WO2003075846A2 - Uses of monoclonal antibody 8h9 - Google Patents
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- WO2003075846A2 WO2003075846A2 PCT/US2003/007004 US0307004W WO03075846A2 WO 2003075846 A2 WO2003075846 A2 WO 2003075846A2 US 0307004 W US0307004 W US 0307004W WO 03075846 A2 WO03075846 A2 WO 03075846A2
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Classifications
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K16/00—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies
- C07K16/42—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against immunoglobulins
- C07K16/4208—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against immunoglobulins against an idiotypic determinant on Ig
- C07K16/4241—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against immunoglobulins against an idiotypic determinant on Ig against anti-human or anti-animal Ig
- C07K16/4258—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against immunoglobulins against an idiotypic determinant on Ig against anti-human or anti-animal Ig against anti-receptor Ig
- C07K16/4266—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against immunoglobulins against an idiotypic determinant on Ig against anti-human or anti-animal Ig against anti-receptor Ig against anti-tumor receptor Ig
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K51/00—Preparations containing radioactive substances for use in therapy or testing in vivo
- A61K51/02—Preparations containing radioactive substances for use in therapy or testing in vivo characterised by the carrier, i.e. characterised by the agent or material covalently linked or complexing the radioactive nucleus
- A61K51/04—Organic compounds
- A61K51/08—Peptides, e.g. proteins, carriers being peptides, polyamino acids, proteins
- A61K51/10—Antibodies or immunoglobulins; Fragments thereof, the carrier being an antibody, an immunoglobulin or a fragment thereof, e.g. a camelised human single domain antibody or the Fc fragment of an antibody
- A61K51/1045—Antibodies or immunoglobulins; Fragments thereof, the carrier being an antibody, an immunoglobulin or a fragment thereof, e.g. a camelised human single domain antibody or the Fc fragment of an antibody against animal or human tumor cells or tumor cell determinants
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P35/00—Antineoplastic agents
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P43/00—Drugs for specific purposes, not provided for in groups A61P1/00-A61P41/00
-
- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K16/00—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies
- C07K16/18—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from animals or humans
- C07K16/28—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from animals or humans against receptors, cell surface antigens or cell surface determinants
- C07K16/30—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from animals or humans against receptors, cell surface antigens or cell surface determinants from tumour cells
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K39/00—Medicinal preparations containing antigens or antibodies
- A61K2039/505—Medicinal preparations containing antigens or antibodies comprising antibodies
-
- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K2317/00—Immunoglobulins specific features
- C07K2317/20—Immunoglobulins specific features characterized by taxonomic origin
- C07K2317/24—Immunoglobulins specific features characterized by taxonomic origin containing regions, domains or residues from different species, e.g. chimeric, humanized or veneered
-
- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K2317/00—Immunoglobulins specific features
- C07K2317/70—Immunoglobulins specific features characterized by effect upon binding to a cell or to an antigen
- C07K2317/73—Inducing cell death, e.g. apoptosis, necrosis or inhibition of cell proliferation
- C07K2317/732—Antibody-dependent cellular cytotoxicity [ADCC]
Definitions
- Monoclonal antibody 8H9 is a murine IgGl hybridoma derived from the fusion of mouse myeloma SP2/0 cells and splenic lymphocytes from BALB/c mice immunized with human neuroblastoma. By immunohistochemistry, 8H9 was highly reactive with human brain tumors, childhood sarcomas, neuroblastomas and less so with adenocarcinomas.
- glioblastomas 15/17 glioblastomas, 3/4 mixed gliomas, 4/11 oligodendrogliomas, 6/8 astrocytomas, 2/2 meningiomas, 3/3 schwannomas, 2/2 medulloblastomas, 1/1 neurofibroma, 1/2 neuronoglial tumors, 2/3 ependymomas and 1/1 pineoblastoma were tested positive.
- sarcomas 21/21 Ewing's/PNET, 28/29 rhabdomyosarcoma, 28/29 osteosarcomas, 35/37 desmoplastic small round cell tumors, 2/3 synovial sarcomas, 4/4 leiomyosarcomas, 1/1 malignant fibrous histiocytoma and 2/2 undifferentiated sarcomas tested positive with 8H9.
- 87/90 neuroblastomas 12/16 melanomas, 3/4 hepatoblastomas, 7/8 ilm's tumors, 3/3 rhabdoid tumors and 12/27 adenocarcinomas also tested positive.
- 8H9 was nonreactive with normal human tissues including bone marrow, colon, stomach, heart, lung, muscle, thyroid, testes, pancreas, and human brain (frontal lobe, cerebellum, pons and spinal cord). Reactivity with normal cynomolgus monkey tissue was similarly restricted. Indirect immunofluorescence localized the antigen recognized by 8H9 to the cell membrane. The antigen is proteinase-sensitive and is not easily modulated off cell surface. 8H9 immuno- precipitated a 58kD band following N-glycanase treatment, most likely a protein with heterogeneous degree of glycosylation. This novel antibody-antigen system may have potential for tumor targeting.
- Monoclonal antibodies such as 3F8 (1) and 14.18 (2) against G D2 in neuroblastoma, M195 against CD33 in acute leukemia (3), anti-HER2 antibodies in breast cancer (4) and anti-
- CD20 antibodies in lymphoma (5) have shown efficacy in recent clinical trials.
- the prognosis in glial brain tumors and metastatic mesenchymal and neuroectodermal tumors remains dismal despite innovations in chemotherapy and radiation therapy.
- Immunotherapy may offer new possibilities for improving the outcome in these patients.
- Tumor antigens expressed on cell membrane are potential targets in immunotherapy.
- tumor antigens expressed on glial tumors include neural cell adhesion molecules (6), gangliosides such as G D2 and G M2 (7), and neurohematopoeitic antigens (8).
- Membrane antigens that have been targeted on osteosarcoma include G D2 (15), CD55 (16) and an as yet undefined osteosarcoma-associated antigen recognized by the MoAbs TP-1 and TP-3 (17). However, these antigens are present to varying degrees on normal tissues. Similarly the glycoprotein p 30/32 codedby the MIC2 oncogene and recognized by the monoclonal antibody 013 in the Ewing's family of tumors is expressed on normal tissues
- tumor antigen for targeted immunotherapy should be absent on normal tissues and abundantly expressed on tumor cell surface.
- Such tumor-specific antigens e.g. idiotypes in B cell lymphoma are rare (20).
- a "generic" tumor-specific antigen expressed on tumor cells of varying lineage recognized by monoclonal antibodies may have broader utility in antibody-based strategies.
- a novel tumor- associated antigen recognized by a murine monoclonal antibody 8H9, expressed on cell membranes of a broad spectrum of tumors of neuroectodermal, mesenchymal and epithelial origin, with restricted distribution on normal tissues.
- This invention provides a composition comprising an effective amount of monoclonal antibody 8H9 or a derivative thereof and a suitable carrier.
- This invention provides a pharmaceutical composition comprising an effective amount of monoclonal antibody 8H9 or a derivative thereof and a pharmaceutically acceptable carrier.
- This invention also provides an antibody other than the monoclonal antibody 8H9 comprising the complementary determining regions of monoclonal antibody 8H9 or a derivative thereof, capable of binding to the same antigen as the monoclonal antibody 8H9.
- This invention provides a substance capable of competitively inhibiting the binding of monoclonal antibody 8H9.
- the substance is an antibody.
- This invention provides an isolated antibody, wherein the Complementary Determining
- Region is NYDIN, for CDRl, WIFPGDGSTQY for CDR2, QTTATWFAY for CDR3 for the heavy chain, and RASQSISDYLH for the CDRl, YASQSIS for CDR2,
- QNGHSFPLT for CDR3 for the light chain This invention further provides the above antibody, wherein the other sequences are of human origin.
- the invention also provides a composition comprising an effective amount of monoclonal antibody 8H9 or a derivative thereof and a suitable carrier, which includes sequences as set forth in Figure 33.
- the sequences are mutated.
- This invention also provides the mutated form of 8H9, so as to reduce background a nd cytotoxicity. Other mutations could be established which could achieve the above-described function.
- the antibody includes sequences as set forth in Figure 34.
- the invention provides a composition comprising the above antibodies and an isolated nucleic acid molecule encoding the antibodies above.
- This invention also provides the isolated nucleic acid molecule above, wherein the sequences are set forth in
- this invention provides a vector comprising the above nucleic acid molecules.
- the invention also provides a cell comprising the above vector.
- This invention provides an isolated scFv of monoclonal antibody 8H9 or a derivative thereof.
- the scFv is directly or indirectly coupled to a cytotoxic agent.
- This invention provides a cell comprising 8H9-scFv. In an embodiment, it is a red cell.
- This invention also provides a 8H9-scFv-gene modified cell.
- This invention provides a liposome modified by 8H9-scFv.
- This invention provides a method for directly kill, or deliver d g, DNA, RNA or derivatives thereof to cell bearing the antigen recognized by the monoclonal antibody 8H9 or to image cells or tumors bearing said antigen using the isolated 8H9-scFv or cell or liposome comprising the 8H9-scFv.
- This invention provides a protein with about 58 kilodaltons in molecular weight, reacting specifically with the monoclonal antibody 8H9.
- this 58 kd protein is glycosylated, the apparent molecular weight is about 90 kilodaltons.
- This invention also provides an antibody produced by immunizing the 8H9 antigen or specific portion thereof, which is immunogenic.
- This invention also provides a nucleic acid molecule encoding the 8H9 antigen.
- this invention provides a nucleic acid molecule capable of specifically hybridizing the molecule encoding the 8H9 antigen.
- the nucleic acid molecule includes but is not limited to synthetic DNA, genomic DNA, cDNA or RNA.
- This invention provides a vector comprising the nucleic acid molecule encoding 8H9 antigen or a portion thereof.
- This invention provides a cell comprising the nucleic acid molecule encoding 8H9 antigen.
- This invention provides a method for producing the protein which binds to the monoclonal antibody 8H9 comprising cloning the nucleic acid molecule encoding the 8H9 antigen in an appropriate vector, expressing said protein in appropriate cells and recovery of said expressed protein.
- This invention also provides a method for production of antibody using the protein produced by the above method.
- This invention also provides antibodies produced by the above method.
- the antibody is a polyclonal antibody.
- the antibody is a monoclonal.
- This invention provide a method of inhibiting the growth of tumor cells comprising contacting said tumor cells with an appropriate amount of monoclonal antibody 8H9 or a derivative thereof, or the antibody of claim produced by the expressed 8H9 antigen or a derivative of the produced antibody thereof.
- This invention provides a method of inhibiting the growth of tumor cells in a subject comprising administering to the subject an appropriate amount of monoclonal antibody
- This invention provides a method for imaging a tumor in a subject comprising administering to the subject a labeled monoclonal antibody 8H9 or labeled derivatives, or a labeled antibody produced by the expressed 8H9 antigen or a labeled derivative.
- the antibodies or derivatives are labeled by a radioisotope.
- This invention provides a method of reducing tumor cells in a subject comprising administering to the subject monoclonal antibody 8H9 or a derivative thereof, or a monoclonal antibody produced by the expressed 8H9 antigen or a derivative thereof wherein the antibody or derivative is coupled to a cytotoxic agent to the subject.
- This invention provides a method to evaluate the tumor bearing potential of a subject comprising measuring the expression the 8H9 antigen in the subject, wherein the increased expression of said antigen indicates higher tumor bearing potential of the subject.
- This invention provides a transgenic animal comprising an exogenous gene encoding the 8H9 antigen.
- This invention also provides a knock out animal wherein the gene encoding the 8H9 mouse analogous antigen has been knocked out.
- this invention provides a method to screening new anti-tumor compound comprising contacting the above transgenic animal with the tested compound and measuring the level of expression of the 8H9 antigen in said transgenic animal, a decrease in the level of expression indicating that the compound can inhibit the expression of the
- FIGURE 1A Desmoplastic small round cell tumor (10X) immunostained with 8H9 showing strong membrane positivity and typical histology (IB) Glioblastoma multiforme stained with 8H9 showing binding to cell membranes and fibrillary stroma (lC) Embryonal rhabdomyosarcoma stained with 8H9 showing cell membrane reactivity (ID) Negative staining of embryonal rhabdomyosarcoma with MOPC21, an irrelevant IgGl control antibody FIGURE 2. Persistence of 8H9 binding to U2OS cells (2A) and NMB7 cells (2B) as studied by indirect immunofluorescerce. X-axis: relative immunofluorescence, y-axis: hours of incubation.
- U2OS cells were reacted with 8H9 and HB95, a d NMB7 eels with 8H9 and 3F8. After washing, cells were recultured and persistence of immunoreactivity of the primary antibodies evaluated by indirect immunofluorescence using FTTC-conjugated secondary antibody. Relative immunofluorescence of 8H9 on U2OS cells dropped to 80% after 48hrs (HB95 to 11%), while that on NMB7 cells showedno significant drop off at 36 hrs (3F8 dropped to 39%)
- FIGURE 3 Effect of Pronase E on 8H9 immunoreactivity with HTB82, U2OS and NMB7 cells and on 3F8 immunoreactivity with NMB7 cells as studied by indirect immunofluorescence.
- X-axis concentration of Pronase E (mg/ml);
- y-axis relative immunofluorescence
- FIGURE 1 (FIGURE 4 in the attached figures) 4 cycles of 3F8 and low level HAMA response are associated with prolonged survival.
- FIGURE 2 Improved long-term survival after MoAb 3F8 in patients with stage 4 NB newly diagnosed > 1 year of age at Memorial Sloan-Kettering Cancer Center.
- N4 to N7 are s equential protocols over 15 years.
- N4 and N 5 are c hemotherapy + ABMT,
- N 6 is chemotherapy + 3F8, and
- N7 is N6 + 131 I-3F8.
- FIGURE 3 (FIGURE 6 in the attached figures) Antigen modulation following binding to 8H9.
- FIGURE 5. (FIGURE 8 in the attached figures) High tumor-tissue ratio was specific for I25 I-8H9 vs control MoAb 125 I-2C9 in RMS xenografts. THIRD SERIES OF EXPERIMENTS
- FIGURE 1 ( FIGURE 9 in the attached figures) Reactivity of 8H9 with Ewing's sarcoma cell lines.
- FIGURE 2 Lack of Reactivity of 8H9 with T cells or bone marrow progenitor cells.
- Electronically gated Cd3+ cells from peripheral blood of a normal donor (top panel) are analyzedfor isotype (dashed line), CD99 (thin blackline) and 8H9 (thick black line).
- FIGURE 3 (FIGURE 11 in the attached figures) Real-time PCR analysis of t(ll,22) in artificially contaminated PBMCs accurately quantifies EWS F1I 1 transcript over up to five log dilutions of tumor.
- Crossing time (x axis) is plotted vs. fluorescence (y axis) 11a: Non-nested PCR of 10 XI 0 6 PBMCs contaminated from 1:10 to 1:10° . hi the inset, a linear relationship between crossing time and log cell concentration over 4 log dilutions of tumor is shown.
- FIGURE 4 Quantitative PCR analyis of purging demonstrates 2-3 log reduction in peripheral blood and progenitor cells spikes with Ewing's Sarcoma cells. Cycle number (x axis) is plotted vs. fluorescence (y axis).
