a xenograft animal model (e.g., wherein a graft from another organism e.g., human graft, such as a patient-derived tumor, is engrafted into immunodeficient mice) or and tumor graft animal model (e.g., wherein a tumor, from any source, is engrafted into the animal). The murine animal can also be a model in which the disease spontaneously occurs or wherein a tumor is induced by a carcinogen (for further details see e.g., www.emice(dot)nci(dot)nih(dot)gov/aam/mouse/carcinogen-induced -and-spontaneous-mouse-models).
- As used herein the phrase “determining the efficiency” refers to monitoring disease progression using the antibody of the invention as compared to disease progression without the use of the antibody.
- For example, when the disease is a tumor or metastasizing tumor, efficiency of treatment is determined when a reduction of about 10%, about 20%, about 30%, about 40 %, about 50%, about 60%, about 70%, about 80%, about 90% or about 100% is observed in tumor size, in the number of metastatic lesions (e.g., one lesion), and/or in the number of areas of metastatic lesions (e.g., in the bone, brain, liver, lymph nodes, etc) as compared to disease progression without the use of the antibody.
- For example, when the disease is a fibrosis, efficiency of treatment is determined when a reduction of about 10%, about 20%, about 30%, about 40%, about 50%, about 60%, about 70%, about 80%, about 90% or about 100% is observed in excess connective tissue (in an organ or tissue) as compared to excess connective tissue without the use of the antibody.
- In order to determine the efficiency of the antibody or antibody fragment of some embodiments of the invention, the antibody is administered to the animal (e.g., at different doses and intervals) and disease progression is monitored using any method known in the art, for example, by surgery (e.g., dissecting the animal after a predetermined time), by ultrasound, CT, PET, MRI, by blood test, etc.
- Alternatively, a biological sample may be obtained from the animal and analyzed for disease parameters (e.g., for expression levels of liver peptides, pulmonary peptides, renal peptides, pancreatic peptides, tumor peptides, etc.).
- A biological sample may refer to a sample of tissue or fluid isolated from a subject, including but not limited to, cells (e.g., liver cells, pulmonary cells, renal cells, etc.), tissues, organs, various tumors (e.g., tumor biopsy sample) and fluids such as blood, serum, plasma, lymph, bile fluid, urine, saliva, sputum, synovial fluid, semen, tears, cerebrospinal fluid, bronchioalveolar large fluid, ascites fluid, pus, conditioned medium, and also samples of in vivo cell culture constituents.
- It will be appreciated that, the antibody of some embodiments of the present invention may be attached to a detectable moiety in order to enable detection (e.g., in vivo detection) of the antibody.
- Various types of detectable or reporter moieties may be conjugated to the antibody of the invention. These include, but not are limited to, a radioactive isotope (such as [125]iodine), a phosphorescent chemical, a chemiluminescent chemical, a fluorescent chemical (fluorophore), an enzyme, a fluorescent polypeptide, an affinity tag, and molecules (contrast agents) detectable by Positron Emission Tomography (PET) or Magnetic Resonance Imaging (MRI).
- Examples of suitable fluorophores include, but are not limited to, phycoerythrin (PE), fluorescein isothiocyanate (FITC), Cy-chrome, rhodamine, green fluorescent protein (GFP), blue fluorescent protein (BFP), Texas red, PE-Cy5, and the like. For additional guidance regarding fluorophore selection, methods of linking fluorophores to various types of molecules see Richard P. Haugland, “Molecular Probes: Handbook of Fluorescent Probes and Research Chemicals 1992-4994”, 5th ed., Molecular Probes, Inc. (1994); U.S. Pat. No. 6,037,137 to Oncoimmunin Inc.; Hennanson, “Bioconjugate Techniques”, Academic Press New York, N.Y. (1995); Kay M. et al., 1995. Biochemistry 34:293; Stubbs et al., 1996. Biochemistry 35:937; Gakamsky D. et al., “Evaluating Receptor Stoichiometry by Fluorescence Resonance Energy Transfer,” in “Receptors: A Practical Approach,” 2nd ed., Stanford C. and Horton R. (eds.), Oxford University Press, UK. (2001); U.S. Pat. No. 6,350,466 to Targesome, Inc.]. Fluorescence detection methods which can be used to detect the antibody when conjugated to a fluorescent detectable moiety include, for example, fluorescence activated flow cytometry (FACS), immunofluorescence confocal microscopy, fluorescence in-situ hybridization (FISH) and fluorescence resonance energy transfer (FRET).
- Numerous types of enzymes may be attached to the antibody of the invention [e.g., horseradish peroxidase (HPR), beta-galactosidase, and alkaline phosphatase (AP)] and detection of enzyme-conjugated antibodies can be performed using ELISA (e.g., in solution), enzyme-linked immunohistochemical assay (e.g., in a fixed tissue), enzyme-linked chemiluminescence assay (e.g.,, in an electrophoretically separated protein mixture) or other methods known in the art [see Khatkhatay M I. and Desai M., 1999. J Immunoassay 20:151-83; Wisdom G B., 1994. Methods Mol Biol. 32:433-40; Ishikawa E. et al., 1983. J Immunoassay 4:209-327; Oellerich M., 1980. J Clin Chem Clin Biochem. 18:197-208; Schuurs A H. and van Weemen B K., 1980. J Immunoassay 1:229-49).
- The affinity tag (or a member of a binding pair) can be an antigen identifiable by a corresponding antibody [e.g., digoxigenin (DIG) which is identified by an anti-DIG antibody) or a molecule having a high affinity towards the tag [e.g., streptavidin and biotin]. The antibody or the molecule which binds the affinity tag can be fluorescently labeled or conjugated to enzyme as described above.
- Various methods, widely practiced in the art, may be employed to attach a streptavidin or biotin molecule to the antibody of the invention. For example, a biotin molecule may be attached to the antibody of the invention via the recognition sequence of a biotin protein ligase (e.g., BirA) as described in the Examples section which follows and in Denkberg, G. et al., 2000. Eur. J. Immnunol. 30:3522-3532. Alternatively, a streptavidin molecule may be attached to an antibody fragment, such as a single chain Fv, essentially as described in Cloutier S M. et al., 2000. Molecular Immunology 37:1067-1077; Dubel S. et al., 1995. J Immunol Methods 178:201; Huston J S. et al., 1991. Methods in Enzymology 203:46; Kipriyanov S M. et al., 1995. Hum Antibodies Hybridomas 6:93; Kipriyanov S M. et al., 1996. Protein Engineering 9:203; Pearce L A. et al., 1997. Biochem Molec Biol Intl 42:1179-1188).
- Functional moieties, such as fluorophores, conjugated to streptavidin are commercially available from essentially all major suppliers of immunofluorescence flow cytometry reagents (for example, Pharmingen or Becton-Dickinson).
- According to some embodiments of the invention, biotin conjugated antibodies are bound to a streptavidin molecule to form a multivalent composition (e.g., a dimer or tetramer form of the antibody).
- Table 1 A provides non-limiting examples of identifiable moieties which can be conjugated to the antibody of the invention.
-
TABLE 1A Amino Acid Nucleic Acid Identifiable sequence (GenBank sequence (GenBank Moiety Accession No.) Accession No.) Green Fluorescent AAL33912 AF435427 protein Alkaline AAK73766 AY042185 phosphatase Peroxidase CAA00083 A00740 Histidine tag Amino acids 264-269 Nucleotides 790-807 of GenBank Accession of GenBank Accession No. AAK09208 No. AF329457 Myc tag Amino acids 273-283 Nucleotides 817-849 of GenBank Accession of GenBank Accession No. AAK09208 No. AF329457 Biotin ligase tag LHHILDAQ K MVWNHR orange fluorescent AAL33917 AF435432 protein Beta galactosidase ACH42114 EU626139 Streptavidin AAM49066 AF283893 - According to one embodiment, the antibody of some embodiments of the invention can be used for in vitro or ex vivo applications e.g., for detection of QSOX1 levels in biological samples).
