WO2013041966A1 - Vaccibodies targeted to cross-presenting dendritic cells - Google Patents
Vaccibodies targeted to cross-presenting dendritic cells Download PDFInfo
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- WO2013041966A1 WO2013041966A1 PCT/IB2012/002330 IB2012002330W WO2013041966A1 WO 2013041966 A1 WO2013041966 A1 WO 2013041966A1 IB 2012002330 W IB2012002330 W IB 2012002330W WO 2013041966 A1 WO2013041966 A1 WO 2013041966A1
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- C07K2319/42—Fusion polypeptide containing a tag for immunodetection, or an epitope for immunisation containing a HA(hemagglutinin)-tag
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- C—CHEMISTRY; METALLURGY
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Definitions
- the present invention relates to recombinant fusion proteins targeted to dendritic cells and uses thereof.
- the present invention relates to fusion proteins (vaccibodies) comprising a targeting component, an antigen, a linker region and an antibody component and uses of such homodimeric fusion proteins, or DNA encoding such fusion proteins, to trigger immune responses.
- DNA vaccination is a technically simple way of inducing immune responses.
- Targeting of protein antigens to antigen-presenting cells can improve T- and B-cell responses.
- Recombinant immunoglobulin (Ig) molecules are well suited for this purpose.
- short antigenic epitopes can replace loops between ⁇ -strands in the Ig constant domains while targeted antigen delivery is obtained by equipping the recombinant Ig with variable (V) regions specific for surface molecules on APC.
- V variable regions specific for surface molecules on APC.
- V variable
- recombinant Ig molecules with short T cell epitopes fail to elicit antibodies against conformational epitopes.
- targeted Ig-based homodimeric DNA vaccines have been generated that express infectious or tumor antigens with a size of at least 550 aa with maintenance of conformational epitopes.
- the present invention relates to recombinant fusion proteins targeted to dendritic cells and uses thereof.
- the present invention relates to fusion proteins (vaccibodies) comprising a targeting component, an antigen, a linker region and an antibody component and uses of such homodimeric fusion proteins, or DNA encoding such fusion proteins, to trigger immune responses.
- embodiments of the present invention provides a fusion polypeptide, nucleic acids encoding the polypeptide, as well as vectors and cells comprising the vectors encoding the fusion polypeptide, wherein the fusion polypeptide comprises a targeting unit comprising an amino acid sequence having at least 80 % sequence identity to the amino acid sequence of human or mouse Xcll or Xcl2 (e.g., as described by SEQ ID NOs 1, 2 or 3) (e.g., at least 85%, 90%, 95%, 99% or 100% homology) and an antigenic unit, the targeting unit and the antigenic unit being connected through a dimerization motif.
- a targeting unit comprising an amino acid sequence having at least 80 % sequence identity to the amino acid sequence of human or mouse Xcll or Xcl2 (e.g., as described by SEQ ID NOs 1, 2 or 3) (e.g., at least 85%, 90%, 95%, 99% or 100% homology) and an antigenic unit, the targeting unit and the anti
- the fusion polypeptide preferably binds to Xcrl on cross-presenting DCs.
- variants or homologs of human or mouse Xcll or Xcl2 exhibit a higher affinity for Xcrl than the native human or mouse Xcll or Xcl2.
- the antigenic unit is an antigenic scFv, a bacterial antigen, a viral antigen or a cancer associated or a cancer specific antigen.
- a linker such as a (G 4 S)3 linker, connects the VH and VL in the antigenic scFv.
- the antigenic scFv is derived from a monoclonal Ig produced by myeloma or lymphoma cells.
- the antigenic unit is a telomerase, or a functional part thereof. In some embodiments the telomerase is hTERT. In some embodiments the antigenic unit is a melanoma antigen.
- the melanoma antigen is tyrosinase, TRP- 1 , or TRP-2.
- the antigenic unit is a prostate cancer antigen. In some embodiments the prostate cancer antigen is PSA. In some embodiments the antigenic unit is a cervix cancer antigen. In some embodiments the cervix cancer antigen is selected from the list consisting of El, E2, E4, E6, E7, LI and L2. In some embodiments the antigenic unit is derived from a bacterium. In some embodiments the bacterium derived antigenic unit is a tuberculosis antigen. In some embodiments the bacterium derived antigenic unit is a brucellosis antigen.
- the antigenic unit is derived from a virus.
- the virus derived antigenic unit is derived from HIV.
- the HIV derived antigenic unit is derived from gpl20 or Gag.
- the antigenic unit is selected from the list consisting of influenza virus hemagglutinin (HA), nucleoprotein, and M2 antigen; and Herpes simplex 2 antigen glycoprotein D.
- the polypeptide is present as a dimer.
- the dimerization motif comprises a hinge region and optionally another domain that facilitate dimerization, such as an immunoglobulin domain, optionally connected through a linker.
- the dimerization domain comprises human IgG3 dimerization domain (hCH3).
- the hinge region has the ability to form one, two, or several covalent bonds.