- a three-log reduction in tumor burden is demonstrated in the post-purged sample which shows a level of contamination at 1 : 10 6 .
- 12c Nested PCR analysis of pre-purged and post-purged PBMCc from a normal healthy donor buffy coat contaminated at a level of 1 : 100.
- a greater than 3-log reduction in tumor burden is demonstrated in the post-purged sample which shows a level of contamination of less than 1:10 6 .
- 12d Nested PCR analysis of pre-purged and post-purged non PBMCs from a normal healthy donor buf y coat contaminated at a level of 1 : 10 3 .
- a 3 log reduction in tumor burden is demonstrated in the post-purged sample which shows a level of contarrrinationat 1:10 6 .
- FIGURE 5 Contamination of patient elutriated apheresis fractions is demonstrated at at level of 1 : 10 5 -1 : 10 6 .
- Cycle number (x axis) is plotted vs. fluorescence (y axis)
- Patient samples are compared to standard contaminated dilutions.
- Patient a shows ccrata ination of all fractions at a level of 1 :10 s -l : 10 6 .
- Patient B shows contamination in the leukocyte fraction only at a level of approximately 1:10
- Patient C shows contamination in several fractions at a similar leveL FIGURE 6.
- FIGURE 14 in the attached figures Progenitor CFU carability is not affected by
- FIGURE 7 OKT3 mediated T cell proliferation is unchanged after purging when compared to pre-purged proliferation.
- T cells from normal healthy donor buffy coat were evalauted for [ 3 H] Thymidine uptake as a measure of T cell proliferation with a decreasing concentration of OKT3. Uptake is measured as counts per million (y axis) and is plotted vs. OKT3 concentration for pre-purged (solid square), and post purged (solid circle).
- FIGURE 16 DSRCT (40X) demonstrating cell membrane and stromal reactivity with 3F8
- FIGURE 17 DSRCT (40X) showing strong, homogeneous, cell membrane and stromal reactivity with 8H9
- FIGURE 18 Inhibition of 8H9 by anti-idiotype 2E9 by FACS analysis.
- 18A Staining of LAN-1 neuroblastoma cells with 5 ug/ml of 8H9 (shaded peak) was not inhibited at low concentration of 2E9 (2 ug/ml, solid line), but almost completely at concentration of 10 ug ml (dotted line) superimposable with the negative antibody control (solid line).
- 18B Staining of LAN-1 neuroblastoma cells with 5 ug/ml of 3F8 (anti-GD2, shaded peak) was not inhibited by any concentrations (2 ug ml, solid line, or 200 ug/ml, dotted line) of 2E9.
- 18C Staining of HTB-82 rhabdomyosarcoma cells with 5 ug/ml of 8H9 (grey peak) was not inhibited at low concentration (2 ug/ml, solid line), but completely at 10 ug/ml of 2E9 (solid line) superimposable with negative antibody control (black peak).
- FIGURE 2 Staining of LAN-1 neuroblastoma cells with 5 ug/ml of 3F8 (anti-GD2, shaded peak) was not inhibited by any concentrations (2 ug ml, solid line, or 200 ug/ml, dotted line) of 2E9.
- 18C Staining of HTB-82
- FIGURE 19 in the attached figures SDS-PAGE (lanes a and b) and Western blot (c and d) of 8H9 scFv-Fc.
- H heavy chain of 8H9
- L light chain of 8H9
- scFv-Fc chimeric fusion protein between 8H9 scFv and the human 1-CH2-CH3 domain.
- 2-mercaptothanol lanes a, b and c.
- Native gel lane d. SDS-PAGE was stained with Comassie Blue; western blot with
- FIGURE 3 FACS analysis of 8h9-scFv-Fc staining of HTB82 r habdomyosarcoma cells. 20A Immunofluorescence increased with concentrations of
- 8H9-scFv-Fc (1, 5, 25, 125 ug/ml), shaded peak is no antibody control.
- 20B Cell staining (5 ug/ml of 8H9-scFv-Fc, thin solid line) was completely inhibited (thick solid line) at 1 ug/ml of anti- idiotypic antibody 2E9, shaded peak is no antibody control.
- FIGURE 4 (FIGURE 21 in the attached figures) Imniunoscintigiaphy of human tumors using 125 I-Iabeled 8H9 scFv-Fc. Mice xenografted with human LAN-1 neuroblastoma received retroorbital injections of 25 uCi of 125 I-labeled antibody. 24h, 48h and 7 days after injection, the animals were anesthesized and imaged with a gamma camera.
- FIGURE 5 Blood clearance of 125 l-labeled chimeric
- mice xenografted with human LAN-1 neuroblastoma received retroorbital injections of 125 I-labeled antibody. Percent injected dose/gm of serial blood samples were plotted over time.
- FIGURE 23 Anti-idiotype affinity enrichment of producer lines.
- Producer lines were stained with anti-idiotypic MoAb 2E9 before (shaded peak, A and B), and after first (dotted line peak, A) and second (thick solid line, A) affinity purification, and after first (dotted line, B) and second (solid line B) subcloning, showing improved scFv expression.
- FIGURE 2 (FIGURE 24 in the attached figures) Flow cytometry analysis of scFv expression. Cultured 8H9-scFv-CD28-.
- FIGURE 3 (FIGURE 25 in the attached figures) In vitro expansion of 8H9-scFv-CD2&- gene- modified primary human lymphocytes. Clonal expansion was expressed as a fraction of the initial viable cell number. IL-2 (100 U/ml) was added after retroviral infection and was present throughout the entire in vitro culture period. Short bars depict the days when soluble anti-idiotypic antibody 2E9 (3-10ug/n ⁇ l) wasprese ⁇ tintheculture.
- FIGURE 26 Cytotoxicity against tumor cell lines: 8H9- scFv-CD28 ⁇ - gene-modified lymphocytes from day 56 of culture (scFv-T) were assayed by 5 Cr release assay in the presence or absence of 8H9 (50 ug/ml final concentration) as an antigen blocking agent.
- 26A NMB-7 neuroblastoma.
- 26B LAN-1 neuroblastoma.
- 26C HTB-82 rhabdomyosarcoma.
- 26D Daudi lymphoma.
- FIGURE 5 Cytotoxicity against tumor cell lines: 8H9- scFv-CD28 ⁇ - gene-modified lymphocytes from day 56 of culture (scFv-T) were assayed by 5 Cr release assay in the presence or absence of 8H9 (50 ug/ml final concentration)
- FIG. 27 Suppression of rhabdomyosarcoma tumor growth in SOD mice.
- Human rhabdomyosarcoma HTB-82 was strongly reactive with 8H9, but not with 5F11 (anti-GD2) antibodies.
- Experimental group 8H9-scFv-CD28 ⁇ - gene-modified human lymphocytes (solid circles).
- Control groups no cells + 2E9 (open circles), cultured unmodified lymphocytes (LAK) + 2E9 (open triangles), or 5FllscFv-CD28 ⁇ - modified lymphocytes + 1G8 [rat anti-5Fll anti-idiotype MoAb] (solid triangles).
- FIGURE 28 in the attached figures Sequential imaging of nude mouse bearing
- FIGURE 29 Blood kinetics of 125 I-8H9 in nude mice with
- FIGURE 3 (FIGURE 30 in the attached figures) Comparison of biodistribution of 125 I-8H9 at
- FIGURE 4 Comparison of biodistribution of 125 I-8H9 with that of the nonspecific anticytokeratin MoAb I-2C9 (solid bars) in xenografts and normal tissues.
- FIGURE 5 (FIGURE 32 m the attached figures) Anti tumor effect on RMS xenografts: 131 I- 8H9 versus negative control MoAb 131 I-3F8. Eachmouse received 18.5MBq radiolabeled MoAb (5 mice per group).
- FIGURE 33 8H9 scFv gene sequence (sense and complementary).
- Complementary determining regions (CDR) are marked in boxes in the following order : CDR-1 (HC, heavy chain), CDR-2 (HC), CDr-3 (HC), CDR-1 (LC, light chain), CDR-2 (LC), CDR-3
- FIGURE 34 Gene and amino acid sequences of 8H9scFv is depicted. Mutated 8H9 scFv carries the following site-directed mutagenesis (NH: K13E and VL: R18Q, R45Q, K103E, K107E) to decrease PI from 6.4 to 4.8, and net charge from -1 to -9, a strategy to decrease nonspecific normal tissue adherence.
- This invention provides a composition comprising an effective amount of monoclonal antibody 8H9 or a derivative thereof and a suitable carrier.
- This invention provides a pharmaceutical composition comprising an effective amount of monoclonal antibody 8H9 or a derivative thereof and a pharmaceutically acceptable carrier.
- the derivative is a scFv.
- the antibody is an antibody-fusion construct.
- the antibody is an scFvFc.
- This invention provides an isolated antibody, wherein the Complementary Determining Region is NYDIN, for CDRl, WIFPGDGSTQY for CDR2, QTTATWFAY for CDR3 for the heavy chain, and RASQSISDYLH for the CDRl, YASQSIS for CDR2, QNGHSFPLT for CDR3 for the light chain.
- This invention further provides the above antibody, wherein the other sequences are of human origin.
- the invention also provides a composition comprising an effective amount of monoclonal antibody 8H9 or a derivative thereof and a suitable carrier, which includes sequences as set forth in Figure 33.
- the sequences are mutated.
- This invention also provides the mutated form of 8H9, so as to reduce background and cytotoxicity. Other mutations could be established which could achieve the above-described function.
- the antibody includes sequences as set forth in Figure 34.
- the invention provides a composition comprising the above antibodies and an isolated nucleic acid molecule encoding the antibodies above.
- This invention also provides the isolated nucleic acid molecule above, wherein the sequences are set forth in Figure 33.
- This invention also provides a peptide or polypeptide comprising: NYDIN, WIFPGDGSTQY, QTTATWFAY, RASQSISDYLH, YASQSIS, QNGHSFPLT alone or in combination thereof.
- the peptide or polypeptide functions similarly to the 8H9 antibody and therefore, for the below uses, this peptide or polypeptide may be used similarly.
- the invention provides an isolated nucleic acid encoding the above peptide.
- this invention provides a vector comprising the above nucleic acid molecules.
- the invention also provides a c ell comprising the above vector.
- This invention further provides cells expressing the 8H9 or derivative of 8H9 antibodies.
- This invention provides an antibody other than the monoclonal antibody 8H9 comprising the complementary determining regions of monoclonal antibody 8H9 or a derivative thereof, capable of binding to the same antigen as the monoclonal antibody 8H9.
- This invention also provides a substance capable of competitively inhibiting the binding of monoclonal antibody 8H9.
- the substance is an antibody.
- the substance is a peptide.
- This invention further provides an isolated single chain antibody of 8H9 or a derivative thereof.
- This invention also provides an isolated scFv of monoclonal antibody 8H9 or a derivative thereof. Single chain antibodies or derivatives are known in the antibody field.
- the scFv is directly or indirectly coupled to a cytotoxic agent.
- the scFv is linked to a first protein capable of binding to a second protein which is coupled to a cytotoxic agent.
- Same rationale applies to the imaging uses of the 8H9 monoclonal antibody or its derivative.
- the antibody or its derivative will be coupled to an imaging agent. Both cytotoxic or imaging agents are known in the art.
- This invention provides a cell comprising 8H9-scFv.
- the cell is a red cell.
- This invention also provides a 8H9-scFv-gene modified cell.
- This invention also provides a liposome modified by 8H9-scFv. It is one intention of the disclosure to deliver 8H9 via liposomes or via other delivery technologies.
- This invention provides a method to directly kill, or deliver drug, DNA, RNA or derivatives thereof to cell bearing the antigen recognized by the monoclonal antibody 8H9 or to image cells or tumors bearing said antigen using the isolated 8H9-scFv or 8H9-scFv modified cell or liposome.
- This invention provides a protein with about 58 kilodaltons in molecular weight, reacting specifically with the monoclonal antibody 8 H9. W hen this protein is glycosylated, the apparent molecular weight is about 90 kilodaltons.
- This invention provides an antibody produced by immunizing the expressed 8H9 antigen or specific portion thereof.
- the specific portion is the region which is recognized by 8H9.
- Another region is the region which performs its specific function.
- This invention provides a nucleic acid molecule encoding 8H9 antigen.
- This invention provides a nucleic acid molecule capable of specifically hybridizing the nucleic acid molecule which encodes the 8H9 antigen.
- the nucleic acid molecule includes but is not limited to synthetic DNA, genomic DNA, cDNA or RNA.
- This invention also provides a vector comprising the nucleic acid molecule encoding the
- This invention provides a cell comprising the nucleic acid molecule encoding the
- This invention provides a method for producing the protein which binds to the monoclonal antibody 8H9 comprising cloning the nucleic acid molecule which encodes the 8H9 antigen in an appropriate vector, expressing said protein in appropriate cells and recovery of said expressed protein.
- This invention provides a method for production of antibody using the expressed 8H9 antigen or the portion which is immunogenic.
- This invention also provides an antibody produced by the above described method.
- the antibody is polyclonal. In another embodiment, the antibody is a monoclonal.
- This invention provides a method of inhibiting the growth of tumor cells comprising contacting said tumor cells with an appropriate amount of monoclonal antibody 8H9 or a derivative thereof, or the antibody produced using the expressed 8H9 antigen or a derivative thereof.
- This invention provides a method of inhibiting the growth of tumor cells in a subject comprising administering to the subject an appropriate amount of monoclonal antibody 8H9 or a derivative thereof, or the antibody produced using the expressed 8H9 antigen or a derivative thereof.
- This invention provides a method for imaging a tumor in a subject comprising administering to the subject a labeled monoclonal antibody 8H9 or a labeled derivatives, or a labeled antibody produced using the expressed 8H9 antigen or a labeled derivative.
- the antibody or the derivative is labeled with radioisotope.
- This invention provides a method of reducing tumor cells in a subject comprising administering to the subject monoclonal antibody 8H9 or a derivative thereof, or a monoclonal antibody produced using the expressed 8H9 antigen or a derivative thereof wherein the antibody or derivative is coupled to a cytotoxic agent to the subject.
- the coupling to a cytotoxic agent is indirect.
- the coupling is first directly linking the antibody or derivative with a first protein which is capable of bind to a second protein and the second protein is covalently couple to a cytotoxic agent.
- the cytotoxic agent is a radioisotope.
- This invention also provides a method to evaluate the tumor bearing potential of a subject comprising measuring the expression the 8H9 antigen in the subject, wherein the increased expression of said antigen indicates higher tumor bearing potential of the subject.
- This invention provides a transgenic animal comprising an exogenous gene encoding the
- the transgenic animal may also carried an knock out gene encoding the 8H9 mouse analogous antigen. In an embodiment, it is a transgenic mouse.
- This invention provides a method to screening new anti-tumor compound comprising contacting the transgenic animal with the tested compound and measuring the level of expression of the 8H9 antigen in said transgenic animal, a decrease in the level of expression indicating that the compound can inhibit the expression of the 8H9 antigen and is a anti-tumor candidate.
- Monoclonal antibody 8H9 is a murine IgGl hybridoma derived from the fusion of mouse myeloma SP2/0 cells and splenic lymphocytes from BALB/c mice immunized with human neuroblastoma. By immunohistochemistry, 8H9 was highly reactive with human brain tumors, childhood sarcomas, neuroblastomas and less so with adenocarcinomas.