- According to one embodiment, the antibody of the invention may be immobilized on to a solid support (e.g., for formation of an immunocomplex between the antibody and QSOX1 proteins in ex vivo or in vitro settings). As used herein the phrase “solid support” refers to a non-aqueous matrix to which a reagent of interest (e.g., the antibody of this aspect of the present invention) can adhere. Examples of solid supports include, but are not limited to, solid supports formed partially or entirely of glass (e.g., controlled pore glass), polysaccharides (e.g., agarose), polyacrylamides, polystyrene, polyvinyl alcohol and silicones. In certain embodiments, depending on the context, the solid support can comprise the well of an assay plate; in others it is a purification column (e.g., an affinity chromatography column). This term also includes a discontinuous solid phase of discrete particles, such as those described in U.S. Pat. No. 4,275,149.
- The agents described hereinabove may be included in a diagnostic kit/article of manufacture preferably along with appropriate instructions for use and labels indicating FDA approval for use in diagnosing and/or assessing efficiency of treatment of a laminin-associated disease.
- According to another aspect of the present invention, there is provided a kit for detecting a level of QSOX1 in a biological sample.
- Such a kit can include, for example, at least one container including at least one of the above described diagnostic agents (e.g., antibodies comprising an antigen recognition domain to QSOX1) and an imaging reagent packed in another container (e.g., enzymes, secondary antibodies, buffers, chromogenic substrates, fluorogenic material). The kit may also include appropriate buffers and preservatives for improving the shelf-life of the kit.
- According to another aspect of the present invention, there is provided a kit for preventing or treating a laminin-associated disease or condition.
- Such a kit can include, for example, at least one container including at least one of the above described antibodies comprising an antigen recognition domain to QSOX1 and an additional therapeutic agent packed in another container (e.g., chemotherapeutic agents, hormonal therapeutic agents, radiotherapeutic agents, anti--proliferative agents). According to another embodiment, the therapeutic agent (e.g., antibody comprising an antigen recognition domain to QSOX1) and the additional therapeutic agent are packed in the same container. The kit may also include appropriate buffers and preservatives for improving the shelf-life of the kit.
- As used herein the term “about” refers to ±10%.
- The terms “comprises”, “comprising”, “includes”, “including”, “having” and their conjugates mean “including but not limited to”.
- The term “consisting of” means “including and limited to”.
- The term “consisting essentially of” means that the composition, method or structure may include additional ingredients, steps and/or parts, but only if the additional ingredients, steps and/or parts do not materially alter the basic and novel characteristics of the claimed composition, method or structure.
- As used herein, the singular form “a”, “an” and “the” include plural references unless the context clearly dictates otherwise. For example, the term “a compound” or “at least one compound” may include a plurality of compounds, including mixtures thereof.
- Throughout this application, various embodiments of this invention may be presented in a range format. It should be understood that the description in range format is merely for convenience and brevity and should not be construed as an inflexible limitation on the scope of the invention. Accordingly, the description of a range should be considered to have specifically disclosed all the possible subranges as well as individual numerical values within that range. For example, description of a range such as from 1 to 6 should be considered to have specifically disclosed subranges such as from 1 to 3, from 1 to 4, from 1 to 5, from 2 to 4, from 2 to 6, from 3 to 6 etc., as well as individual numbers within that range, for example, 1, 2, 3, 4, 5, and 6. This applies regardless of the breadth of the range.
- Whenever a numerical range is indicated herein, it is meant to include any cited numeral (fractional or integral) within the indicated range. The phrases “ranging/ranges between” a first indicate number and a second indicate number and “ranging/ranges from” a first indicate number “to” a second indicate number are used herein interchangeably and are meant to include the first and second indicated numbers and all the fractional and integral numerals therebetween.
- As used herein the term “method” refers to manners, means, techniques and procedures for accomplishing a given task including, but not limited to, those manners, means, techniques and procedures either known to, or readily developed from known manners, means, techniques and procedures by practitioners of the chemical, pharmacological, biological, biochemical and medical arts.
- It is appreciated that certain features of the invention, which are, for clarity, described in the context of separate embodiments, may also be provided in combination in a single embodiment. Conversely, various features of the invention, which are, for brevity, described in the context of a single embodiment, may also be provided separately or in any suitable subcombination or as suitable in any other described embodiment of the invention. Certain features described in the context of various embodiments are not to be considered essential features of those embodiments, unless the embodiment is inoperative without those elements.
- Various embodiments and aspects of the present invention as delineated hereinabove and as claimed in the claims section below find experimental support in the following examples.
- Reference is now made to the following examples, which, together with the above descriptions, illustrate the invention in a non limiting fashion.
- Generally, the nomenclature used herein and the laboratory procedures utilized in the present invention include molecular, biochemical, microbiological and recombinant DNA techniques. Such techniques are thoroughly explained in the literature. See, for example, “Molecular Cloning: A laboratory Manual” Sambrook et al., (1989); “Current Protocols in Molecular Biology” Volumes I-III Ausubel, R. M., ed. (1994); Ausubel et al., “Current Protocols in Molecular Biology”, John Wiley and Sons, Baltimore, Md. (1989); Perbal, “A Practical Guide to Molecular Cloning”, John Wiley & Sons, New York (1988); Watson et al., “Recombinant DNA”, Scientific American Books, New York; Birren et al. (eds) “Genome Analysis: A Laboratory Manual Series”, Vols. 1-4, Cold Spring Harbor Laboratory Press, New York (1998); methodologies as set forth in U.S. Pat. Nos. 4,666,828; 4,683,202; 4,801,531; 5,192,659 and 5,272,057; “Cell Biology: A Laboratory Handbook”, Volumes I-III Cellis, J. E., ed. (1994); “Current Protocols in Immunology” Volumes I-III Coligan J. E., ed. (1994); Stites et al. (eds), “Basic and Clinical Immunology” (8th Edition), Appleton & Lange, Norwalk, CT (1994); Mishell and Shiigi (eds), “Selected Methods in Cellular Immunology”, W. H. Freeman and Co., New York (1980); available immunoassays are extensively described in the patent and scientific literature, see, for example, U.S. Pat. Nos. 3,791,932; 3,839,153; 3,850,752; 3,850,578; 3,853,987; 3,867,517; 3,879,262; 3,901,654; 3,935,074; 3,984,533; 3,996,345; 4,034,074; 4,098,876; 4,879,219; 5,011,771 and 5,281,521; “Oligonucleotide Synthesis” Gait, M. J., ed. (1984); “Nucleic Acid Hybridization” Hames, B. D., and Higgins S. J., eds. (1985); “Transcription and Translation” Hames, B. D., and Higgins S. J., Eds. (1984); “Animal Cell Culture” Freshney, R. I., ed. (1986); “Immobilized Cells and Enzymes” IRL Press, (1986); “A Practical Guide to Molecular Cloning” Perbal, B., (1984) and “Methods in Enzymology” Vol. 1-317Academic Press; “PCR Protocols: A Guide To Methods And Applications”, Academic Press, San Diego, Calif. (1990); Marshak et al., “Strategies for Protein Purification and Characterization —A Laboratory Course Manual” CSHL Press (1996); all of which are incorporated by reference as if fully set forth herein. Other general references are provided throughout this document. The procedures therein are believed to be well known in the art and are provided for the convenience of the reader. All the information contained therein is incorporated herein by reference.