- glioblastomas 15/17 glioblastomas, 3/4 mixed gliomas, 4/11 oligodendrogliomas, 6/8 astrocytomas, 2/2 meningiomas, 3/3 schwannomas, 2/2 medulloblastomas, 1/1 neurofibroma, 1/2 neuronoglial tumors, 2/3 ependymomas and 1/1 pineoblastoma were tested positive.
- sarcomas 21/21 Ewing's/PNET, 28/29 rhabdomyosarcoma, 28/29 osteosarcomas, 35/37 desmoplastic small round cell tumors, 2/3 synovial sarcomas, 4/4 leiomyosarcomas, 1/1 malignant fibrous histiocytoma and 2/2 undifferentiated sarcomas tested positive with 8H9.
- 87/90 neuroblastomas 12/16 melanomas, 3/4 hepatoblastomas, 7/8 Wilm's tumors, 3/3 rhabdoid tumors and 12/27 adenocarcinomas also tested positive.
- 8H9 was nonreactive with normal human tissues including bone marrow, colon, stomach, heart, lung, muscle, thyroid, testes, pancreas, and human brain (frontal lobe, cerebellum, pons and spinal cord). Reactivity with normal cynornolgus monkey tissue was similarly restricted. Indirect immunofluorescence localized the antigen recognized by 8H9 to the cell membrane. The antigen is proteinase-sensitive and is not easily modulated off cell surface. 8H9 immuno- precipitated a 58kD band following N-glycanase treatment, most likely a protein with heterogeneous d egree o f g lycosylation. T his novel a ntibody-antigen system m ay have potential for tumor targeting.
- Monoclonal antibodies such as 3F8 (1) and 14.18 (2) against G D2 in neuroblastoma, M195 against CD33 in acute leukemia (3), anti-HER2 antibodies in breast cancer (4) and anti- CD20 antibodies in lymphoma (5) have shown efficacy in recent clinical trials.
- the prognosis in glial brain tumors and metastatic mesenchymal and neuroectodermal tumors remains dismal despite innovations in chemotherapy and radiation therapy. Immunotherapy may offer new possibilities for improving the outcome in these patients.
- Tumor antigens expressed on cell membrane are potential targets in immunotherapy.
- tumor antigens expressed on glial tumors include neural cell adhesion molecules (6), gangliosides such as G D2 and GM 2 (7), and neurohematopoeitic antigens (8).
- growth factor receptors as immune targets, in particular type III mutant epidermal growth factor receptor (EGFRvIII) which has been shown to be expressed on 50% of glial brain tumors (9). Notwithstanding the universal expression of NCAM by neuronal cells, two clinical studies have utilized anti-NCAM antibodies in p atients.
- Anti-tenascin monoclonal antibodies 81C6 (13) and BC-2 and BC-4 (14) administered intra-cavity have recently been reported to show efficacy in the treatment of patients with malignant gliomas.
- these antigens are also present to varying degrees on normal human neural and non-neural cells, their clinical utility would depend on their overexpression by brain tumors when compared to normal tissues.
- the glial tumors antigens described to date are generally found on normal brain tissue, or are restricted to intracellular compartments, thus with limited clinical utility for antibody targeting.
- Membrane antigens that have been targeted on osteosarcoma include G D2 (15), CD55 (16) and an as yet undefined osteosarcoma-associated antigen recognized by the MoAbs TP-1 and TP-3 (17). However, these antigens are present to varying degrees on normal tissues.
- glycoprotein p 30/32 coded by the MIC2 oncogene and recognized by the monoclonal antibody O13 in the Ewing's family of tumors is expressed on normal tissues
- tumor antigen for targeted immunotherapy should be absent on normal tissues and abundantly expressed on tumor cell surface.
- Such tumor-specific antigens e.g. idiotypes in B cell lymphoma are rare (20).
- a "generic" tumor-specific antigen expressed on tumor cells of varying lineage recognized by monoclonal antibodies may have broader utility in antibody-based strategies.
- a novel tumor- associated antigen recognized by a murine monoclonal antibody 8H9, expressed on cell membranes of a broad spectrum of tumors of neuroectodermal, mesenchymal and epithelial origin, with restricted distribution on normal tissues .
- Frozen tumors from 330 patients with neuroectodermal, mesenchymal and epithelial neoplasia were analyzed. All diagnoses of tumor samples were confirmed by hematoxylin and eosin assessment of paraffin-embedded specimens. 15 normal human tissue samples and 8 normal cynomolgus monkey tissue samples obtained at autopsy were also analyzed. Cell lines
- Human neuroblastoma cell lines LA-N-1 was provided by Dr. Robert Seeger, Children's Hospital of Los Angeles, Los Angeles, C A.
- Human neuroblastoma cell lines LA-15-N, LA-66-N, LA-5S, LA-19-S and LA-19-N were provided by Dr. Robert Ross (Fordham University, NY) and IMR 32 and NMB7 by Dr. Shuen-Kuei Liao (McMaster University,
- Breast carcinoma cell lines SW480 and ZR75-1 were provided by Dr. S. Welt (Memorial Sloan-Kettering Cancer Center, NY) and the melanoma line SKMel28 by Dr. P . Chapman (Memorial S loan-Kettering Cancer Center, NY).
- SKNMC were derived from patients with metastatic disease treated at MSKCC.
- the following cell lines were purchased from American Type Culture Collection, Bethesda, MD: melanoma cell lines HTB63 and HTB67, rhabdomyosarcoma cell line HTB82, small cell lung cancer cell line HTB 119, acute T-leukemia cell line Jurkat, glioblastoma multiforme cell line Glio72, breast cancer cell line HTB 22, colon carcinoma cells line SK
- Co-1, Hela, embryonal kidney 293, and osteosarcoma cell lines CRL1427, HTB86 and HTB 96 All cell lines were grown at 37 °C in a 6% CO 2 incubator using standard culture medium, which consisted of RPMI 1640 medium supplemented with 10% bovine calf serum, 2mM glutamine, penicillin (100 IU/ml) and streptomycin (100 ⁇ g/ml).
- Normal human hepatocytes were purchased from Clonetics, San Diego, CA and processed immediately upon delivery.
- Normal human mononuclear cells were prepared from heparinized bone marrow samples by centrifugation across a Ficoll-Hypaque density separation gradient.
- EBV lymphoblastoid cell lines were derived from human mononuclear cells.
- mice Female BALB/c mice were hyperimmunized with human neuroblastoma according to previously outlined methods (21). Lymphocytes derived from these mice were fused with
- SP2/0 mouse myeloma cells line Clones were selected for specific binding on ELISA.
- the 8H9 hybridoma secreting an IgGi monoclonal antibody was selected for further characterization after subcloning.
- Sections were incubated with a secondary horse anti-mouse biotinylated antibody (Vector Laboratories, Burlingame, CA) followed by incubation with ABC complex ( Vector ) and developed with Vector VTP peroxidase substrate or DAB peroxidase substrate kit (Vector). A 10% hematoxylin counterstain for 4 minutes was used. Staining was graded as positive or negative and homogeneous or heterogeneous reactivity noted.
- NMB7 and U2OS cell pellets were prepared as above and reacted with 100 ⁇ l each of 15 ⁇ g/ml of 8H9 or the anti-HLA A,B,C antibody, HB-95 (American Type Culture Collection, Bethesda, MD) at 4° C for 1 hour.
- NMB7 cells were also similarly reacted with the anti-GD2 monoclonal antibody 3F8. After washing with PBS, cells were cultured at 37°C in standard culture medium for 0, 1,2, 4, 8, 12, 24, 36 and 48h.
- Antigen sensitivity to proteinase was tested by incubating 0.5 x 10 6 of HTB82, U2OS and
- NMB7 cells at 37°C for 30 minutes in RPMI with increasing c oncentrations of neutral proteinase, Pronase E from streptomyces griseus (E.Merck, Darmstadt, Germany) After washing, cells were stained with 8H9 or 3F8 and studied by indirect immunofluorescence.
- Immunoprecipitation was carried out using a modification of the standard technique. (23) 8H9-positive cell lines (NMB7, LAN-1, HTB82, U2OS, HELA, 293) and 8H9-negative cell lines (Jurkat, HTB119) were used. 2xl0 7 viable cells were washed in TBS (0.05 M Tris-HCl, pH 8, with 0.15 M NaCl) and incubated with 10 U lactoperoxidase (Sigma) 100 ul of 100 U/ml in TBS, 1 mCi 125 I (2.7 ul) and 1/6000 dilution of 30% hydrogen peroxide for 5 min at 20°C.
- TBS 0.05 M Tris-HCl, pH 8, with 0.15 M NaCl
- the iodinated cells were washed three times in TBS, lysed on ice (30 min) in 500 ul of modified RIPA buffer (0.01 M Tris- HCl, pH 7.2, 0.15 M N aCl, 1 % sodium d eoxycholate, 1 % N onidet P -40, 0.1 % s odium dodecyl sulfate (SDS), 0.01 M EDTA) containing protease inhibitors (1 mM PMSF, 50 ug/ml Bestatin, 2 ug/ml Aprotinin, 0.5 ug/ml Leupeptin, 0.7 ug/ml Pepstatin, 10 ug/ml E-
- the lysates were clarified by centrifugation at 15,000 rpm for 5 min at 4°C, then incubated with 1 mg of 8H9 or IgGl control antibody for 16 hr at 4°C with mixing.
- the antigen-antibody complex was collected by adsorption onto 100 ul Protein G-sepharose beads (Sigma) for 6 hr at 4°C.
- the immune complex immobilized on Protein G was washed three times with modified RIPA buffer, and then washed once with RIPA buffer containing 1 M NaCl, and then twice with modified TNN buffer (0.05 M Tris-HCl, pH 8, 0.15 M NaCl, 0.05% Nonidet P-40).
- Bound proteins were removed by elution with SDS- sample buffer and analyzed by 7.5% SDS-PAGE, followed by autoradiography.
- Deglycosylation of the radiolabeled antigen was carried out on the protein G sepharose using N-glycanase (Glyco, Novato, CA) and O-glycanase (Glyco) according to manufacturers' instructions.
- Molecular weight was estimated using Quantity One software from BioRad Inc. (Hercules, CA).
- Neuronoglial tumor 4 Neuronoglial tumor 4.
- 8H9 immunoreactivity in 35 neuroblastoma, melanoma, rhabdomyosarcoma, small cell lung c ancer, o steosarcoma, glioblastoma, leukemia, breast c ancer and c olon cancer c ell lines was tested using indirect immunofluorescence. Moderate to strong cell membrane reactivity with 8H9 was detected in 1 6/16 neuroblastoma cell lines, 3/3 melanoma cell lines, 2/2 rhabdomyosarcoma cell lines, 1/1 glioblastoma multiforme cell line, 3/3 breast cancer cell lines and 1/1 colon cancer cell lines studied.
- This antigen is expressed on a broad spectrum of human neuroectodermal, mesenchymal and epithelial tumors and appears to be immunohistochemically tumor specific, namely, it is expressed on cell membranes of tumor cells with no/low membrane reactivity noted on normal human tissues.
- the antigen was present on 88% of neuroectodermal tumors, 96% of mesenchymal tumors and 44% of epithelial cancers tested. The specific tissue distribution suggests a unique tumor antigen not previously reported.
- Neuroectodermal-oncofetal antigens e.g. neural cell adhesion molecules are present to varying degrees on normal adult and fetal tissues (6).
- Neurohematopoeitic antigens including Thy-1 determinants (24) , CD-44 (8) and its splice variants (25) are present on normal and neoplastic brain tissue as well as hematopoeitic tissues, principally of the lyrnphoid lineage.
- Gangliosides, such as GD 2 and GM 2 although expressed on tumors of neuroectodermal origin, are also present on normal brain tissue (7).
- lactotetraose series ganglioside 3'-6"-iso LDI is widely expressed on brain tumors and on epithelial cancers and germ cell tumors as well as on normal brain tissue. (26).
- Table 5 Antigens expressed on glial tumors
- CD44 splice variants Multiple (25) Normal neuronal cells
- Ependymoma-associated MabEp-C4 Not reactive with PBL, normal brain Glioma -associated GA-17, GB-4, GC-3 (32) Not reactive with normal adult or fetal brain Glioma-associated 6DS1 (33) Not reactive with normal adult or fetal brain Intracellular
- 8H9 antigen Another remarkable property of the 8H9 antigen is its expression on tumors of diverse lineage: neuroectodermal, mesenchymal and to a lesser degree epithelial tumors. No monoclonal antibody to date has the binding spectrum described with 8H9. This broad distribution provides MoAb 8H9 the potential o f being a "generic" tumor antigen for targeted therapy. Of particular interest is its expression on 28/29 rhabdomyosarcoma tumors and the rhabdomyosarcoma cell lines tested by indirect immunofluorescence. Disseminated and high risk rhabdomyosarcomas have a very poor prognosis with ⁇ 40% long term survival rate (27).
- the 8H9 antigen appears to be a novel, previously undescribed antigen. Sensitivity to proteinase suggests that it has a protein component. Conversely, the lack of sensitivity to neuraminidase implies absence of sialic acid residues, and the lack of sensitivity to phosphatidyl-inositol specific phospholipase C implies that the 8H9 antigen is not GPI anchored. It is unlikely to be related to the neural cell adhesion molecule family due to its unique distribution and restriction of expression among normal tissues (6). Of the currently described antibodies, which bind to glial tumors, four have been reported to be restricted to tumor tissues.
- EGFRvIII The mutated EGFRvIII was found to be expressed on 52% of gliomas tested and crossreacts with breast and lung carcinomas (29). However, the broad distribution of the 8H9 antigen is different from EGFRvIII. Integrin 3, a 140kDa protein expressed on gliomas and medulloblastomas is targeted by the monoclonal antibody ONS- M21 which does not cross react with normal brain (30). However, negative immunoreactivity with neuroblastoma, melanoma and meningioma has been reported. (31). Similar data on glioma-specific antibodies with no cross reactivity with normal brain has been published.
- the monoclonal antibody 8H9 recognizes a unique 58kD tumor-specific antigen with broad distribution across a spectrum of tumors of varying lineage: neuroectodermal, mesenchymal and epithelial, with restricted expression in normal tissues. 8H9 may have clinical utility in the targeted therapy of these human solid tumors in vitro or in vivo. Further biochemical characterization of the 8H9 antigen is warranted and may be of interest in delineating a possible role in the oncogenic process.
- MoAbs monoclonal antibodies
- cancer anti-CD20 (lymphoma), anti-HER2 (breast cancer), anti- tenascin (brain tumors), anti-CD33 (leukemia), and anti-TAG-72 (colon cancer).
- MRD minimal residual disease
- metastatic solid tumors Ewing's sarcoma [ES], primitive neuroectodermal tumor [PNET], osteosarcoma [OS], desmoplastic small round cell tumor [DSRT], rhabdomyosarcoma [RMS], and brain tumors
- ES epidermal tumor
- PNET primitive neuroectodermal tumor
- OS osteosarcoma
- DSRT desmoplastic small round cell tumor
- RMS rhabdomyosarcoma
- brain tumors Using metastatic neuroblastoma (NB) for proof of principle, our laboratory integrated the murine IgG3 anti-ganglioside GD 2 MoAb 3F8 into multi- modality therapy. 3F8 has demonstrated high selectivity and sensitivity in radioimmunodetection of metastatic tumors, and appears to be a safe and effective method of eliminating MRD, achieving a >50% progression-free survival (PFS).