- HsQSOX1 and MmQSOX1 mutants were made by restriction-free cloning based on the published HsQSOX1 [Grossman I. et al. (2013) J. Mol. Biol. 425: 4366-4378] and MmQSOX1 [Alon A. et al. (2012) Nature 488: 414-418] expression plasmids. MmQSOX1Trx and MmQSOX1Erv span residues 36-275 and 289-550, respectively, of Mus musculus QSOX1. The RnQSOX1 construct was previously described [Gat Y. et al. (2014) Protein Sci. 23: 1102-1112]. The CpQSOX1 protein spans residues 34-547 of Cavia porcellus QSOX1. A synthetic gene (Genescript) codon-optimized for CpQSOX1 production in E. coil was cloned between the NdeI and BamHI sites of the pET-15b vector (Novagen). For production of biotinylated MmQSOX1Trx an AviTag [Kay B et al. (2009) Methods Mol. Biol. 498: 185-196] was added at the carboxy terminus.
- Recombinant HsQSOX1 [Grossman L et al. (2013), supra] and RnQSOX1. [Gat Y. et al. (2014), supra] were expressed and purified as described. MmQSOX1, MmQSOX1Erv, and CpQSOX1 were prepared as for HsQSOX1. MmQSOX1Trx used for crystallization was produced in the BL21 (DE3) E. coli strain. Cells were grown in LB media to OD600 nm 0.5 at 37° C. Isopropyl-1-thio-β-D-galactopyranoside (IPTG) was added to a final concentration of 0.5 mM, and the cultures were grown for a further 40 hours at 15° C. Cells were lysed in 20 mM Tris buffer, pH 8.5, 500 mM NaCl, 20 mM imidazole, sonicated, and centrifuged for 1 hour at 40,000 x g. The supernatant was applied to a Ni-NTA column (GE healthcare), and protein was eluted in 20 mM Tris buffer, pH 8.5, 500 mM. NaCl, and a gradient of imidazole (20 to 500 mM). Eluted protein was further purified by size exclusion chromatography on a Superdex 75 16/60 column in 10 mM Tris buffer,
pH - Recombinant mammalian QSOX1 enzymes (100 nM) were assayed with 200 μM DTT and various MAb492.1 concentrations in a Clarke-type oxygen electrode (Hansatech Instruments) as previously described [Grossman I. et al. (2013), supra]. Reactions were initiated by DTT injection, and oxygen consumption rates were obtained from initial slopes. For testing inhibition of MmQSOX1 and HsQSOX1 mutants by MAb492.1 and MAb316.1, respectively, 50 nM enzyme was assayed with 200 μM DTT, with and without 250 nM antibody. Measurements were performed 3 times, and resulting rates were averaged. For each mutant, the rate in the presence of inhibitory antibody was divided by the rate in the absence of antibody to get percent activity.
- Hybridomas were generated, and supernatants of approximately 1000 clones were screened for MmQSOX1 binding as previously described [Ilani T. et al. (2013) Science 341: 74-76]. Twenty top binders were tested for MmQSOX1 inhibition in the in vitro oxygen consumption assay, in which hybridoma supernatants were mixed with 100 nM MrnQSOX1 and 200 μm DTT. Two inhibitory clones in addition to three strong binders were chosen for sub-cloning. Each of the sub-clones was tested for binding by ELISA. Approximately 40 sub-clones were chosen for inhibition assays. Supernatants of sub-clones 316.1 and 947.3 inhibited MmQSOX1 activity repeatedly, and so were chosen for further studies. MAb316.1 used for inhibition assays was produced in a miniPERM bioreactor (Sarstedt) in serum-free medium (DCCM) and was purified as previously described [Ilani T. et al. (2013), supra]. Variable region sequencing of both monoclonal antibodies was performed as previously described [Grossman I. et al. (2013), supra]. Briefly, the variable region was reverse transcribed from hybridomal mRNA and amplified by PCR using sets of degenerate primers [described in Benhar I. and Reiter Y. (2002) In Curr. Protoc. Immunol. Chapter 10: Unit 10.19B; and Zhou, H. et al. (1994) Nucleic Acids Res. 22: 888-889]. Amplified fragments of the heavy chain and light chain were then cloned into the pGEM-T Easy vector, sequenced, and analyzed in the ImMunoGeneTics database [Lefranc M. P. et al. (2005) Nucleic Acids Res. 33: 593-597]. A productively rearranged sequence was confirmed for each fragment and verified on the protein level by liquid chromatography-tandem mass spectrometry of purified MAb316.1 (Table 2, below).
- The scFv492.1 construct, without the His-tag and thrombin cleavage site [Grossman I. et al, (2013), supra], was cloned between the Ndel and BamHI sites in the yeast display plasmid pETCON [Fleishman S. J. et al. (2011) Science 332: 816-821]. Mutants of scFv492.1 were prepared on the basis of this plasmid by in vivo recombination in EBY100 yeast using the LiAc method. Yeast growth and induction of scFv expression were carried out as previously described [Chao G. et al. (2006) Nat. Protoc. 1:755-768], except that for induction 10 g raffinose per liter were added to the media and the cultures were grown for 16 hours at 20° C. Yeast were labeled with anti-cMyc (Santa Cruz Biotechnology) at a dilution 1:50 to monitor scFv expression, and with biotinylated MmQSOX1Trx (for concentrations see Table 3, below) for 45 minutes. After washing, secondary labeling was performed with streptavidin-allophycocyanin (streptavidin-APC) from Jackson Immunoresearch Laboratories, Inc. at a 1:50 dilution and with goat anti-mouse IgG1 secondary antibody Alexa fluor 488 conjugate (Life technologies) at a 1:100 dilution, for the anti-cMyc labeling. Alternatively, in the first rounds of screening (Table 3, below), yeast were labeled with anti-cMyc, washed, and then labeled with goat anti-mouse IgG1 secondary antibody Alexa fluor 488 conjugate and with biotinylated MmQSOX1Trx , pre-loaded with streptavidin-APC in a 1:4 molar ratio [Chao G. et al. (2006), supra]. Display of scFv clones and MmQSOX1Trx binding was monitored by Alexa 488 and APC fluorescence, respectively, using an Accuri C6 flow cytometer. Anti-fluorescein scFv (PDB code: 1X9Q) was used as a positive control for scFv display. Yeast displaying scFv492.1 labeled with biotinylated HsQSOX1Trx were used as a positive control for binding.