- PFS progression-free survival
- MoAbs for most pediatric solid tumor therapeutic MoAbs do not exist.
- Known tumor surface antigens are often restricted to a specific tumor type, heterogeneous in its expression, or found in normal blood cells or organs.
- We recently described a MoAb 8H9 which recognizes a novel cell surface antigen in a wide spectrum of pediatric tumors, with no crossreactivity with blood, marrow, brain and normal organs, and minimal reactivity with hepatocyte cytoplasm.
- 131 I or 99m Tc-labeled 8H9 can effectively image NB and RMS xenografts in
- CT imaging modality
- MoAb selective for tumors have therapeutic potential 1 2
- Optimal targeting of MoAb demands high tumor antigen density with homogeneous expression, lack of antigen modulation on tumor cell surface, adequate vascularity of tumor to allow deep penetration, minimal toxicity on normal tissues, low reticulo- endothelial system (RES) uptake, noninterference by circulating free antigens, and low immunogenicity.
- RES reticulo- endothelial system
- Anti-CEA antibody in colorectal cancer 4 , anti-CD20 antibodies in lymphoma, 5 anti-HER2 antibodies in breast cancer anti-tenascin antibodies in glial brain tumors, 7 MoAb M195 against CD33 in acute leukemia and anti-TAG-72 antibodies in colon cancer have demonstrated efficacy in clinical trials.
- Our laboratory has developed the MoAb 3F8 which targets the ganglioside G D2 overexpressed on NB. 3F8 has been shown to have a high specificity and sensitivity in the radioimmunodetection of minimal residual disease (MRD) in patients with NB, 10 and a significant impact when used as adjuvant therapy.
- MRD minimal residual disease
- 11 131 I has been a common isotope used both for imaging and therapy purposes.
- pure -emitters such as 90 ⁇ j 12 ' 13 alpha-emitting particles, 14 ' 15 such as 211 At, 212 Bi and 213 Ac have attractive properties with promising biological effectiveness.'
- radioisotopes of varying path lengths and half-lives may be needed to enhance radiocurability of both bulk and microscopic diseases.
- immunocytokines e.g. IL-2, IL-12
- 1 bispecific antibodies for pretargeting strategies e.g. radioisotopes or drugs
- 17 ' 18 or T-bodies for retargeting immune cells 19"21 have further expanded the potentials of antibody-based immunotherapies.
- Brain tumor antigens E xamples of tumor antigens expressed on glial tumors include neuroectodermal- oncofetal antigens eg. neural cell adhesion molecules (NCAM), 22 gangliosides (GD2, GM2, 3'-6"-iso LD1) 23 ' 24 and neurohematopoeitic antigens (Thy-1, CD44 and splice variants). 25"27 All of these antigens are present to varying degrees on normal adult and fetal tissues, and for some hematopoeitic tissues as well.
- NCAM neural cell adhesion molecules
- GD2, GM2, 3'-6"-iso LD1 22 gangliosides
- Thy-1, CD44 and splice variants Neurohematopoeitic antigens
- Anti-tenascin monoclonal antibodies 81C6, 7 BC-2 and BC-4 33 administered directly into tumor-cavities have shown efficacy in patients with malignant gliomas. More recent investigations have focused on growth factor receptors, in particular type 111 mutant epidermal growth factor receptor (EGFRvIII) expressed on 52% of gliomas 34 as well as breast and lung carcinomas. 35 Given the relationship of these mutated receptors to their malignant potential, they may be ideal targets for MoAb. Although other glioma-specific antibodies with no cross reactivity with normal brain have been described
- glial tumor antigens described are either found on normal brain and/or normal tissues, restricted to specific tumor types, or found in intracellular compartments/extracellular matrix which can limit their clinical utility for targeting to single cells or spheroids.
- Sarcoma antigens similarly, have not been defined for the large family of sarcomas.
- MyoD family of oncofetal proteins are specific to rhabdomyosarcoma, they are localized to the nucleus and therefore do not offer targets for antibody-based therapy.
- the ES family of tumors can be differentiated from other small blue round cell tumors of childhood by MoAbs recognizing glycoprotein p30/32 coded by the MIC2 oncogene. However, this protein is expressed on normal tissues (e.g. T-cells) 40 greatly limiting the utility of MoAb in marrow purging, radioimaging or radiotherapy.
- Membrane targets on OS include GD2, 42 glycoprotein p72, 43 CD55 44 erB2/neu 45 and the antigen recognized by the MoAb TP-3.
- CD55 is decay-accelerating factor, a ubiquitous protein on blood cells and most tissues to prevent complement activation.
- Clearly MoAb directed at CD55 would have significant limitations for in vivo targeting.
- the degree of tumor heterogeneity e.g. erbB2 in OS
- the presence of GD2 on pain fibers causes significant pain side effects in clinical trials. Nevertheless, this side effect is self-limited and this cross-reactivity did not interfere with the biodistribution and clinical efficacy of specific MoAb (see preliminary results).
- GD2 is generally low or absent in RMS, ES, PNET, and many soft- tissue sarcomas.
- the presence of GD2 in central neurons can limit its application in tumors arising or metastatic to the brain.
- Our laboratory has generated a novel MoAb 8H9 by hyperimmunizing female BALB/c mice with human NB. 47 8H9 recognizes a unique surface antigen homogeneously expressed on c ell m embranes o f a broad spectrum of tumors of neuroectodermal, mesenchymal and epithelial origin , with restricted distribution on normal tissues (see preliminary results). 48 The availability of an antibody with broad specificity for pediatric tumors will facilitate several lines of clinical investigations.
- Bivalent scFv and tetravalent scFv can be engineered to improve avidity.
- 53 Bispecific scFv can be constructed to engage cells and proteins in various targeting strategies (e.g. pretargeting). 17,18 ScFv can also be used in T- bodies to retarget T-cells, a powerful technique to increase clonal frequency and bypassing the HLA requirement of TCR functions. 19"21
- scFv-fusion proteins e.g. CD28, zeta chain transduced into T-cells can greatly enhance their survival following activation. 21 Even more importantly, the ability of such cells to proliferate in contact with tumor cells can further amplify the efficiency of T-cell cytotherapy.
- Radioimmunoscintigraphy can test if an antibody-antigen system has targeting potential. Using radioiodines and technetium we have demonstrated the utility of the
- GD2 system for targeting in the last decade. This information has been translated into treatment strategies using both unlabeled and 131 I labeled antibody 3F8. Dosimetry calculations have allowed quantitative estimates of therapeutic index when cytotoxic agents are delivered through antibody-based methods. Uptake (peak dose and area under the curve AUC) in specific organs relative to tumor can be measured. These studies are resource intensive and to be done well, require laboratory, radiochemistry, nuclear medicine, medical physics and clinical resource support, as well as substantial personnel effort. In pediatric patients, issues of therapeutic index may be even more pressing given the potential of late effects of treatment. In addition, despite the potential life-years saved for pediatric cancer, orphan drugs are not economically attractive for most industrial sponsors. These circumstances have made the initial stages of clinical development even more stringent and relatively more difficult to accomplish.
- Radioimmunoscintigraphy uses the trace label principle and gamma imaging to define the distribution of a specific antibody in various human organs. It provides estimates of antibody (and radiation) dose delivered to blood, marrow and major organs. The continual development of improved software and hardware for calculating antibody deposits in tissues is critical in implementing these studies (see preliminary results). The quantitative relationship of free circulating antigens (if present) and biodistribution of MoAb needs to be defined. The formation of human-anti-mouse antibody (HAMA) response will clearly affect the in vivo properties of these antibodies. However, the induction of the idiotype network (see preliminary results) may have potential benefit in the long run. These parameters need to be monitored. These in vitro assays will provide important information in understanding and optimization of future use of 8H9 and other MoAb in the context of chemo-radiotherapy for a broad category of recalcitrant tumors in children, adolescents and young adults.
- HAMA human-anti-mouse antibody
- MSKCC Memorial Sloan-Kettering Cancer Center
- T he Center has n extensive p atient referral b ase, particularly within the tri-state area.
- the center has an established commitment and past record in the use of monoclonal antibodies in the diagnosis and therapy of human cancers, including melanoma, colon cancer, and leukemias.
- Over the past 4 years we have an annual accrual of around 45 new NB, 27 OSs, 58 brain tumors, 23 Ewing's/PNET, 18 retinoblastoma, 12 rhabdomyosarcomas, 16 sarcomas and 7 DSRT at MSKCC. We are confident that we can accrue 60 patients within the next 2 years.
- MoAb can extend the progression-free period in a cancer that was uniformly lethal two decades ago.
- GD2 is a useful marker of MRD, and specific MoAbs are highly efficacious in monitoring and purging of tumor cells.
- Novel bioengineering strategies have been developed for the GD2-3F8 antigen-antibody system which are directly applicable to other MoAbs (single chain Fv, 54 and T-bodies 55 ).
- >240 patients have been treated at Memorial Hospital with the antibody 3F8.
- a total of >3500 doses of unlabeled 3F8 have been given, 250 injections of 131 I-3F8 for imaging, and 372 injections of 131 I-3F8 for therapy.
- 3F8 treatment is now routinely done in the outpatient clinic. Extending these findings to a second antigen-antibody system, especially one that will target to a broader spectrum of pediatric solid tumors is a priority.
- the murine IgGl antibody 8H9 has obvious potential in monitoring and purging of MRD, radioimmunoscintigraphy, and radioimmunotherapy (both intravenous or compartmental). If our proposed study produces favorable results, i.e. selective tumor uptake at optimal AUC ratios (Tumor: tissues/organs), radioimmunotherapy can be explored for some of these solid tumors. More importantly, further development of the antibody would involve a major effort in humanizing and further genetic engineering to improve effector functions.
- G D2 -specific MoAb-based targeted therapy a curative approach to a pediatric solid tumor: metastatic NB
- Improved understanding of the biology of NB has reshaped our clinical approach to this cancer.
- Non-infant stage 4 NB remains a therapeutic challenge despite four decades of combination chemotherapy.
- MRD state can be achieved in patients with NB after intensive induction therapy.
- 56 ' 57 Unfortunately, the transition from MRD to cure was a daunting hurdle.
- Disialoganglioside G D2 is a tumor antigen well suited for targeting therapy because (1) it is expressed at a high density in human NB, is restricted to neuroectodermal tissues and is genetically stable, unlike other tumor antigens such as immunoglobulin idiotypes; 60 (2) although it circulates in patients' serum, it does not interfere with the biodistribution of specific antibody (e.g. 3F8), allowing excellent tumor localization of NBs in patients; 10 (3) it is not modulated from cell surface upon binding to antibodies; (4) it is expressed homogeneously in human NB, with little heterogeneity within tumors and among patients.
- specific antibody e.g. 3F8
- Radiolabeled anti-G D2 antibody 3F8 3F8 is a murine IgG 3 MoAb directed at the ganglioside G D2 expressed on human NB cells, hi preclinical studies 131 I-3F8 targeted to human NB xenografts with exceptionally high %ID/gm. Intravenous I-labeled IgG 3 MoAb 3F8 produced a substantial dose dependent shrinkage of established NB in preclinical studies. Dose calculations suggested that tumors that received more than 4,200 rads were completely ablated. Marrow suppression was the dose limiting toxicity.
- 131 I-3F8 is more sensitive than conventional modalities, including metaiodobenzylguanidine (MIBG) in detecting NB in patients.
- MIBG metaiodobenzylguanidine
- the biodistribution of 131 I-3F8 was studied in 42 patients (2 mCi per patient) with NB. 10 Comparison was made with 131 I-MIBG, 99m Tc-MDP (technetium-labeled methylene diphosphonate) bone scan, as well as CT or MRI.
- 13I I-3F8 detected more abnormal sites (283) than 131 I-MIBG (138) or 99m Tc-MDP (69), especially in patients with extensive disease.
- 131 I-3F8 detected the disease in 18 of them.
- the two 131 I-3F8-imaging-negative tumors revealed ganglioneuroma, one showing microscopic foci of NB.
- I-3F8-imaging-positive tumors were all confirmed as NBs.
- 14/26 had confirmation by iliac crest marrow aspirate/biopsy examinations. Agreement between the measured tissue radioactivity and the estimates based on planar scintigraphy validated the initial dosimetry calculations.
- the tumor uptake in patients with NB was
- the calculated radiation dose was 36 rads/mCi delivered to NB and 3-5 rad/mCi to blood.
- I-3F8 differentiated Gliomas from normal brain tissues 87 ' 88
- 3F8 immunoscintigraphy was compared with 99m Tc-glucoheptonate/DTPA planar imaging, Thallium 201 single photon emission tomography (SPECT), and 1S FDG positron emission tomography (PET). 10/11 malignant gliomas and 1/1 metastatic melanoma showed antibody localization. No nonspecific uptake in normal brain or CSF was detected. Average plasma and total body clearance were 20 h and 47 h, respectively. Antibody localization was measured on surgical specimens and time activity curves were calculated based on modified conjugate views or PET.
- Radioactivity uptake in high grade glioma peaked at 39 h, which then decayed with a half-life of 62 h.
- Tumor uptake at time of surgery averaged 3.5 %ID/kg and highest activity by conjugate view method averaged 9.2 %ID/kg (3.5 to l7.8).
- Myeloablative doses o f 131 I-3F8 are effective for B ith m iniinal extramedullary toxicities. Based on the tracer dose dosimetry, the absorbed doses to liver, spleen, red marrow, lung, total body and tumor were 537, 574, 445, 454, 499 and 4926 rads, respectively. The average rad mCi were 2.3, 2.5, 2, 2, 1.9, and 13.7, respectively. The
- 131 I-3F8 was used to consolidate >50 patients at the end of induction chemotherapy for their stage 4 NB diagnosed after 1 year of age. Except for hypothyroidism, there were no late effects of 131 I-3F8 treatment.
- 124 I-3F8 PET imaging was first successfully applied to NB 92 Positron Emission Tomography (PET) can offer advantages over planar or single photon emission computed tomography (SPECT) imaging in the quantitation of spatial radioactivity distribution over time.
- PET Positron Emission Tomography
- SPECT single photon emission computed tomography
- LM cancer have not been fully explored.
- G D2 is present on a broad spectrum of human tumors including medulloblastomas, high-grade astrocytomas, PNET, central NBs, small cell lung cancer, melanoma, sarcomas, leukemia/lymphomas and peripheral NBs, many of which have LM spread.
- Clinical trials using intravenous injections of anti-G ⁇ 2 MoAb 3F8 have not encountered long-term neurotoxicity in patients followed for up to 13 years.
- the pilot study included 5 patients who had a histologically confirmed diagnosis of a malignancy expressing G D2 with LM disease refractory to conventional therapies or for which no conventional therapy exists. Ornmaya catheter placement, patency and CSF flow was evaluated by ⁇ ⁇ In DTPA studies. Five patients (ages 1-61 years) with leptomeningeal or intraventricular melanoma, ependymorna, rhabdoid tumor (n 2) and retinoblastoma were evaluated. Active disease was identified by MR scans in 4 of 5 pts, and by positive CSF cytology in 2.