- Small scFv libraries were constructed by fully randomizing specific residue positions (Table 3, below) using the NNS codon. Oligonucleotides with NNS codons in desired positions and wild-type flanking regions were ordered from Sigma. NdeI and BamHI sites were deleted from the N- and C-termini of the scFv construct in the pETCON plasmid and inserted flanking the desired region for randomization. The plasmid was restricted, and the oligonucleotide pool was inserted through in vivo recombination using the LiAc method. In all libraries constructed, the number of colonies obtained was at least an order of magnitude larger than the potential size of the library (20number of randomized positions). Libraries were induced and labeled as described above. Cells were sorted using a FACSAria III Cell Sorter in 3 iterative rounds of enrichment. In the first sorting round, the top 5% cells found within the green and red fluorescence area were collected into growth media. In the following sorting rounds, the top 1-4% cells were collected. Plasmids from the last cycle of FAGS enrichment were sequenced. Eighteen colonies enriched from the library constructed in CDR H3 were sequenced, yielding two distinct sequences. Each of the two sequences was tested separately for MmQSOX1Trx binding, and the better binder (Table 3, below) was chosen for further study. Enrichment of the library constructed in L1 yielded a single clone, verified by sequencing 12 colonies. Enrichment of the library constructed in L2 yielded eight clones, which were tested for MmQSOX1Trx binding separately. The enriched L1 sequence was incorporated to the top binder. After verifying that the combined clone showed increased MmQSOX1Trx binding compared to the clones enriched directly from the L1 and L2 libraries, this clone was subjected to epPCR on the entire scFv sequence using the Agilent GeneMorph II Random Mutagenesis kit. Recombination in vivo was performed by electroporation, yielding a library of
size 5*107. The library was subjected to 3 rounds of selection as described above, recovering scFv492gen. - The light chain and heavy chain variable regions of scFv492gen were amplified and cloned separately into mammalian expression vectors for human IgG1 antibodies [Tiller T. et al. (2008) J. Immunol. Methods 329: 112-124]. MAb492gen was expressed by transient co-transfection of the two plasmids in human embryonic kidney (HEK) 293T cells using polyethylenimine. Cell supernatants were collected and replaced with fresh medium every 4 days. Expression and secretion to the medium was verified by western blot. MAb492gen was purified from the media using protein G [Ilani T. et al. (2013), supra]. Purified MAb492gen with human constant regions was used for inhibition assays.
- Colorimetric assays of RNase A oxidation were performed as described previously to obtain IC50 values [Grossman I. et al. (2013), supra]. Ki values were obtained in oxygen consumption assays as previously described [Grossman I. et al. (2013), supra].
- The assays were conducted essentially as previously described [Ilani T. et al. (2013), supra]. Instead of human fibroblasts, mouse fibroblasts were grown for three days in the presence of various antibodies. HEK 293T cells were used as adhering cells.
- MsQSOX1, its fragments, MAb316.1, or MAb947.3 were loaded onto a
Superdex 200 column (GE HealthCare) equilibrated with phosphate buffered saline (PBS) at a flow rate of 0.8 mL/min. MsQSOX1-antibody complexes were injected after a 30 min co-incubation at 4° C. Elution of proteins was monitored by absorbance at 280 nm. - MAb492.1 light chain and heavy chain were amplified from hybridomal cDNA [Grossman I. et al. (2013), supra] and cloned into the MAb492gen expression vectors, separately. Variable regions of scFv492gen were amplified and cloned into these vectors instead of the 492,1 variable regions. A stop codon was inserted after the CH1 segment of the heavy chain, to obtain a coding sequence for a Fab fragment. Fab492gen was expressed and purified as was MAb492gen. The heavy and light variable regions of MAb316.1 were amplified from hybridomal cDNA and cloned separately into the above mentioned MAb492gen expression vectors. MAb316.1 was expressed and purified as for MAb492gen. Fab316.1 was prepared by papain digestion as previously described [Grossman I. et al. (2013), supra]. Purified Fab492gen or Fab316.1 was mixed with purified MmQSOX1Trx at a 1:2 ratio for 30 minutes at 4° C. to form complexes, which were purified from excess MmQSOX1Trx by size-exclusion chromatography. Prior to crystallization the complexes were concentrated to 10 mg/ml.
- Protein Crystallization
- Crystals were grown by hanging-drop vapor diffusion at 293 K. MmQSOX1Trx crystals used for seeding were grown over a well solution containing 0.2 M ammonium sulfate, 0.1 M sodium acetate, pH 4.6, 21% w/v polyethylene glycol (PEG) 4 kD. These crystals were crushed and seeded into drops of MmQSOX1Trx grown over a well solution containing 5% w/v dimethyl suboxide, 0.1 M sodium acetate, pH 4.6, 7 w/v
PEG monomethyl ether 2 kD. Crystals were transferred to a solution containing 0.1 M sodium acetate, pH 4.6, 15% w/vPEG monomethyl ether 2 kD, 25% glycerol and flash frozen in a nitrogen stream at 100 K. Crystals of the MmQSOX1Trx-Fab31.6.1 complex were grown over a well solution containing 50 mM ammonium sulfate, 0.1 M bis-tris methane buffer, pH 5.5, 22% w/v PEG 3.35 kD. Crystals were transferred to a solution with the same content and 25% w/v glycerol for freezing. Crystals of the MmQSOX1Trx-Fab492gen complex were grown over a well solution containing 50 mM CaCl2, 0.1 M 2-(N-morpholino)ethanesulfonic acid buffer, pH 6, 22.5% w/v PEG 6 kD, and were transferred to the same solution containing 25% w/v glycerol prior to freezing. - Diffraction data for MmQSOX1Trx, MmQSOX1Trx-Fab316.1 complex, and MmQSOX1Trx-Fab492gen complex were collected at 100 K on a RU-H3R generator (Rigaku) equipped with a RaxisIV++ image plate system and Osmic mirrors. For MmQSOX1Trx, data were collected to 2.05 Å resolution from a crystal of space group P21. MmQSOX1Trx-Fab316.1 complex data were collected to 2.2 Å resolution from a crystal of
space group P2 12121. Diffraction data for MmQSOX1Trx-Fab492gen were collected to 2.3 Å resolution from a crystal of space group P21. All data sets were processed and scaled using DENZO and SCALEPACK [Broennimann Ch. et al. (2006) J. Synchrotron Radiat. 13: 120-130]. - All three structures were determined by molecular replacement using Phaser [McCoy A. J. et al. (2007) J. Appl. Crystallogr. 40: 658-674]. The HsQSOX1Trx structure (PDB code: 3Q6O) was used as a search model for MmQSOX1Trx, and model rebuilding and mutagenesis was done in Coot [Emsley P. and Cowtan K. (2004) Acta Crystallogr. D. Biol. Crystallogr. 60: 2126-2132]. The resulting MmQSOX1Trx structure (PDB code: 5D8I) was used as a search model for both MmQSOX1Trx-Fab complexes. After translation and rotation functions were found for MmQSOX1Trx, a search for the constant region of Fab316.1 was performed using an identical constant region (PDB code: 3D85, chain A spanning residues 108-213 and chain B spanning residues 116-217). The variable region of Fab316.1 heavy chain was searched with a model having 87% identity (PDB code: 4Q0X, chain H spanning residues 1-118 without CDR H3), and the light chain variable region was searched with a 94% identical model (PDB code: 3AB0, chain C spanning residues 1-106). For Fab492gen, three search models from Fab492.1 (PDB code: 4IJ3, chains B and C) were used: the constant region, the light chain variable region without the mutated residues in Fab492gen, and the heavy chain variable region without CDRs H1 and H3. For both complexes addition of CDR loops and model rebuilding were done using Coot [Emsley P. and Cowtan K. (2004), supra]. Refinement was performed using Phenix [Afonine P. V. et al. (2005) CCP4 Newsletter 42, contribution 8]. Validation was done using MolProbity [Lovell S. C. et al. (2003)
Proteins 50, 437-450], according to which there are no Ramachandran outliers in the structures reported herein. - 4T1 mCherry cells were suspended in Hanks' Balanced Salt Solution at a concentration of 2.5×106 cells/ml and mixed 1:1 with Cultrex® Basement Membrane Extract. 250,000 cells were injected into the mammary fat pad of 45 BALB/c female mice. Animals were divided into 5 groups containing 9 animals each (as depicted in Table 1B, below). Treatments were administered by intraperitoneal injection, beginning 3 days after cell injection. Tumor dimensions (x,y,z) were measured with a caliper twice a week. Tumor volumes were calculated according to: x*y*z*6/π. Animals were weighed once a week. Twenty days post cell injection all animals were sacrificed by CO2 asphyxiation. Tumors and lungs were removed into 4% formaldehyde solution and prepared for histology.
-
TABLE 1B Treatment regime in murine 4T1 breast cancer model Frequency of Group Treatment administration Vehicle 1 50 mg/kg control IgG antibody twice a week PBS 2 30 mg/kg MAb316.1 twice a week PBS 3 8 mg/kg doxorubicin once a week PBS 4 8 mg/kg doxorubicin once a week PBS 30 mg/kg MAb316.1 twice a week 5 8 mg/kg doxorubicin once a week PBS 15 mg/kg MAb316.1 twice a week - MAb492.1. which inhibits HsQSOX1 activity in vitro and in cell culture at a near-stoichiometric concentration [Grossman I. et al. (2013) supra], was tested on other mammalian QSOX1 enzymes to find a suitable model for assessing QSOX1 inhibition in vivo. Three mammalian QSOX1 enzymes, from common experimental organisms and having 78-79% sequence identity with HsQSOX1, were chosen: Mus musculus QSOX1 (MmQSOX1), Rattus norvegicus QSOX1 (RnQSOX1), and Cavia porcellus (CpQSOX1). Enzyme activity was assessed in an oxygen consumption assay on the model substrate dithiothreitol (DTT). According to the assay, MAb492.1 had no effect on MmQSOX1, RnQSOX1, or CpQSOX1, even at 1 μM, a 10:1 molar ratio of antibody to enzyme (
FIG. 2A ). - To understand the molecular basis for MAb492.1 species restriction, the epitope on HsQSOX1 was compared with the corresponding regions of RnQSOX1, CpQSOX1, and particularly MmQSOX1 by crystallizing and solving the structure of the Trx module of MmQSOX1 (MmQSOX1Trx) to 2.05 Å resolution (Table 1C, below). Two MmQSOX1Trx molecules were present in the crystal asymmetric unit. The atomic coordinates of these two molecules were overlaid on the previously solved structure of a complex between HsQSOX1Trx and a Fab fragment of MAb492.1 (Fab492.1) [Grossman I. et al. (2013) supra]. Although the regions near the CXXC redox-active site are identical in sequence among QSOX1 orthologs, a few other positions of contact between Fab492.1 and HsQSOX1 differ (
FIG. 2B ). In particular, HsQSOX1 P116, which fits well into a cleft between hydrophobic complementary determining regions (CDRs) L3, H2, and H3 of Fab492.1, is replaced with alanine in other mammalian QSOX1 enzymes. The MmQSOX1Trx structure showed that this alanine residue cannot fill the hydrophobic cleft in a hypothetical complex between MmQSOX1. and Fab492.1. Moreover, the replacement of praline by alanine affects the position of the backbone nearby, such that a clash would form between MmQSOX1 N117 and CDR L3 (FIG. 2C , left). Another region that is not conserved among the QSOX1 enzymes examined is VFPV(135-138) from HsQSOX1. The corresponding TLPG(138-141) loop in one of the MmQSOX1 molecules is displaced from the antibody CDRs L1 and L2 and is found closer to CDR H3 than the VFPV(135-138) loop of HsQSOX1 (FIG. 2C , right). As a result, MAb492.1 CDR H3 would clash sterically with this loop, eliminating potential interactions of MmQSOX1 with CDRs L1 and L2. -
TABLE 1C Summary of crystallographic data collection and refinement statistics Fab492gen- MmQSOX1Trx Fab316.1- MmQSOX1Trx MmQSOX1Trx complex complex Date collection Space group P21 P21 P212121 Cell dimensions a, b, c (Å) 42.5, 116.4, 50.0 78.8, 204.8, 44.7 65.5, 112.7, 193.4 α, β, γ (°) 90, 103, 90 90, 90, 90 90, 90, 90 Copies in asymmetric unit 2 2 2 Resolution (Å) 50-2.05 (2.05-2.09) 50-2.30 (2.30-2.34) 50-2.20 (2.20-2.24) Measured reflections 104,982 190,891 358,728 Unique reflections 28,528 (1197) 62,461 (3167) 72,630 (3564) Completeness (%) 95.8 (79.2) 99.7 (100) 98.9 (98.8) Redundancy 3.7 (2.9) 3.1 (3.0) 4.9 (3.8) <I/σI> 11.3 (2.2) 8.3 (2.2) 7.6 (2.0) Rsym 0.063 (0.318) 0.084 (0.418) 0.088 (0.408) Refinement Resolution (Å) 28.5-2.05 27.4-2.3 23.2-2.2 Number of reflections 28,485 62,422 72,573 in working set Number of reflections 1957 2002 3588 in test set Rwork/Rfree 0.201/0.252 0.167/0.228 0.174/0.236 Number of protein atoms 3774 10180 10156 Number of water 288 425 751 molecules Mean B-factor 31.50 34.98 32.65 Root mean square deviations Bond length (Å) 0.006 0.004 0.008 Bond angle (°) 1.275 1.013 1.113 Ramachandran plot Favored regions (%) 96.0 98.1 96.6 Additional allowed regions (%) 4.0 1.9 3.4 Disallowed regions (%) 0 0 0 Values in parentheses are for the highest-resolution shell. - To confirm that the structural differences noted between HsQSOX1 and MmQSOX1 are the cause of MAb492.1 species specificity, three MmQSOX1 mutants that mimic HsQSOX1 in distinct positions were constructed. MAb492.1 inhibition was tested on these mutants to identify the residues that interfere with MAb492.1-MmQSOX1 complex formation. The first mutant, A116P, was inhibited by about 60% (
FIG. 2D ), and the second mutant, TLPG(138-141)VFPV, by about 50%. The third mutant, which comprises both the above mutations, was inhibited by MAb492.1. to the same extent as HsQSOX1 (100%), confirming the identity of residues that determine the specificity of MAb492.1 towards HsQSOX1. - The species-specificity exhibited by MAb492.1 is a common feature shared by natural monoclonal antibodies. Although differences in antigen structure might be small among orthologs, they are exploited by the immune system to bind the foreign antigen and avoid self-reactivity. In the large antigen surface area buried by antibodies, minor differences between orthologs can cause steric clashes that cannot be remedied by a simple corresponding change in the antibody. QSOX1 knock-out (QSOX1.-KO) mice produced in the laboratory were then exploited to generate surrogate antibodies against MmQSOX1, which is a foreign antigen for these animals. Hybridoma supernatants were screened for binding of MmQSOX1 using a standard enzyme-linked immunosorbent assay (ELISA). Top hinders were tested for MmQSOX1 inhibition, and five were chosen for sub-cloning (described in the materials and experimental procedures section above). Antibody sub-clones derived from one particular clone inhibited MmQSOX1 and one sub-clone, designated MAb316.1 and classified to be of the IgG1 isotype, was selected for further study. The sequences of the MAb316.1 variable regions (described in the materials and experimental procedures section above) are presented in Table 2, below.