- the CSF radioactivity biological half-life, distribution of radioactivity in the craniospinal axis, and dosimetry at plaques of disease and surrounding normal tissues were determined by 131 I-3F8 Single Photon Emission Tomography (SPECT). Peak CSF values were achieved generally within the first hour of injection.
- the CSF biological half-life was
- Focal 131 I-3F8 uptake was demonstrated in the ventricles, spine and midbrain in 4 patients, corresponding to disease seen on MR. In the one patient who had no MR evidence of disease, 131 I-3F8 clearance was most rapid (3 hours), with no focal accumulation observed on SPECT.
- Four patients with focal 131 I-3F8 uptake received 10 mCi of 131 I-3F8 through the Ommaya reservoir as part of a treatment protocol in a phase I toxicity study. Except for grade 2 toxicities (fever, headache, nausea and vomiting, increase in intracranial pressure) and a breakthrough seizure, there were no adverse side effects during their initial treatment.
- Adjuvant anti-Gr ⁇ antibody 3F8 3F8 (without radioisotope) has also been tested in phase I and phase ⁇ studies. 58 ' 76 ' 77 Responses of metastatic NB in the bone marrow were seen. Another mouse antibody 14.G2a and its chimeric form 14.18 have also induced marrow remissions in patients with NB. 83 Acute self-limited toxicities of 3F8 treatment were pain, fever, urticaria, hypertension, anaphylactoid reactions, as well as decreases in blood counts and serum complement levels, and in rare patients self-limited neuropathy. 71 ' 97"99
- Anti-GD2 antibody treatment of MRD in stage 4 NB diagnosed at more than one year of age 11 Thirty-four patients (pts) were treated with 3F8 at the end of chemotherapy. Most had either bone marrow (31 pts) or distant bony metastases (29 pts). Thirteen pts were treated at second or subsequent remission (group I), and 12 pts in this group had a history of progressive/persistent disease after ABMT; 21 pts (all on N6 protocol) were treated in first remission following induction chemotherapy (group II). At the time of 3F8 treatment, all 34 patients had stable or minimal NB.
- HAMA Human anti-mouse antibody response
- patient outcome Three patterns of HAMA response were identified. In pattern I, HAMA was not detectable during the
- Meier analysis showed a survival advantage for those with pattern II HAMA response, i.e. a low self-limiting HAMA response (73% for pattern II versus 33% for pattern I, and 18% for pattern III).
- the probability of survival among patients with pattern II was significantly better than the pattern I and III patients combined (p ⁇ 0.05).
- p 0.08
- Idiotype n etwork is a possible m echanism for 1 ong t erm P FS.
- HAMA response was primarily anti-idiotypic (Ab2)
- Ab3'l responses may be responsible for tumor control in patients.
- Their serum HAMA, Ab3, and Ab3' liters prior to, at 6, and at 14 months after antibody treatment were measured by ELISA.
- Long term PFS and survival correlated significantly with Ab3' (anti-Gm) response at 6 months, and with Ab3 response at 6 and 14 months.
- Non-idiotype antibody responses (anti-mouse-IgG3 or anti-tumor nuclear HUD antigen) had no apparent impact on P FS o r survival. It a ppears that t he s uccessful induction o f a n i diotype network i n patients maybe responsible for long term tumor control and prevention of late relapse among N6 and N7 patients (figure 2). Even among patients treated on N5 (with ABMT, figure 2), all of the survivors of bony and marrow metastases have had imaging studies with 3F8 and had detectable idiotype network by ELISA 100 ; similarly no late relapses were seen. While N5 and N6 groups had no relapses after ⁇ 3 years from diagnosis or ⁇ 2 years from 3F8 therapy (including second remission group), among N7 patients, the relapse curve has leveled off even earlier, around 2 years from diagnosis.
- PFS progression-free survival
- MoAb may have potential in the permanent eradication of MRD in the curative treatment of solid tumors in the younger population. Both RIT and idiotype-netowrk induction are possible with murine MoAb. We therefore undertook an extensive screening of MoAbs to identify candidates with a broad reactivity with pediatric/adolescent solid tumors, that may have similar targeting potential as the antibody 3F8. Novel antigen for MoAb targeting to solid tumors in children and young adults
- mice Female BALB/c mice were hyperimmunized with human neuroblastoma according to previously outlined methods. 47 Splenic lymphocytes were fused with SP2/0 mouse myeloma cells line. Clones were selected for specific binding to neuroblastoma on
- 8H9 immunoreactivity was seen in a characteristic, homogenous, cell membrane distribution in 272 of the 315 (86%) tumor samples examined. 88% o f neuroectodermal tumors, 95% of mesenchymal tumors and 44% of epithelial tumors tested positive with 8H9 (Tables 4-8)
- Indirect immunofluorescence 8H9 immunoreactivity in 34 NB, melanoma, RMS, small cell lung cancer, OS, glioblastoma, leukemia, breast cancer and colon cancer cell lines was tested using indirect immunofluorescence. Moderate to strong cell membrane reactivity with 8H9 was detected in 16/16 NB, 2/2 melanoma, 2/2 RMS, 1/1 glioblastoma multiforme, 3/3 breast cancer, and 1/1 colon cancer, 2 of 3 Ewing's/PNET, and 2 of the 3 OS cell lines.
- HLB82 HLA
- U2OS OS
- Electron microscopy using gold-labeled antibodies will be more definitive in tracking antibody intemalization, a process clearly important for immunotoxins to be effective.
- Biochemical Characterization of the novel antigen recognized by 8H9 Using a nonradioactive cell surface labeling technique, the antigen was immunoprecipitated and analyzed on a SDS-PAGE. 101
- NB NMB7 or OS U2OS cells were biotinylated using biotin-LC-NHS, lysed, precleared with protein-G sepharose, reacted with antibody 8H9 and then immunoprecipitated in fresh protein G sepharose.
- Antigen was then dissociated from the gel and separated by SDS-PAGE. Following transblotting onto nitrocellulose membrane, the protein bands were detected with HRP-strepavidin and visualized by ECL. A band of 90 kDa under non-denaturing conditions and 96 kDa in the presence of 2ME was found.
- the anti-idiotypic antibodies are further purified by protein G (Pharmacia) affinity chromatography. To further prove that these anti-idiotypic antibodies are antigen-mimics, we immuno-enrich phagemids and screen scFv on solid phase anti-idiotype, and successfully isolate a number of 8H9-scFv with similar binding specificity to tumors as the parent 8H9 (see below).
- 8H9-ScFv single chain antibody
- scFv single chain antibody
- V H variable regions of the heavy (V H ) and light chains (V L ) of 8H9 were joined by a polylinker (L) (gly4Ser) 3 and selected by phagemid expression.
- L polylinker
- scFv was characterized by DNA sequencing, western blots, in vitro ELISA, immunostaining/FACS, and idiotype analysis.
- ES i s a small round blue cell tumor of childhood characterized by a t( 11,22) in most patients. Because survival remains suboptimal with standard therapy, many patients receive autologous stem cell transplant and current trials investigating adoptive transfer of autologous T cells in the context of immune therapy are underway. However, approximately 50% of patients with advanced disease have PCR detectable ES in peripheral blood and/or bone marrow and the administration of autologous cell preparations contaminated with tumor may contribute to disease relapse. To date, there is no method reported for purging contaminated hematopoietic cell populations or bone marrow preparations of ES. Merino et al in the laboratory of Dr.
- 8H9 was used to isolate ES cells from contaminated blood cell populations.
- purging efficiency was monitored by of t(l 1,22) RT-PCR. Contaminated specimens were reacted with 8H9 and then incubated with rat anti-mouse IgGl magnetic beads.
- HHS 441 Civil Rights
- HHS 641 Handicapped individuals
- form 639-A Re: sex discrimination
- Hispanic, or Asian 78.2% white and 5.2% other or unknown.
- the gender was 55.9% male and 44.1% female.
- 26% were black, Hispanic, Asian or Native American, 70% white and 6% unknown or not responding. Of these patients, 38% were male and 62% female.
- Time Procedure day -10 start daily oral SSKI, cytomel for thyroid blockade day 0 5 mCi of iodine-131 on 0.25 to 0.75 mg of 8H9* blood samples at 0, and approximately 15 min, 30 min, lh, 2h, 4h, 8h after injection day 0
- Gamma camera scan plus whole body counts day 1 Gamma camera scan plus whole body counts day 1 blood samples at approximately 18h and 3 Oh day 2
- Gamma camera scan plus whole body counts day 2 3 blood samples at approximately 42h and 66h day 5 (or 6 or 7)
- sensitivity analysis of 8H9 for each disease can be conducted.
- the probability of agreement or positive predictive value will be calculated.
- the 95% confidence intervals can be calculated within +/- 31% for each disease (NB, RMS, ES/PNET, DSRT, brain tumors and other sarcomas). The study will be performed on a total of 60 patients (10 with NB, 10
- 8H9 is produced under GMP conditions and packaged in glass vials. 131 I is purchased from Amersham Inc. 8H9 will be labeled with radioactive iodine using iodogen T method. The reaction mixture is filtered through an ion exchange (AG1X8) filter (Biorad) to remove free iodine. Protein incorporation is measured using TCA precipitation or thin layer chromatography. Immunoreactivity is measured by 2 separate methods (1) a solid phase microtiter radioimmunoassay technique previously described, 102 and (2) anti- idiotype peak shift method, where anti-idiotypic antibody 2E9 is added at 50 to 1 molar ratio to 131 I-8H9 for 30 minutes on ice with mixing.
- Radioiodinated 8H9 has a mean trichloroacetic acid precipitability of >90%, and specific activity of 131 I-8H9 averaging 10 mCi per mg protein. Administration of 131 I-8H9 is undertaken within 1-2 hours of iodination to reduce the possibility of radiolysis.
- Antibody radiolabeling is carried out in the Central Isotope Laboratory under the supervision of Dr. Ronald Finn, according to FDA guidelines on radiolabeled biologies for human use. 1.6.0 Infusion of radiolabeled antibody preparation and monitoring of patient response in immediate post-infusion period, including radiation safety aftercare.
- radiolabeled MoAb preparations will be injected into patients by a trained research nurse or physician. Strict observance of appropriate radiation safety guidelines will be undertaken. The procedure will be explained to the patient thoroughly prior to the infusion by the physician, and appropriate p re-treatment (eg S SKI drops, perchloracap) checked.
- the radiolabeled antibody will be transported from the radiolabeling facility to the infusion area loaded into the infusion delivery system by the physician. The physician and nurse will be present throughout the infusion and in the post-infusion period.
- the infusion procedure will consist of the radiolabeled antibody being administered intravenously either through a peripheral intravenous catheter or an indwelling central catheter over a 20 minute period. All patients will have vital signs monitored prior to and following the radiolabeled antibody infusion. Blood samples for pharmacokinetic calculation will be obtained immediately following the infusion, and at various time points thereafter as outlined above. The patient will be seen by a physician daily while hospitalized, and will be available for consultation (with appropriate radiation safety personnel) with an oncologist or nurse regarding issues relating to the radiolabeled antibody infusion or radiation safety. The patient will also he imaged in the Nuclear
- Serial serum dilutions are used to inhibit the binding of biotinylated 8H9, which can be detected by peroxidase-streptavidin.
- color reaction is performed at room temperature using hydrogen peroxide as substrate and o-phenylenediamine (Sigma, St. Louis, MO) as chromogen.
- optical density of the wells are then read using MRX microplate reader (Dynex, Chantilly,
- anti-idiotypic antibodies are rat IgGl MoAb purified by acid elution from protein G affinity columns. They have remained stable despite acid treatment, buffer changes and freezing and thawing. Soluble antigens can interfere with tumor targeting, hi vitro, patient serum did not inhibit binding of 8H9 to its anti-idiotype. Indirect immunofluorescence of a spectrum of cell lines showed persistence of antigen and antibody on the cell surface at 37°C over days.
- SPOT and SPECT images will be collected over pre-selected "index" tumor lesions, as identified from previously obtained CT or MR images.
- Plasma or serum will be collected and counted from each sample and the results will be expressed as per cent of the injected radioactivity per L serum or blood volume.
- SWEEP whole-body sweep
- HEHR high-energy, high-resolution
- Tumor volumes will be determined from CT or
- MRI when available. Patients with known disease at other sites are imaged in additional areas. All CT images will be transferred for display in 3D-ID; images collected at MSKCC will be transferred digitally, film from other institutions will be scanned using a Lumisys digital film scanner.
- 3D-ID the consulting radiologist will review the images with the research technician. The research technician will then draw contours around the tumor regions; the contours will be reviewed by the consulting radiologist and adjusted, as needed.
- disease may be represented by a collection of very small positive nodes; in those cases a contour around the group will be drawn and used in the volume assessment. Volume determination using 3D-ID is performed by summing the areas of regions that have been defined by the user on all slices making up the tumor.
- Bone marrow dosimetry will be performed according to the recommended guidelines, described in the AAPM recommendations, 116 i.e. blood time-activity curves will be multiplied by the appropriate factor (0.2 - 0.4) to derive marrow time-activity curves and absorbed dose to red marrow. S-Factors provided in MIRDOSE 3 will be used for the calculations. This data will be compared with direct measurement of the marrow activity from ROI's drawn over marrow cavities on SPECT images. The quantitative capability of SPECT will allow us to verify the accuracy of bone marrow dosimetry determined from activity levels, and the rate of antibody clearance from marrow, from the standard analysis of serial blood samples.
- a non-linear least-squares search is used to minimize the sum of the squares of distances from each "hat” point to the nearest point on the "head” surface.
- the coordinates of the "hat” are translated, rotated and scaled to provide the best fit. Users may control which parameters are varied during the search.
- the final set of transformations are then used to convert the coordinates of one image into those of the other. Phantom studies indicate that the Pelizzari and Chen technique for registration of SPECT to CT is accurate to within 3mm.
- the Nuclear Medicine Service at MSKCC has performed such registration for over 100 patient studies.
- the Pellizari and Chen package has also been used for thoracic and abdominal study registration by Chen and his collaborators at the University of Chicago (personal communication).
- Correlated serial SPECT images can be used to determine cumulative activity distributions by fitting and integrating an exponential uptake and/or clearance to the specific activity within an ROI over the tumor or organ.
- the variation in activity within individual voxels can be taken into account, through a weighted sum of the counts/activity within the corresponding voxel over time.
- a software package, 3D-ID Given such a distribution of the cumulated activity, a software package, 3D-ID, has been developed, to calculate the dose distribution.
- Target contours are drawn on side-by-side enlarged SPECT and CT/MR image slices that are selected from a scrollable image display. Contours drawn in one modality simultaneously appear in the other. The user may switch between modalities by positioning the cursor in the appropriate window.
- the dose to all voxels within the target volume is obtained by convolving the activity distribution with a point kernel table of absorbed dose versus distance.
- Patient-specific S-factors may be calculated by defining source organ contours and assigning unit activity to all voxels within each source. The "dose" to a given target is thus the patient-specific
- Dose histograms and patient-specific organ and tumor S-factors generated using 3D-ID in combination with SPECT will provide important information in understanding tumor response and organ toxicity in radioimmunotherapy.