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TABLE 2 MAb316.1 variable region amino acid sequences Chain Sequence light QIVLTQSPAIMSASPGEKVTISCSASSSVSYMYWYHQKPGSSPKPWIYRTSNLASGVPARFSG SGSGTSYSLTISSMEAEDAATYYCQQYHSYPLTFGAGTKLELK (SEQ ID NO: 9) heavy QVQLQQSGPELVKPGASVKISCKASGYSFTSYYIHWVKQRPGQGLEWIGWIYPGSYNTEYSEK FKGKATLTADTSSSTAYMQLSSLTSEDSAVYYCARSEDWFAYWGQGTLVTVS (SEQ ID NO: 10) MW (calc) MW (exp) peptide enzyme light 1855.9729 1855.9713 QIVLTQSPAIMSASPGEK (SEQ ID NO: 11) trypsin 2936.3419 2936.3473 VTISCSASSSVSYMYWYHQKPGSSPK (SEQ ID NO: 12) 1071.5671 1071.5673 TSNLASGVRAR (SEQ ID NO: 13) 3389.4864 3389.4856 TISSMEAEDAATYYCQQYHSYPLTEGAGTK (SEQ ID NO: 14) 1650.8829 1650.8842 IYRTSNLASGVPARF (SEQ ID NO: 15) chymotrypsin/ 1374.7352 1374.7368 RTSNLASGVPARF (SEQ ID NO: 16) Asp-N 1586.7319 1586.7325 ASGVPARFSGSGSGTSY (SEQ ID NO; 17) 793.4351 793.4334 TFGAGTKLEL (SEQ ID NO: 18) heavy 1992.0977 1992.1004 QVQLQQSGPELVKPGASVK (SEQ ID NO: 19) trypsin 1807.8521 1807.8570 ASGYSFTSYYIHWVK (SEQ ID NO: 20) 2957.3959 2957.3984 QRPGQGLEWIGWIYPGSYNTEYSEK (SEQ ID NO: 21) 2079.9242 2079.9241 MQLSSLTSEDSAVYYCAR (SEQ ID NO: 22) 2390.2278 2390.2264 QQSGPELVKPGASVKISCKASGY chymotrypsin/ (SEQ ID NO: 23) Asp-N 1652.8761 1652.8787 VKQRPGQGLEWIGW (SEQ ID NO: 24) 1420.6153 1420.6147 PGSYNTEYSEKF (SEQ ID NO: 25) The table displays representative peptides detected by liquid chromatography-tandem mass spectrometry. - In parallel to obtaining an antibody targeting MmQSOX1 T from hybridoma clones, a variant of MAb492.1 that inhibits MmQSOX1 was developed. Though occasionally a single point mutation may modulate antibody species specificity to some extent, substantial re-engineering is often required to obtain the desired target-recognition properties. According to the observation that mutating four residues of MmQSOX1 was sufficient to achieve inhibition by MAb492.1 (
FIG. 2D ), inventors reasoned that inhibiting MmQSOX1 would be possible by making a set of mutations in the MAb492.1 CDRs or surrounding regions. However, in contrast to modifying MmQSOX1. to mimic HsQSOX1, modification of the antibody had to be made without a guiding structure. Furthermore, the four QSOX1 residues controlling reactivity with MAb492.1 affected the position of the QSOX1 polypeptide backbone (FIG. 2C ), hinting that substantial compensating mutations affecting CDR loop position and/or structure would be needed to convert MAb492.1 into a cross-reactive reagent. Candidate residues for mutation to improve MmQSOX1Trx binding were identified based on the structures of MmQSOX1Trx and the Fab492.1-HsQSOX1Trx complex (Table 3, below). Specific point mutations were tested and small libraries were constructed, varying up to four CDR residues in specific locations, from which binding mutants were enriched. This careful approach was taken to increase the likelihood of gaining functionality against MmQSOX1 without losing binding to the targeted epitope. - Screening was performed using yeast-surface display of single-chain variable fragments (scFv) (described in the materials and experimental procedures section above) [Chao G. et al. (2006) Nat. Protoc. 1:755-768]. A scFv variant of MAb492.1. (scFv492.1) had been constructed, expressed in E. coli, and shown to inhibit HsQSOX1 successfully [Grossman I. et al. (2013), supra], laying the groundwork for using yeast-surface display to select for MmQSOX1 inhibitors. A scFv variant carrying ten mutations in the CDRs achieved by specific rational mutations and consecutive rounds of library sorting and enrichment (Table 3, below) bound MmQSOX1Trx on the surface of yeast (
FIG. 3A ). Since mutations in other CDR residues did not improve MmQSOX1Trx binding further, one round of affinity maturation was performed on the scFv492.1 mutant, for fine-tuning, To this end a gene library (total size of 5*107 clones) was constructed by error-prone polymerase chain reaction (epPCR), with an average of three mutations per gene, and subjected the library to three rounds of flow-cytometry selection for MmQSOX1Trx binding. A mutant with a total of 12 mutations on scFv492.1, designated scFv492gen (FIG. 3J ), was isolated and characterized, yielding an apparent Kd of 65 nM on the surface of yeast (FIGS. 3K-3L ). Based on the scFv492gen sequence, a recombinant full-length antibody, MAb492gen, was produced in mammalian cells. -
TABLE 3 MAb492.1 residues mutated to generate MAb492gen MmQSOX1Trx concentration Template Template for used for Positive name mutations Residuea Mutation Strategy binding tests mutationsb wt scFv492.1 Y92 (light chain) N/D 25 of the possible combinatorial 500 nM pre-loaded S93A S93 (light chain) G/A mutants involving these with streptavidin-APC Y100 (heavy chain) D/N/G/S three residues were tested a scFv492.1 Y99-S102 All possible Library in potential size of 250 nM pre-loaded Y99S S93A (heavy chain) amino acids 204 clones subjected with streptavidin- APC Y100K to three rounds of selection G101D S102P b scFv492.1 Y92-P95 All possible Library in potential size of 250 nM pre-loaded — S93A (light chain) amino acids 204 clones subjected with streptavidin- APC Y99S to three rounds of selection Y100K T30-Y32 All possible Library in potential size of 250 nM pre-loaded — G101D (heavy chain) amino acids 203 clones subjected with streptavidin- APC S102P to three rounds of selection W52-D54, R56 All possible Library in potential size of 250 nM pre-loaded — (heavy chain) amino acids 204 clones subjected with streptavidin- APC to three rounds of selection D58 E/Q Tested point mutations for 250 nM pre-loaded D58E (heavy chain) MmQSOX1Trx binding with streptavidin- APC c scFv492.1 S30-T31 All possible Library in potential size of 250 nM pre-loaded T31G S93A (light chain) amino acids 202 clones subjected with streptavidin- APC Y99S to three rounds of selection Y100K H49-S50, Y52 All possible Library in potential size of 250 nM pre-loaded H49S G101D (light chain) amino acids 203 clones subjected with streptavidin- APC S50M S102P to three rounds of selection Y52Q D58E d scFv492.1 All All Library was created by epPCR 250 nM G33S S93A and its size was evaluated as (not pre-loaded) N35I Y99S 5*107 clones. S100M Y100K Library was subjected to three (heavy chain) G101D rounds of selection S102P D58E T31G H49S S50M Y52Q aNumbering is according to structure of HsQSOX1Trx-Fab492.1 complex (PDB code: 4IJ3). bMutations that improved MmQSOX1Trx binding. - MmQSOX1 inhibition by MAb492gen was next quantified and compared to inhibition by the natural antibody MAb316.1. In one assay, MmQSOX1 activity was measured by the number of free thiols remaining at the end of the oxidation reaction of denatured and reduced RNase A. Various MAb492gen concentrations were scanned against two MmQSOX1 concentrations. In both cases the IC50 values were similar to the MmQSOX1 concentration used in the assay (
FIG. 3B ), indicating tight-binding inhibition. In a second assay MmQSOX1 catalytic activity on DTT was measured using the oxygen consumption assay, providing data that were fitted to a model of tight-binding inhibition [Bieth, J. G. (1995) Methods Enzymol. 248: 59-84] to yield an inhibitory constant (Ki) of 2.2±0.5 nM (FIG. 3C and Table 4, below). Like MAb492gen, MAb316.1 exhibited tight-binding inhibition of MmQSOX1, but with a slightly larger Ki value of 16±2 nM (FIG. 3D and Table 4, below). -