- the average absorbed dose to a tumor may not reflect potential therapeutic efficacy and tumor shrinkage. That portion of a tumor volume receiving the lowest absorbed dose will lead to treatment failure regardless of the dose delivered to other regions of the tumor volume.
- the 3D-ID software package provides detailed information regarding the spatial distribution of absorbed dose within a target volume. This information is depicted as dose-volume histograms, wherein the fraction of tumor volume receiving a particular absorbed dose is plotted against absorbed dose. Using such information it will be possible to better assess the likelihood of tumor control. For example, if the average dose over a tumor volume is 2 to 3 Gy and a small region within this volume receives only 0.1 Gy, then treatment will be unsuccessful.
- Eshhar Z, Waks T, Gross G, S chindler DG Specific activation and targeting of cytotoxic lymphocytes through chimeric single chains consisting of antibody-binding domains and the or zeta subunits of the immunoglobulin and T-cell receptors.
- Cheung NKV Biological and molecular approaches to diagnosis and treatment, section I. Principles of Immunotherapy. In: Pizzo PA, Poplack DG, (eds.): Principles and Practice of Pediatric Oncology, 3rd ed. ed. Philadelphia, J.B. Lippincott Company, 1997, pp 323-342
- Kushner BH, Cheung NK GM-CSF enhances 3F8 monoclonal antibody- dependent cellular cytotoxicity against human melanoma and neuroblastoma. Blood 73:1936-1941, 1989 65. Kushner BH, Cheung NKV: Absolute requirement of CD11/CD18 adhesion molecules, FcRII and phosphatidylinositol-linked FcRIU for monoclonal antibody- mediated neutrophil anti-human tumor cytotoxicity. Blood 79:1484-1490, 1992
- Cheung NKV, Kushner BH, Yeh SJ, Larson SM 3F8 monoclonal antibody treatment of patients with stage IV neuroblastoma: a phase II study.
- Pentlow KS, Graham MC, Larnbrecht RM Quantitative imaging of iodine-124 with PET. J Nucl Med 37:1557-1562, 1996 95.
- Cheung IY, Cheung NKV, Kushner BH Induction of Ab3' following anti-GD2 monoclonal antibody 3 F8 therapy predicts survival among patients (pts) with advanced neuroblastoma. Proc Am Assoc Cancer Res 40:574, 1999
- Furhang EE, Chui CS, Sgouros G A monte carlo approach to patient-specific dosimetry. Medical Physics 23:1523-1529, 1996 114. Furhang EE, Chui CS, Kolbert KS, et al: Implementation of a monte carlo dosimetry method for patient-specific internal emitter therapy. Medical Physics 24:1163-
- Ewing's sarcoma is a childhood tumor characterized by a t(l l,22) in most patients. Because survival remains suboptimal with standard therapy, many patients receive autologous stem cell transplant and trials investigating adoptive transfer of autologous T cells in the context o f immune therapy are underway. However, approximately 50% of patiens with advanced disease have PCR detectable disease in peripheral blood and/or bone marrow and administration of contaminated auologous cell preparations may contribute to disease relapse. To date, there is no reported method for purging contaminated hematopoietic cell populations of Ewing's Sarcoma.
- 8H9 is a mouse monoclonal IgGl antibody previously reported to react with 21/21 Ewing's sarcoma/PNET tumors (Proc ASCO 17:44a, 1998).
- Peripheral blood T cell and B cell populations and CD34+ cells from bone marrow analyzed by flow cytometry for binding of 8H9 were negative.
- Using real-time quantitative nested PCR with Lightcycler we monitored purging efficiency by evaluation of t( 11,22) by RT-PCR. Contaminated specimens were labeled with 8H9 and incubated with rat anti-mouse IgGl magnetic beads. The sample was then run over a Miltenyi Variomax negative election column. Recovery was approximately
- Binding to lymphocytes and bone marrow progenitor cells was negative.
- normal PBMCs or bone marrow cells were artificially contaminated with varying amounts of Ewing's sarcoma.
- Quantitative PCR or t(l 1;22) was shown to accurately measure the level of contamination with a sensitivity of 1:10 6 .
- Samples were then purged using the Miltneyi Variomax negative selection system selecting for monoclonal antibody 8H9 bound cells.
- a 2 to 3- log reduction in tumor burden was consistently observed following immunomagnetic selection.
- Ewing's contamination ranged between 1 :10 5 -1:10 6 .
- Ewing's sarcoma is a systemic disease from the time of onset as demonstrated by the observation that over 90% of patients with clinically localized disease will recur distantly if treated with local measures alone[Jaffe, 1976 #49]. Indeed, the generally accepted factor responsible for the recent improvement in survival observed in patients with clinically localized disease is control of hematogenously disseminated micrometastasis via neoadjuvant multi-agent chemotherapy 1 . Recently, the use of sensitive molecular monitoring to detect circulating Ewing's sarcoma cells has confirmed hematogenous dissemination in a substantial number of patients with Ewing's sarcoma.
- PBMCs used in tumor spiking experiments were obtained by ficoll-based density gradient separation of the fresh buffy coat fraction of nomial h ealthy donor b lood u nits obtained a t the D epartment o f T ransfusion M edicine, Clinical Center, NCI according to approved protocols.
- PBMCs were T cell enriched using a negative selection column (R & D Biosystems, Minneapolis) which results in a purity of approximately 80%.
- CD34+ cells used for purging experiments were selected using the Miltenyi Variomax® direct isolation system (Miltenyi, Auburn, CA) from cryopreserved peripheral stem cells from a Ewing's sarcoma patient obtained for therapeutic use at
- Non-CD34 selected bone marrow used for purging experiments and enriched CD34+ populations used in the CFU assay were obtained from fresh human marrow harvested from normal volunteers according to approved protocols and following informed consent (Poietics Laboratories,
- the mononuclear fraction was obtained by ficoll-based density gradient separation, and subsequently enriched for CD 34+ cells by the Miltenyi
- Variomax® (Miltenyi, Auburn, CA) direct CD34 selection system.
- Tumor Cell Lines Ewing's sarcoma cell lines used for screening included TC71, 5838,
- RD-ES, CHP100, A4573 which have been previously reported 22
- JR and SB which are cell lines derived from patients treated at the National Cancer Institute which have also been previously reported 22
- LG was a cell line derived from a patient with isolated intrarenal recurrence of Ewing's sarcoma treated with resection at the University of Maryland.
- Flow cytometric analysis was performed using the Becton-Dickinson FacsCalibur machine. Briefly, fluorescence data were collected using a 3 -decade log amplification on 10,000 viable gated cells as determined by forward and side light scatter intensity. Monoclonal antibodies used for immunofluorescence were: MoAb 8H9, murine IgGl isotype, goat anti-mouse IgGl-FITC, CD3 - PE (S4.1), CD34 - PE (581) Caltag
- All cell products were spiked with tumor cells from the Ewing's sarcoma cell line TC71 at the levels of contamination indicated for individual experiments.
- TC71 tumor cells from the Ewing's sarcoma cell line TC71 at the levels of contamination indicated for individual experiments.
- a total of 10X10 6 were spiked. 1 X 10 6 cells were analyzed for pre- purged and post-purged PCR.
- 30-80 X10 6 cells were spiked with TC71 with 10X10 6 cells analyzed for pre- purged and post-purged PCR.
- cells were incubated at 4°C with monoclonal antibody 8 H9 at a concentration o f 1 ug/10 6 total cells for 20 inutes and washed with buffer (PBS, 0.5% BSA, 2mM EDTA). Cells were then incubated with rat anti-mouse IgGl magnetic beads (Miltneyi, Auburn, CA) at a ratio of 1:1 for 20 minutes at 4°C.
- buffer PBS, 0.5% BSA, 2mM EDTA
- Purging was accomplished using the Miltenyi Variomax ® system wherein the sample is run over the Miltenyi (Auburn, CA) AS depletion column with a flower resistor of 24G. Cells from the depleted fraction were then washed with 3cc buffer. The positively selected fractions of cells was removed by releasing the column from the magnet and washing with 3cc buffer, and analyzed by PCR where indicated.
- the positive fraction was pelleted and resuspended in RPMI with 10% FCS, L-glutamine (4uM), penicillin (lOOu/ml) , and streptomycin (lOOug/ml), and placed in an incubator at 37 °C with 5% CO 2 for 5 days.
- the 1 st Strand Synthesis kit (Roche, Indianapolis, IN) was used to generate cDNA from lug of RNA from each sample. PCR was then run on 5ul of cDNA on the Lightcycler® instrument with primers ESBP1 and ESBP2 for 40 cycles. In cases where nested PCR was performed, an initial 20 cycles of PCR were carried out with the primer pair ESBPI - ESBP2 followed by 40 additional cycles using 2ul o f the product of the first reaction using the primer pair EWS 696 - Fll 1041 By conventional PCR, primer pair ESBPI - ESBP2, and EWS 696-FLI 1041 generate fragments of 310bp and 205b ⁇ respectively.
- both sets of primers are outside the breakpoint of the EWS/FLI 1 translocation.
- both nested and non-nested Lightcycler® PCR products were confirmed by size using 1% TAE agarose gel with ethidium bromide (data not shown).
- Hybridization probes spanning the EWS/FLI 1 breakpoint were used to detect target template in the Lightcyler reaction.
- G6PD was amplified from 5ul of cDNA and analyzed using sequence specific hybridization probes G6PDHP1 and G6PDHP2.
- Cycle crossing number was ascertained at the point in which all samples had entered the log linear phase. Cycle crossing number was used to determine log cell concentration according to a standard curve. The standard curve was generated by amplifying 5ul o f cDNA derived from lug of RNA from 10 X 10 6 normal PBMCs spiked with TC71 tumor cells at decreasing concentrations from 1 : 10 to 1 : 10 7 .
- G6PDHP2 5' LCRED640-CAAATCTCAGCACCATGAGGTTCTGCAC-P3'
- CD3 enriched cells were contaminated with Ewing's sarcoma at a level of 1:10 .
- CD34+ cells were enriched from pre- and post-purged samples from fresh human bone marrow using the Miltenyi® direct CD34+ progenitor isolation kit. 35 x 10 6 bone marrow mononuclear cells from each sample were run over a positive selection (MS) column yielding a CD34+ enriched population with estimated purities of >70% 24. 1000 cells were plated in triplicate in methylcellulose media supplemented with recombinant cytokines (MethoCultGF+H4435, Stem cell Technologies, Vancouver, BC). CFUs were counted after 14 days of culture.
- MS positive selection
- Monoclonal Antibody 8H9 binds all Ewing's Sarcoma Cell Lines tested but not normal lymphocytes or hematopoietic progenitors.
- variable levels o f contamination could be quantified using RT-PCR.
- MoAb 8H9 based immunomagnetic purging yields a 2 to 3-Iog reduction in artificially contaminated peripheral blood and bone marrow populations.
- Ewing's sarcoma cells at a level of 1 : 100 is shown in figure 4a.
- These results demonstrate a 2-log reduction in tumor following 8H9 based purging.
- CD34+ selected cells from G-CSF mobilized peripheral blood were spiked at a level of 1:10 3 and purged as shown in figure 4b.
- Using the quantitative PCR we observed a 3 -log reduction in the level of contamination following one run over the column.
- monoclonal antibody 8H9 may be a suitable candidate for immunomagnetic based purging of contaminated blood, bone marrow, and CD 34+ enriched progenitor populations specimens with the likelihood for purging to PCR negativity being high if the level of contamination present in clinical samples is less than 1:10 . Contamination of non-mobilized patient apheresis fractions with Ewing's Sarcoma is between 1:10 s -1:10 6 .
- Patient B (middle panel) showed a level of contamination of approximately 1 :10 6 in the 120ml/min (lymphocyte) fraction with no evidence for positivity in the 190ml/min or rotor off (monocyte) fractions.
- Patient C (bottom panel) showed a level of contamination between 1:10 s and 1:10 6 in multiple fractions. In no instance have we observed levels of contamination greater than 1:10 4 . Therefore, because clinical specimens contaminated with Ewing's sarcoma appears to be in the range of 1:10 5 -1:10 6 , it is anticipated that reduction in contamination to at least 1:10 7 following 8H9 based purging will be achievable in the vast maj ority of patients.
- Table 1 Contamination of non- mobilized apheresis fractions with Ewing's sarcoma as analyzed by conventional PCR.
- T cells can contribute to post chemotherapy immune reconstitution 2 ⁇ we are currently utilizing autologous T cell infusions harvested prior to initiation of chemotherapy in order to study effects on immune reconstitution.
- T cell proliferation Following anti-
- An ideal purging method should target only tumor cells and show no binding to normal cell populations.
- the identification of such a tumor specific antigen has historically posed a challenge in Ewing's sarcoma. While CD99 typically shows high expression on
- Ewing's sarcoma cells it is also expressed on T cells (figure 2a) and CD 34 stem cells 26 ? making it unsuitable for purging hematologic products.
- Monoclonal antibody 8H9 was initially developed due to its reactivity with neuroblastoma and was subsequently reported to react with 19/19 fresh Ewing's sarcoma PNET tumor confirming that 8H9 reactivity is not limited to established cell lines. 27.
- Our results (Figure 1) confirmed this reactivity in all Ewing's cell lines evaluated. Since this antibody showed no reactivity with T cells and CD34+ cells, it was ideally suited for purging. Indeed, we demonstrated a 2-3 log reduction in all experiments following one run over the negative selection column.
- Ewing's sarcoma cells positively selected using 8H9 retain their clonogenic properties and are able to be maintained in cell culture. This property has the potential aid in the generation and study of tumor cell lines derived from patients with pediatric sarcomas, which is currently difficult in these tumors due to limitations of tumor size and surgical accessibility of primary tumors.
- RT-PCR is a powerfully sensitive tool for use in monitoring minimal residual disease MRD ⁇ O. It remains unclear, however, whether evidence of small amounts of residual tumor by molecular analysis is predictive for relapse in solid tumors and data in the literature is conflicting, de Alava et al. evaluated MRD in Ewing's sarcoma patients and showed a conelation between PCR positivity and disease relapse. In this report however, some patients remained PCR positive without disease relapse 3.
- Real- time quantitative PCR has been used as a tool to monitor MRD in leukemia patients 31> 32 an may be useful in evaluation of disease response 3 an d in predicting relapse in patients by the detection of increasing levels of tumor specific transcript.
- Ewing's sarcoma transcript It is possible that quantitative PCR could allow for further identification of patients with a high risk of relapse by detection of increasing amounts of Ewing's transcripts over time.
- the sensitivity of this analysis must be very high in order to allow for the detection of very low levels of circulating tumor in patients with solid tumors.
- the level of sensitivity of our technique reached 1 Ewing's sarcoma cell in 10 6 normal cells with nested PCR from 10 XI 0 6 cells.
- Tumor enrichment using positive selection is another method to increase sensitivity of tumor detection.
- the positive immunomagnetic selection procedure described in this paper for purging could also provide a suitable approach for tumor enrichment in for monitoring MRD or even in contributing to making the correct diagnosis at the time of initial presentation with metastatic disease. Indeed, cells eluted from the column were positive by PCR analysis, demonstrating the feasibility of this technique for tumor enrichment which would be predicted to increase the sensitivity of PCR detection of contaminating Ewing's sarcoma in patient samples.