TABLE 4 Inhibition constants for antibodies targeting QSOX1 Antibody/enzyme HsQSOXl MmQSOXl MAb492.1 0.9 ± 0.1 nM No inhibition at 1 μM MAb492gen 1.6 ± 0.6 nM 2.2 ± 0.5 nM MAb316.1 No inhibition 16 ± 2 nM at 1 μM - MmQSOX1 inhibition by MAb316.1 and MAb492gen was examined in cell culture using two readouts of QSOX1 activity [Macri T. et al. (2013), supra]. QSOX1 and laminin are secreted front quiescent fibroblasts into the ECM, where QSOX1 promotes laminin incorporation, and consequently the adherence of epithelial cells to the fibroblast monolayer. Thus, intact laminin networks in the ECM and cell adherence indicate functional QSOX1 activity in the ECM [Ilani T. et al. (2013), supra]. Inventors first verified that MmQSOX1 is secreted from confluent mouse embryonic fibroblasts (MEFs) (
FIG. 4A ). Next, extracellular laminin secreted by MEFs grown tor three days in the presence of MAb492.1 MAb316.1, or MAb492gen was stained. As in human fibroblast cultures [Ilani T. et al. (2013), supra], an extensive laminin network was observed only in ECM produced with active QSOX1 (FIGS. 3E-3H andFIGS. 4B-4I ). A quantitative assay of epithelial cell adhesion to MEF monolayers was performed next. Fluorescently labeled epithelial cells were added to MEFs grown in the absence or presence of the antibodies, and adherent cells were quantified. As expected, more epithelial cells adhered to MEFs grown in the absence of inhibitory antibody compared to MEFs grown in the presence of either 250 nM or 1 μM antibody targeting MmQSOX1 (MAb316.1 and MAb492gen). MAb492.1, which inhibits HsQSOX1 but not MmQSOX1, did not affect the laminin network or epithelial cell adherence in the mouse fibroblast cultures (FIGS. 3E-3I andFIGS. 4J-4O ). - After attaining a MAb492.1 mutant that inhibits MmQSOX1, X-ray crystallography was used to examine the structural effects of mutations that enabled antigen recognition. A complex between a Fab fragment of MAb492gen (Fab492gen) and MmQSOX1Trx was formed, and its structure was solved to 2.3 Å resolution (Table 1C). Two complexes were found in the asymmetric unit, deviating from one another mainly in the angle between the constant and the variable regions of the Fab fragment. As expected, the MAb492gen epitope on MmQSOX1 corresponds to the HsQSOX1 region bound by MAb492.1 (
FIG. 5A ). MmQSOX1Trx bound by MAb492gen takes the conformation of chain B from the unbound MmQSOX1Trx, in which the TLPG(138-141) loop approaches the CXXC motif. MAb492gen differs from MAb492.1 primarily around this QSOX1Trx region (FIG. 5B ). The complex structure revealed how a combination of relieving steric clashes and introducing new favorable interactions enabled recognition of MmQSOX1. - Based on the Fab492gen-MmQSOXTrx structure, inventors suspected that mutations introduced into CDR L3 and H3 prevented collisions between MmQSOX1 and the antibody. CDR H3 is the most variable CDR in sequence and structure among antibodies and is usually responsible for most of the paratope [Xu J. L. and Davis M. M. (2000) Immunity 13: 37-45]. The YYGS-to-SMDP mutation of CDR H3 in Fab492gen both eliminated a clashing tyrosine and caused a rearrangement of the backbone conformation (
FIGS. 5B and 5F ), resulting in the first significant improvement in binding. Changing the structure of the CDR H3 loop also allowed closer approach of CDR L2, together with the rest of the light chain, toward the heavy chain (FIG. 5B ). This movement appears to have helped relieve the expected clash between CDR L3 and N117 in MmQSOX1 (FIG. 2C ). - A second effect of the slight change in the relative orientations of the heavy and light chain variable regions observed in the Fab492gen-MmQSOX1Trx structure was the introduction of new interactions. Some interactions were generated between the heavy and light chains, and some with the target. Mutating H49 in CDR L2 to serine enabled an interaction with the new CDR H3 SMDP loop (
FIG. 5C ), potentially contributing to pre-organization of the paratope. Mutating T31 in CDR L1 to glycine enabled formation of hydrogen bonds between CDR L1 and the MmQSOX1 TLPG(138-141) loop that could not form between MAb492.1 and MmQSOX1 (FIGS. 5D and 5E ). - MAb492.1 and MAb492gen bind the N-terminal QSOX1 Trx domain. Since MAb316.1 was generated in mice injected with full-length MmQSOX1, inventors sought to localize its epitope. Size exclusion chromatography was used to compare the elution profiles of MmQSOX1, or each of its constituent modules, to their elution profiles when mixed with MAb316.1. In size exclusion chromatography, this antibody shifted the elution of both full-length MmQSOX1 and the Trx module to higher apparent molecular weights (
FIG. 6A ). In contrast, migration of the MmQSOX1 Erv module, responsible for the sulthydryl oxidase activity, was not affected, pointing at the Trx module as the MAb316.1 binding region in MmQSOX1. - To localize the MAb316.1 epitope to specific residues in MmQSOX1Trx, a Fab fragment of MAb316.1 (Fab316.1) was co-crystallized with MnQSOX1Trx and the structure was solved to 2.2 Å resolution (see Table 1C, above). Two MmQSOX1Trx-Fab316.1 complexes were present in the crystal asymmetric unit. The complex structure revealed a distinct QSOX1 inhibition mode from the one displayed by MAb492.1 and MAb492gen. Fab316.1 envelopes the helix containing the Trx redox-active site at its amino terminus but does not block access to the CXXC motif itself (
FIG. 6B ). It seems that a small substrate like DTT might be able to reduce the Trx active site even in the presence of MAb316.1. Nevertheless, MAb316.1 would physically prevent formation of the inter-domain electron-transfer intermediate of MmQSOX1 (FIG. 6C ), thus interrupting a different step in the catalytic cycle than MAb492.I and MAb492gen (transition fromstate 2 to 3, rather than 1 to 2 inFIG. 1C ). - A QSOX1- targeting antibody with dual species specificity, i.e , that inhibits HsQSOX1 as well as MmQSOX1, would be a valuable tool that could be used in animal models, and in turn, with minimal engineering, in clinical trials. Inventors therefore tested for MA6492gen and MAb316.1 inhibition of HsQSOX1. MAb316.1 up to a concentration of 1 μM did not inhibit HsQSOX1 (
FIG. 7A ). In contrast, though no selection for binding of HsQSOX1 was performed during its development, MAb492gen retained tight-binding activity against HsQSOX1, having a Ki value of 1.6±0.6 nM for HsQSOX1 (FIG. 7B and Table 4, above) compared to 0.9±0.1 nM previously measured for MA6492.1 [Grossman I. et al. (2013), supra]. - A comparison of the three available QSOX1-antibody complex structures suggests features that prevent or contribute to target species specificity. Lack of binding of HsQSOX1Trx by MAb316.1. can be explained once again by the VFPV(135-138) loop, which was a major specificity determinant for MAb492.1. In the Fab31.6.1-MmQSOX1Trx complex, however, the corresponding TLPG(138-141) loop is not directly in the interface, but rather affects the position of the conserved downstream residues AGA(139-142). These downstream residues in HsQSOX1 are expected to clash sterically with CDR H2 of MAb316.1 (