- Dyson PG Horvath N, Joshua D, et al. CD34+ selection of autologous peripheral blood stem cells for transplantation following sequential cycles of high-dose therapy and mobilisation in multiple myeloma [In Process Citation]. Bone Manow Transplant.
- DRCT Desmoplastic small round cell tumor
- MRD minimal residual disease
- Monoclonal antibodies selective for cell surface tumor-associated antigens may have utility for diagnosis and therapy of MRD, as recently demonstrated in advanced-stage neuroblastoma (JCO 16: 3053, 1998).
- GD 2 is a disialoganglioside which is widely expressed among neuroectodermal tumors as well as adult sarcomas.
- 8H9 recognizes a surface 58kD antigen expressed among neuroectodermal, mesenchymal and epithelial tumors with restricted expression on normal tissues.
- Desmoplastic small round cell tumor is an aggressive, ill-understood tumor affecting children and young adults. It is characterized clinically by widespread abdominal serosal involvement, metastasizes to peritoneum, liver, lungs and lymph nodes, and is associated with a poor prognosis (Gerald et al., 1991). Histologically, it consists of small, undifferentiated round cells sunounded by an abundant desmoplastic stroma. Immunohistochemically, the coexpression of epithelial, neural and muscle markers is typical (Ordonez et al., 1993). DSRCT is associated with a specific chromosomal translocation, t(l l;22)(pl3;ql2).
- the fused gene product aligns the NH2 terminal domain of the EWS gene to the zinc finger DNA-binding domain of the WT1 gene and is diagnostic of DSRCT (Ladanyi et al., 1994). This fusion results in the induction of endogenous platelet derived growth factor-A which stimulates fibroblast growth and may contribute to the unique fibrosis observed with this tumor (Lee et al, 1997). Further evidence of upregulation of growth factors includes the reported expression of IGF-II, PDGF- ⁇ receptor and IL- 11 in DSRCT (Froberg et al., 1999).
- Frozen tumors from 37 patients with DSRCT were analyzed. Diagnosis was confirmed by hematoxylin and eosin assessment of paraffin-fixed specimens.
- the murine IgG 3 monoclonal antibody 3F8 was purified from ascites as previously described (Cheung et al., 1985). Using a similar technique, female BALB/c mice were hyperimmunized with human neuroblastoma. Lymphocytes derived from these mice were fused with SP2/0 mouse myeloma cells line. Clones were selected for specific binding on
- the 8H9 hybridoma secreting an IgGi monoclonal antibody was selected.
- 8H9 was produced in vitro and purified by protein G (Pharmacia, Piscataway, NJ) affinity chromatography.
- Immunohistochemical studies Eight ⁇ m cryostat frozen tumor sections were fixed in acetone and washed in PBS.
- Sections were incubated with a secondary horse anti-mouse biotinylated antibody (Vector Laboratories, Burlingame, CA) followed by incubation with ABC complex (Vector Laboratories, Burlingame, CA) and stained with Vector VIP peroxidase substrate (Vector Laboratories, Burlingame, CA) or DAB peroxidase substrate kit (Vector Laboratories, Burlingame, CA). A 10% hematoxylin counterstain for 2 minutes was used. Staining was graded as positive or negative and homogenous or heterogenous reactivity noted.
- DSRCT is characterized by the coexpression of epithelial, mesenchymal and neuroectodermal markers. Recent publications have defined the immunohistochemical and molecular make-up of DSRCT (Ordonez, 1998; Gerald, 1999). However, most of the markers identified cannot be used as targets for antibody mediated immunotherapy either due to crossreactivity with normal tissues or inaccessibility to monoclonal antibodies due to localization in the nucleus or cytoplasm. (Table 3). The most commonly expressed markers on DSRCT including desmin, cytokeratin, vimentin, epithelial membrane antigen and neuron-specific enolase are also widely expressed on normal tissues. The MIC2 antigen has been reported to be expressed on 20-35% of DSRCT.
- Endothelial cells Endothelial cells, hematopoeitic cells
- GD 2 a disialoganglioside which is expressed on other small blue round cell tumors such as neuroblastoma , small cell lung cancer , melanoma and osteosarcoma (Heiner et al., 1987) as well as on adult soft tissue sarcomas (Chang et al.,
- GQ 2 is a s afe target for immunotherapy b ased o n clinical trials of the anti-Go ⁇ antibody 3F8 in patients with neuroblastoma. tissues of the nervous system (Cheung et al., 1998). Serum GD 2 does not interfere with the biodistribution of specific antibodies and the antigen is not modulated from the cell surface upon binding by antibodies. Successful targeting of the monoclonal antibody 3F8 to GD 2 was previously demonstrated in neuroblastoma (Yeh et al., 1991) and small cell lung cancer (Grant et al., 1996).
- 3F8 has also shown efficacy in clinical trials in patients with neuroblastoma (Cheung et al., 1998b) and melanoma (Cheung et al., 1987). Furthermore, 3F8 appeared to induce long-term remissions in patients with Stage 4 neuroblastoma. Reported side effects are short-lived and manageable (Cheung et al., 1998). In our study 72% of DSRCT tested were immunoreactive with the anti-GD2 antibody 3F8. Most tumors showed strong, homogeneous reactivity localized to the cell membrane. (Table 1) (Table 1) (Table 1) (Table 1) DSRCT may be a putative tumor for in vivo antibody targeting with 3F8. Alternatively, an anti- idiotypic vaccine approach can be utilized as has been suggested for neuroblastoma. (Cheung et al, 1994)
- the monoclonal antibody 8H9 is a murine IgGi derived from mice immunized with neuroblastoma. It has been shown to have a broad expression on neuroectodermal, mesenchymal and epithelial tumors with limited expression on normal tissues, (data not shown). Its immunoreactive profile led us to use it for testing DSRCT. 95% of tumors tested positive with DSRCT. Immunoreactivity with DSRCT was localized to the stroma and cell membrane ( Figure 2) and for most tumors was intense and homogeneous, and in general, stronger than that observed for GD2 (Table 2).
- the target antigen for 8H9 appears to be a novel 58kD glycoprotein with a unique distribution on cell membranes of tumors of varying lineage, but restricted expression in normal tissues. This tissue distribution makes it likely to be a unique antigen not previously described on DSRCT.
- the cell membrane localization of 8H9 allows it to be targeted by monoclonal antibodies.
- 8H9 conjugated with I 131 has been shown to radioimmunolocahze neuroblastoma and rhabdomyosarcoma xenografts in mice without significant crossreactivity with other organs, (data not shown).
- SCLC-cluster-2 antibodies detect the pancarcinoma/epithelial glycoprotein E GP-2 (supplement) Int. J. Cancer 8: 60-3, 1994 Froberg, K, Brown, R.E. dislike Gaylord, H. usually Manivel, C, Infra-abdominal desmoplastic small round cell tumor: immunohistochemical evidence for up-regulation of autocrine and paracrine growth factors. Ann Clin Lab Sci 29: 78-85, 1999
- Kushner, B.H. LaQuaglia M.P., Wollner, N., Meyers, P.A., Lindsley, K.L., Ghavimi, F., Merchant, T.E., Boulad, F., Cheung, N.K., Bonilla, M.A., Crouch, G., Kelleher, J.F.,
- the EWS-WT1 translocation product induces PDGFA in desmoplastic small round- cell tumour. Nat Genet 17, 309-13, 1997
- Radioimmunodetection of neuroblastoma with iodine-131-3F8 conelation with biopsy, iodine-131 -metaiodobenzylguanidine and standard diagnostic modalities.
- ScFv provides a versatile homing unit for novel antibody-fusion constructs.
- a reliable screening and binding assay is often the limiting step for antigens that are difficult to clone or purify.
- anti-idiotypic antibodies can be used as sunogate antigens for cloning scFv and their fusion proteins.
- 8H9 is a murine IgGl monoclonal antibody specific for a novel antigen expressed on the cell surface of a wide spectrum of human solid tumors but not in normal tissues (Cancer Res 61 :4048,2001)
- Rat anti-8H9- idiotypic hybridomas (clones 2E9, 1E12 and 1F11) were produced by somatic cell fusion between rat lymphocytes and mouse SP2/0 myeloma. In direct binding assays (ELISA) they were specific for the 8H9 idiotope.
- 8H9-scFv was cloned from hybridoma cDNA by phage display. 8H9scFv was then fused to.
- scFv can now be cloned from cDNA libraries derived from rodents, immunized volunteers, or patients (Burton and Barbas m, 1994; Winter et al., 1994; Cai and Garen, 1995; Raag and Whitlow, 1995).
- scFv-cytokine (Shu et al., 1993), scFv-streptavidin (Kipriyanov et al., 1995), scFv-enzyme (Michael et al., 1996), scFv-toxins (Wikstrand et al., 1995), bispecific scFv (diabodies) (Alt et al., 1999), bispecific chelating scFv (DeNardo et al., 1999), scFv-Ig (Shu et al., 1993), tetravalent scFv (Alt et al., 1999; Santos et al., 1999) and scF
- scFv requires a reliable antigen preparation both for panning phages and for binding assays. They often become a rate-limiting step (Lu and Sloan, 1 999), particularly for antigens that are difficult to clone or purify.
- scFv requires a reliable antigen preparation both for panning phages and for binding assays. They often become a rate-limiting step (Lu and Sloan, 1 999), particularly for antigens that are difficult to clone or purify.
- Anti-idiotypic antibodies are frequently used as antigen mimics of infectious agents and tumor antigens (Thanavala et al., 1986; Wagner et al., 1997). When made as MoAb, they are ideal sunogates when the target antigen is not readily available.
- the physico-chemical behavior of immunoglobulins as antigens in panning and binding assays is generally known and can be e asily standardized.
- We recently described a novel tumor antigen reactive with a murine MoAb 8H9 Given its lability and glycosylation, this antigen is difficult to purify.
- mice were purchased from Jackson Laboratories, Bar Harbor, ME. Lou/CN rats were obtained from the National Cancer Institute-Frederick Cancer Center (Bethesda, MD) and maintained in ventilated cages. Experiments were carried out under a protocol approved by the Institutional Animal Care and Use Committee, and guidelines for the proper and humane use of animals in research were followed.
- 3F8 an IgG3 MoAb raised in a Balb/c mouse against human neuroblastoma, specifically recognizes the ganglioside GD2.
- MOPC-141, FLOPC-21, and Y5606 were purchased from Sigma-Aldrich.
- MoAb R24 (anti-GD3), V1-R24, and K9 (anti-GD3) were gifts from Dr. A. Houghton, OKB7 and
- LOU/CN rats were immunized intraperitoneally (ip) with 8H9 (400 ug per rat) complexed with rabbit anti-rat serum (in 0.15 ml), and emulsified with an equal volume (0.15 ml) of Complete Freund's Adjuvant (CFA) (Gibco-BRL, Gaithersburg, MD).
- CFA Complete Freund's Adjuvant
- the 8H9-rabbit- IgG complex was prepared by mixing 2 ml (8 mg) of purified 8H9 with 4 ml of a high titer rabbit anti-rat precipitating serum (Jackson Immunoresearch Laboratories, West Grove,
- Isotypes of the rat monoclonal antibodies were determined by Monoclonal Typing Kit (Sigma-Aldrich). Rat anti-idiotypic antibody clones (2E9, 1E12, 1F11) were chosen and produced by high density miniPERM bioreactor (Unisyn technologies, Hopkinton, MA), and purified by protein G affinity chromatography (Hitrap G, Pharmacia). The IgG fraction was eluted with pH 2.7 glycine-HCl buffer and neutralized with 1 M Tris buffer pH 9. After dialysis in PBS at 4°C for 18 hours, the purified antibody was filtered through a 0.2 um millipore filter (Millipore, Bedford, MA), and stored frozen at -70°C. Purity was determined by SDS-PAGE electrophoresis using
- Purified 8H9, or inelevant IgGl myeloma were diluted to 5 ug/ml in PBS and 50 ul per well was a dded t o 96-well flat-bottomed polyvinylchloride ( PVC) m icrotiter p lates a nd incubated for 1 hour at 37°C. Rows with no antigen were used for background subtraction.
- Filler protein was 0.5% BSA in PBS and was added at 100 ul per well, and incubated for 30 minutes at 4°C. After washing, 50 ul duplicates of hybridoma supernatant was added to the antigen-coated wells and incubated for 3 hours at 37°C. The plates were washed and a peroxidase-conjugated mouse anti-rat IgG + IgM (Jackson Immunoresearch Laboratory) at 100 ul per well was allowed to react for 1 hour at 4°C.
- the plate was developed using the substrate o-phenylenediamine (Sigma-Aldrich) (0.5 mg/ml) and hydrogen peroxide (0.03%) in 0.1 M citrate phosphate buffer at pH 5.
- 8H9 immunofluorescent staining of tumor cells by anti-idiotypic antibodies was tested.
- Purified 8H9 and anti-GD2 MoAb 3F8, (all 10 ug/ml in 0.5% BSA) were preincubated with various concentrations of anti-idiotypic antibodies for 30 minutes on ice before reacting with 10 6 cells of either GD2-positive/8H9 positive LAN-1 (neuroblastoma) or GD2-negative/8H9-positive HTB-82 (rhabdomyosarcoma).
- the cells were then washed twice in PBS with 0.1% sodium azide and reacted with FITC-conjugated rat anti-mouse IgG (Biosource, Burlingame, CA) on ice for 30 minutes in the dark.
- the cells were washed in PBS with azide, fixed in 1% paraformaldehyde and analyzed by FACScan (Becton-Dickinson, CA). The mean fluorescence was calculated and the inhibition curve computed.
- RNA sample was precipitated for 1 hour with 100 ug glycogen, 40 ul of 2M potassium acetate solution and 1 ml of absolute ethanol at -20°C.
- the nucleic acid was recovered by centrifugation at 10,000 xg for 30 min. The sample was evaporated until dry, and dissolved in 20ul RNase-free water.
- ScFv gene was constructed by recombinant phage display. 5ul of mRNA was reversely transcribed in a total volume of 11 ul reaction mixture and lul dithiothreitol (DTT) solution for 1 hour at 37°C.
- DTT lul dithiothreitol
- the PCR cycle consisted of a 1 min denaturation step at 94°C, a 2 min annealing step at 55°C and a 2 min extension step at 72°C. After 30 cycles of amplification, PCR derived fragment was purified by the glassmilk beads
- both purified heavy chain and light chain fragments were added to an appropriate PCR mixture containing a 15 amino acid linker-primer for
- 8H9, dNTPs, PCR buffer and Ampli Taq Gold DNA polymerase were performed at 94°C for 1 min, followed by a 4 min annealing reaction at 63°C.
- the heavy and light chain DNA of 8H9 were joined by the linker (GGGS) 3 (Pharmacia) into scFv in a VH-VL orientation after 7 thermocycles.
- Competent E.coli XL 1-Blue cells (Stratagene, La Jolla, CA) were transformed with the pHENl phagemid.
- Helper phage Ml 3 KO7 (Pharmacia) was added to rescue the recombinant phagemid.
- the selected phage was used to reinfect E.coli XL 1-Blue cells. Colonies were grown in 2xYT medium containing ampicillin (lOOug/ml) and 1% glucose at 30°C until the optical density of 0.5 unit at 600 nm was obtained. Expression of scFv antibody was induced by changing to the medium containing lOOuM IPTG (Sigma-Aldrich) and incubating at 30°C overnight. The supernatant obtained from the medium by centrifugation was directly added to the plate coated with anti-idiotype 2E9. The pellet was resuspended in the PBS containing ImM EDTA and incubated on ice for 10 min. The periplasmic soluble antibody was collected by centrifugation again and added to the plate. After a 2-hour incubation at
- Hind III - Not I fragment of human IgGl leader-scFv8H9 cDNA was purified on agarose gel and ligated into pLNCS23 vector carrying the human-(l-CH2-CH3 gene (kindly provided by Dr. J. Schlom, National Cancer Institute, NIH, Bethesda, MD) (Shu et al., 1993). Competent
- E.coli XL 1-Blue cells were transformed with pLNCS23 containing the scFv phagemid.
- the scFv-CH2-CH3 DNA was primed with appropriate primers and sequenced using the Automated Nucleotide Sequencing System Model 373 (Applied Biosystems). The sequences agreed with the cDNA sequences of the light and heavy chains of 8H9 as well as the human-l-CH2-CH3 available from GenBank, including the ASN 297 of the CH2 domain.
- Cys220 of the genetic hinge was replaced by a proline residue, while Cys226 and Cys229 were retained in the functional hinge (Shu et al., 1993)
- CHO cell or NSO myelomas cells (Lonza Biologies PLC, Bershire, UK) were cultured in RPMI 1640 (Gibco-BRL) supplemented with glutamine, penicillin, streptomycin
- chimeric antibodies were produced by high density miniPERM bioreactor from Unisyn Technologies using 0.5% ULG-FBS in Hydridoma-SFM (Invitrogen Corporation, Carlsbad, CA). The chimeric antibodies were purified by protein G (Pharmacia) affinity chromatography.
- Target NMB7 or LAN-1 tumor cells were labeled with Na 2 51 CrO 4 (Amersham Pharmacia) at 100 uCi/10 6 cells at 37°C for 1 hour. After the cells were washed, loosely bound 51 Cr was leaked for 1 hour at 37°C. After further washing, 5000 target cells/well were admixed with lymphocytes to a final volume of 200 ⁇ l/well. Antibody dependent cell-mediated cytotoxicity (ADCC) was assayed in the presence of increasing concentrations of chimeric antibody. In complement mediated cytotoxicity (CMC), human complement (at 1:5, 1:15 and 1 :45 final dilution) was used instead of lymphocytes. The plates were incubated at 37°C for 4 hours.
- ADCC antibody dependent cell-mediated cytotoxicity
- MoAb was reacted for 5 min with 125 I (NEN Life Sciences,Boston, MA ) and chloramine T (1 mg/ml in 0.3M Phosphate buffer, pH 7.2) at room temperature. The reaction was terminated by adding sodium metabisulfite (1 mg/ml in 0.3M Phosphate buffer, pH 7.2) for 2 min. Free iodine was removed with A1GX8 resin (BioRad, Richmond, CA) saturated with 1% HSA (New York Blood Center Inc., New York, NY) in PBS, pH 7.4. Radioactive peak was collected and radioactivity (mCi/ml) was measured using a radioisotope calibrator (Squibb, Princeton, NJ). Iodine incorporation and specific activities were calculated. Trichloroacetic acid (TCA) (Fisher Scientific) precipitable activity was generally >90%.
- Immunoreactivity of radioiodine labeled antibody was assayed using purified anti-idiotype antibody 2E9 as the antigen. Appropriate dilutions of 125 I labeled antibodies were added to plates in duplicates, and then tiansfened to freshly prepared antigen plates after 1 h and 4 h of binding at 4°C, respectively. The final binding step was allowed to proceed overnight at 4°C. The total percent radioactivity bound was a summation of 3 time points for each antibody dilution. For native 8H9, maximum immunoreactivity averaged -65%, while 8H9 scFv-Fc chimeric antibody was -48%.
- mice (nu/nu) were purchased from NCI, Frederick MD. They were xenografted subcutaneously with LAN-1 neuroblastoma cell line (2xl0 6 cells/mouse) suspended in 100 ul of Matrigel (Beckton-Dickinson BioSciences, Bedford, MA) on the flank. After 3 weeks, mice bearing tumors of 1-1.5cm in longest dimension were selected. Animals were injected intravenously (retrorbital plexus) with 20 ⁇ Ci of 125 I labeled antibody. They were anesthesized with ketamine (Fort Dodge Animal Health, Fort Dodge,
- PA intraperitoneally and imaged at various time intervals with a gamma camera (AD AC, Milpitas, CA) equipped with grid collimators.
- Serial blood samples were collected at 5 min, 1, 2, 4,8,18,24,48,72, 120h from mice injected with 10-11 uCi 125 I labeled antibody. Groups of mice were sacrificed at 24h, 48h, and 120h and samples of blood (cardiac sampling), heart, lung, liver, kidney, spleen, stomach, adrenal, small bowel, large bowel, spine, femur, muscle, skin, brain and tumor were weighed and radioactivity measured by a gamma counter. Results were expressed as percent injected dose per gram. Animal experiments were carried out under an IACUC approved protocol, and institutional guidelines for the proper and humane use of animals in research were followed. 3. Results
- Rat hybridomas specific for 8H9 and nonreactive with control murine IgGl were selected. After subcloning by limiting dilution, rat antibodies were produced by bulk culture in roller bottles and purified by protein G affinity column. By ELISA, 2E9, IE 12, and 1F11, all of rat subclass IgG2a, were specific for 8H9, while nonreactive with a large panel of purified monoclonal antibodies (Table I). In contrast, the antibodies 3C2, 4C2 5C7, 7D6 and 8E12 from the same fusions were not specific for 8H9. The rest of the experiments in this study was canied out using antibody 2E9.
- MOPC 21 At - - +++ +++ +++ +++ - -
- the supernatant, periplasmic soluble and cells pellet lysates of 8HpHM9F7-l were separated by nonreducing SDS-PAGE, and analysed by western blotting.
- a protein band with molecular weight of 31KD was found in the supernatant, the periplasmic and cell pellet extracts using anti-MycTag antibody which recognized the sequence GAPVPDPLEPR. No such band was detected in control cells or 8HpHM9F7-l cells without IPTG treatment.
- the scFv-Fc chimeric antibody was inefficient in mediating ADCC in the presence of human lymphocytes or human neutrophils (17% maximum cytotoxicity at 50:1 E:T ratio compared to >50% by the murine IgG3 MoAb 3F8). It was also ineffective in CMC (data not shown). In biodistribution studies, it localized well to HTB82 and LAN-1 xenografts (Figure 4).
- scFv and scFv-fusion proteins can be conveniently produced.
- the anti-idiotypic antibody to clone scFv from the murine hybridoma cDNA library.
- the anti- idiotypic antibody was then used to select for scFv-Fc chimeric antibodies.
- Both the scFv and scFv-Fc fusion protein derived by our method were specific for the natural antigen, comparable to the native antibody 8H9. However, the scFv-Fc fusion protein could only mediate ADCC poorly and not CMC at all.
- scFv provides the building block for scFv-fusion proteins, it is not the ideal targeting agent by itself. Being a small protein, its clearance is rapid. Moreover, it is often retained by the kidney, delivering undesirable side effects if the scFv construct is cytotoxic. Since avidity is a key parameter in tumor targeting in vivo, its biggest limitation is its uni-valency and often suboptimal affinity for the antigen.
- VH- VL linkers of decreasing length, spontaneous dimeric, trimeric and polymeric scFv have been produced. However, these oligomers are not bonded by covalent linkage, and may dissociate in vivo.
- Fc functions such as CMC and ADCC could also be achieved achieved (Shu et al., 1993; Kato et al., 1995; Brocks et al., 1997; Wang et al.,
- Tetravalent scFv (monospecific or bispecific) are natural extensions of the diabody approach to scFv-Fc fusion strategy (Alt et al., 1999; Santos et al., 1999), where a significant increase in avidity can be achieved. More recently, scFv-streptavidin fusion protein has been produced for pretargeted lymphoma therapy (Schultz et al., 2000). Here scFv-streptavidin forms natural tetramers, to which biotinyated ligands can bind with high affinity.
- Anti-idiotypic antibodies have greatly facilitated clone selection in the construction of soluble scFv-fusion proteins or cell bound surface scFv.
- We have successfully applied similar technology to anti-GD2 monoclonal antibodies (Cheung et al., 1993). Being immunoglobulins, their structure, stability, biochemistry, are generally known. Unlike natural antigens where each individual system has its unique and difficult to predict properties.
- anti-idiotypic antibodies are ideal for standardization and quality c ontrol, e specially for initial c linical investigations where the nature of the antigen is not fully understood. Potential limitations exist for the anti-idiotype approach.
- Ab2 Only those anti-ids (Ab2) that recognize the antigen-binding site of the immunizing MoAb can mimic the original antigen.
- a reliable test for Ab2 is its ability to induce an antigen- specific immune response.
- antigen specificity of the scFv selected by the anti-idiotype must be validated by binding to cells or membrane preparations. Once validated, the anti-idiotype can be used as antigen sunogate for cloning and assay of other scFv-fusion proteins.
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Priority Applications (8)
Application Number | Priority Date | Filing Date | Title |
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AU2003220079A AU2003220079A1 (en) | 2002-03-08 | 2003-03-06 | Uses of monoclonal antibody 8h9 |
EP03716369A EP1572077B1 (en) | 2002-03-08 | 2003-03-06 | Uses of monoclonal antibody 8h9 |
DE60335203T DE60335203D1 (en) | 2002-03-08 | 2003-03-06 | USES OF MONOCLONAL ANTIBODY 8H9 |
CA2478082A CA2478082C (en) | 2002-03-08 | 2003-03-06 | Uses of monoclonal antibody 8h9 |
AT03716369T ATE490274T1 (en) | 2002-03-08 | 2003-03-06 | USES OF MONOCLONAL ANTIBODY 8H9 |
US10/505,658 US7740845B2 (en) | 2000-10-18 | 2003-03-06 | Uses of monoclonal antibody 8H9 |
US12/721,798 US8414892B2 (en) | 2000-10-18 | 2010-03-11 | Uses of monoclonal antibody 8H9 |
US13/858,234 US9062110B2 (en) | 2000-10-18 | 2013-04-08 | Uses of monoclonial antibody 8H9 |
Applications Claiming Priority (6)
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US10/097,558 | 2002-03-08 | ||
US10/097,558 US7737258B2 (en) | 2000-10-18 | 2002-03-08 | Uses of monoclonal antibody 8H9 |
USPCT/US02/33331 | 2002-10-17 | ||
US10/273,762 | 2002-10-17 | ||
PCT/US2002/033331 WO2003033670A2 (en) | 2001-10-17 | 2002-10-17 | Method for preparation of single chain antibodies |
US10/273,762 US7666424B2 (en) | 2001-10-17 | 2002-10-17 | Methods of preparing and using single chain anti-tumor antibodies |
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PCT/US2002/033331 Continuation-In-Part WO2003033670A2 (en) | 2000-10-18 | 2002-10-17 | Method for preparation of single chain antibodies |
US10/273,762 Continuation-In-Part US7666424B2 (en) | 2000-10-18 | 2002-10-17 | Methods of preparing and using single chain anti-tumor antibodies |
US10/273,762 Continuation US7666424B2 (en) | 2000-10-18 | 2002-10-17 | Methods of preparing and using single chain anti-tumor antibodies |
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Cited By (20)
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EP1567556A2 (en) * | 2002-12-02 | 2005-08-31 | THE GOVERNMENT OF THE UNITED STATES OF AMERICA, as represented by THE SECRETARY, DEPARTMENT OF HEALTH AND HUMAN SERVICES | Recombinant immunotoxin and use in treating tumors |
WO2008094176A3 (en) * | 2006-06-19 | 2009-04-30 | Tolerx Inc | Ilt3 binding molecules and uses therefor |
EP2121008A2 (en) * | 2007-03-22 | 2009-11-25 | Sloan-Kettering Institute for Cancer Research | Uses of monoclonal antibody 8h9 |
US7737258B2 (en) | 2000-10-18 | 2010-06-15 | Sloan-Kettering Institute For Cancer Research | Uses of monoclonal antibody 8H9 |
US7740845B2 (en) | 2000-10-18 | 2010-06-22 | Sloan-Kettering Institute For Cancer Research | Uses of monoclonal antibody 8H9 |
WO2012109659A1 (en) * | 2011-02-11 | 2012-08-16 | Memorial Sloan-Kettering Cancer Center | Hla-restricted, peptide-specific antigen binding proteins |
US8414892B2 (en) | 2000-10-18 | 2013-04-09 | Sloan-Kettering Institute For Cancer Research | Uses of monoclonal antibody 8H9 |
US8501471B2 (en) | 2000-10-18 | 2013-08-06 | Sloan-Kettering Institute For Cancer Research | Uses of monoclonal antibody 8H9 |
US8901281B2 (en) | 2005-06-17 | 2014-12-02 | Merck Sharp & Dohme Corp. | ILT3 binding molecules and uses therefor |
US9074000B2 (en) | 2011-04-01 | 2015-07-07 | Memorial Sloan Kettering Cancer Center | T cell receptor-like antibodies specific for a WT1 peptide presented by HLA-A2 |
US9963509B2 (en) | 2014-12-23 | 2018-05-08 | Full Spectrum Genetics, Inc. | Anti-B7H3 binding compounds and uses thereof |
WO2019241730A2 (en) | 2018-06-15 | 2019-12-19 | Flagship Pioneering Innovations V, Inc. | Increasing immune activity through modulation of postcellular signaling factors |
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WO2021037319A1 (en) | 2019-08-30 | 2021-03-04 | Y-Mabs Therapeutics, Inc. | Immunohistochemical assessment of b7-h3 expression |
WO2021127217A1 (en) | 2019-12-17 | 2021-06-24 | Flagship Pioneering Innovations V, Inc. | Combination anti-cancer therapies with inducers of iron-dependent cellular disassembly |
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-
2003
- 2003-03-06 CA CA2478082A patent/CA2478082C/en not_active Expired - Lifetime
- 2003-03-06 WO PCT/US2003/007004 patent/WO2003075846A2/en not_active Application Discontinuation
- 2003-03-06 AU AU2003220079A patent/AU2003220079A1/en not_active Abandoned
Non-Patent Citations (2)
Title |
---|
MODAK ET AL: 'Monoclonal Antibody 8H9 Targets a Novel Cell Surface Antigen Expressed by a Wide Spectrum of Human Solid Tumors.' CANCER RESEARCH vol. 61, 15 May 2001, pages 4048 - 4054, XP002974623 * |
See also references of EP1572077A2 * |
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EP1567556A4 (en) * | 2002-12-02 | 2006-03-22 | Us Gov Health & Human Serv | Recombinant immunotoxin and use in treating tumors |
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WO2003075846A3 (en) | 2005-08-11 |
CA2478082C (en) | 2016-02-02 |
AU2003220079A8 (en) | 2003-09-22 |
CA2478082A1 (en) | 2003-09-18 |
AU2003220079A1 (en) | 2003-09-22 |
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