FIG. 7C ). The constellation of aromatic residues (light chain: Y31, Y90, Y93; heavy chain: Y33, W50, Y52) that mediates interaction between Fab31.6.1 and MmQSOX1 presumably does not accommodate minor differences in backbone position between the mouse and human QSOX1 orthologs. Mutating HsQSOX1 to mimic MmQSOX1 by converting TLPG(138-141) to VFPV(138-141) made MAb316.1 inhibition of HsQSOX1 possible, confirming this region as the block to cross-reactivity (FIG. 7D ). - As opposed to MAb316.1 and MAb492.1, MAb492gen accommodates both the TLPG(138-141) loop from MmQSOX1 and presumably the corresponding VFPV(135-138) from HsQSOX1 between its H3, L1, and L2 CDRs, resulting in dual specificity (
FIG. 5F ). One key difference between MAb492gen and the species-specific antibodies (MAb492.1 and MAb316.1) is its lower content of tyrosines and other aromatic residues in the CDRs. Tyrosines are highly prevalent and effective in antibody CDRs, where they can make van der Wools, hydrogen bonding, and cation-π interactions. In MAb492gen, however, three tyrosines were replaced with more flexible residues. Another difference is the introduction of a charged residue, D101, into CDR H3, which becomes buried at the QSOX1-antibody interface. D101 forms water-mediated interactions with the MmQSOX1 TLPG (138-141) loop, while also hydrogen bonding to the light chain (FIG. 5C ). The bulky aromatic residues within the corresponding YYGS sequence of MAb492.1 H3 were apparently unable to accommodate the deviation of MmQSOX1 TLPG(138-141) from HsQSOX1 VFPV(135-138). Though the structural variability of this QSOX1 loop likely positions backbone hydrogen bond donor and acceptor groups differently in space, the water network through which Asp101 interacts with its target in the Fab492gen-MmQSOXTrx complex suggests that MAb492gen can accommodate these differences through a re-organized water structure. Through features offering greater flexibility, MAb492gen acquired expanded capabilities, but it presumably retained its specificity towards QSOX1 antigens by maintaining CDRs that interact with the CXXC motif region (CDRs H1 and H2), the universal catalytic element in QSOX1 Trx domains. - Although the invention has been described in conjunction with specific embodiments thereof, it, is evident that many alternatives, modifications and variations will be apparent to those skilled in the art. Accordingly, it is intended to embrace all such alternatives, modifications and variations that fall within the spirit and broad scope of the appended claims.
- It is the intent of the applicant(s) that all publications, patents and patent applications referred to in this specification are to be incorporated in their entirety by reference into the specification, as if each individual publication, patent or patent application was specifically and individually noted when referenced that it is to be incorporated herein by reference. In addition, citation or identification of any reference in this application shall not be construed as an admission that such reference is available as prior art to the present invention. To the extent that section headings are used, they should not be construed as necessarily limiting. In addition, any priority document(s) of this application is/are hereby incorporated herein by reference in its/their entirety.
- The ability of an antibody inhibiting MmQSOX1 to control tumor growth and metastasis was evaluated in vivo in the 4T1 murine mammary carcinoma breast cancer model previously described [Pulaski and Ostrand-Rosenberg (2001) Mouse 4T1 breast tumor model. Curr. Protoc. Immunol.
Chapter 20, Unit 20.2.]. Mice were injected with 4T1 cells together with matrigel, which aided in formation of a localized tumor, and then divided into five groups (as described in Table 1B, above). Each group received a different treatment: 50 mg/kg control IgG antibody twice a week, 8 mg/kg doxorubicin (a common chemotherapeutic agent) once a week, 30 mg/kg MAb316.1 twice a week, a combination of 8 mg/kg doxorubicin and 30 mg/kg MAb316.1, or a combination of 8 mg/kg doxorubicin and 15 mg/kg MAb316.1. Tumor volumes were measured twice a week. Animals were sacrificed after 20 days, and their tumors and lungs were removed for evaluation. - During the entire experiment, mice treated with doxorubicin alone had smaller tumors than control mice, as previously reported [Gao et al. (2011) J. Control Release 152: 84-89]. Interestingly, treatment with the higher concentration of MAb316.1 used (30 mg/kg) reduced tumor volumes, and treatment with a combination of doxorubicin and 30 mg/kg MAb316.1 decreased tumor volumes compared to treatment with doxorubicin alone (
FIG. 8 ). Treatment with the lower MAb316.1 concentration and doxorubicin resulted in tumors with a comparable size to tumors in the group treated with only doxorubicin. These results show that treatment with 30 mg/kg MAb316.1 twice a week slows the progression of an aggressive breast cancer in mice.
Claims (6)
1. An antibody comprising an antigen recognition domain exhibiting species cross reactivity to human QSOX1 and murine QSOX1, said antigen recognition domain comprising complementarity determining regions (CDRs) as set forth in SEQ ID NOs: 26-31.
2. The antibody of claim 1 , wherein said antibody is an antibody fragment, a single chain antibody or a monoclonal antibody.
3. The antibody of claim 2 , wherein said monoclonal antibody is Mab316.1 and comprises CDRs SEQ ID NOs: 26-31.
4. The antibody of claim 2 , wherein said single chain antibody is Mab316.1 and comprises CDRs SEQ ID NOs: 26-31.
5. A pharmaceutical composition comprising as an active ingredient the monoclonal antibody of claim 1 and a pharmaceutically acceptable carrier.
6. A method for preventing or treating a laminin-associated disease or condition in a subject in need thereof, the method comprising administering to the subject a therapeutically effective amount of the pharmaceutical composition of claim 5 .
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US17/087,765 US20210147575A1 (en) | 2015-10-25 | 2021-02-07 | Antibodies targeting quiescin sulfhydryl oxidase (qsox1) and uses of same |
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US201562246076P | 2015-10-25 | 2015-10-25 | |
PCT/IL2016/051147 WO2017072757A1 (en) | 2015-10-25 | 2016-10-25 | Antibodies targeting quiescin sulfhydryl oxidase (qsox1) and uses of same |
US15/961,928 US10829561B2 (en) | 2015-10-25 | 2018-04-25 | Antibodies targeting quiescin sulfhydryl oxidase (QSOX1) and uses of same |
US17/087,765 US20210147575A1 (en) | 2015-10-25 | 2021-02-07 | Antibodies targeting quiescin sulfhydryl oxidase (qsox1) and uses of same |
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WO2017072757A1 (en) | 2015-10-25 | 2017-05-04 | Yeda Research And Development Co. Ltd. | Antibodies targeting quiescin sulfhydryl oxidase (qsox1) and uses of same |
US20200256880A1 (en) * | 2017-08-16 | 2020-08-13 | The Broad Institute, Inc. | Neuronal Assay Method Involving Calcineurin |
IL261156A (en) * | 2018-08-14 | 2020-02-27 | Fass Deborah | Chimeric quiescin sulfhydryl oxidase (qsox1) antibodies and uses of same |
US20220106398A1 (en) * | 2019-02-08 | 2022-04-07 | Igm Biosciences, Inc. | Anti-gitr antigen-binding domains and uses thereof |
WO2020206454A1 (en) * | 2019-04-04 | 2020-10-08 | Sapphire Biotech, Inc. | Systems and methods for rapid diagnostic for various cancers |
WO2022132859A1 (en) * | 2020-12-15 | 2022-06-23 | Arizona Board Of Regents On Behalf Of Arizona State University | Antibodies specific for qsox1 and methods of using the same |
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US20180273639A1 (en) | 2018-09-27 |
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