- the covalent bond is a disulphide bridge.
- the immunoglobulin domain of the dimerization motif is a carboxyterminal C domain, or a sequence that is substantially homologous to said C domain. In some embodiments the carboxyterminal C domain is derived from IgG.
- the immunoglobulin domain of the dimerization motif has the ability to homodimerize. In some embodiments the immunoglobulin domain of the dimerization motif has the ability to homodimerize via noncovalent interactions. In some embodiments the noncovalent interactions are hydrophobic interactions. In some embodiments the dimerization domain does not comprise the CH2 domain. In some embodiments the dimerization motif consist of hinge exons hi and h4 connected through a linker to a CH3 domain of human IgG3. In some embodiments the linker that connects the hinge region and another domain that facilitate dimerization, such as an immunoglobulin domain, is a G 3 S 2 G 3 SG linker.
- the antigenic unit and the dimerization motif is connected through a linker, such as a GLSGL linker.
- a linker such as a GLSGL linker.
- preferred variant homodimeric proteins have increased affinity for the Xcrl chemokine receptor as compared to the affinity of the native homodimeric protein.
- the present invention provides nucleic acid molecules encoding the vaccibodies described above.
- the nucleic acid molecules according to invention are included in a vector.
- the present invention provides host cells comprising the vectors.
- the nucleic acid molecule according to the invention is formulated for administration to a patient to induce production of the homodimeric protein in said patient.
- the vaccine according to the invention comprises a pharmaceutically acceptable carrier and/or adjuvant.
- the present invention provides a vaccine against a cancer or an infectious disease comprising an immunologically effective amount of a homodimeric protein as described above or nucleic acid molecule encoding the monomelic protein which can form the homodimeric protein described above, wherein the vaccine is able to trigger T-cell- and/or B-cell immune response (preferably both) and wherein the homodimeric protein contain an antigenic unit specific for said cancer or infectious disease.
- compositions according to the present invention is multiple myeloma or lymphoma, malignant melanoma, HPV induced cancers, prostate cancer, breast cancer, lung cancer, ovarian cancer, and/or liver cancer.
- infectious disease treated by a vaccine or pharmaceutical compositions according to the present invention is selected from the list consisting of influenza, Herpes, CMV, HPV, HBV, brucellosis, HIV, HSV-2 and tuberculosis.
- the present invention further provides kits comprising the fusion polypeptides.
- Additional embodiments of the present invention provide a method of inducing an immune response, comprising administering the vaccine compositions described herein to a subject under conditions such that the subject generates an immune response to the antigen unit.
- the present invention further provides methods for preparing a homodimeric protein as described above, the method comprising introducing the nucleic acid molecule encoding the monomelic protein which can form the homodimeric protein described above into a cell population; culturing the cell population; and collecting and purifying the homodimeric protein expressed from the cell population.
- FIG. 1 shows the structure and function of Xcll targeted vaccibodies.
- A The vaccibody structure with mouse Xcll as a targeting unit, a dimerization domain, and a viral antigenic unit.
- B Schematic drawing of targeting using fusion proteins of embodiments of the present invention.
- Xcll -vaccibodies bind Xcrl expressing DC subsets which
- Figure 2 shows XCR1 expression by DC subsets from nonlymphoid and lymphoid organs.
- A Gating strategy defining DC subsets in each organ.
- B-J Histograms showing bgal enzymatic activity representative of XCR1 expression in DC subsets of various organs of C57BL/6J and XCRl-bGal mice (except for E where the recombinant XCLl-mCherry was used).
- B Epidermis.
- C Dermis.
- D-F CLNs.
- F The percentage of bGal-i- cells was calculated by subtracting the percent of bGal+ cells in C57BL/6J mice to the percentage of bGal+ cells in XCRl-bGal mice.
- G CADM1 expression in CLN-resident CDl lb+ and CD8a+ DCs (left panel) and in CLN-mig CDl lb+, CD1032, and CD103+ DCs (right panel).
- H Liver, lungs, and intestine.
- I Mig-DC subsets from MedLNs and MLNs.
- J LT-resident DC subsets from spleen, MedLNs and MLNs.
- FIG. 3 shows the characterization of Xcll targeted vaccibodies.
- A) Vaccibodies are expressed in vivo as dimeric proteins consisting of a targeting unit (Xcll), a dimerization unit (hCH3) and an antigen unit (mCherry).
- Xcll targeting unit
- hCH3 dimerization unit
- mCherry antigen unit
- To generate a mutant that putatively did not bind Xcrl we generated a mutated Xcll where cystein 11 was mutated to an alanine (Cl lA).
- Xcll -targeted and the presumptively non- targeting Cl lA mutant vaccibodies were expressed in 293E cells and analyzed by B) western blotting using antibodies directed against mCherry and C) ELISA with antibodies directed against Xcll .
- Figure 4 shows humoral immune response to Xcll targeted HA-vaccibodies.
- a comparison was made to HA alone, NIP-HA (a non-targeted vaccibody specific for the hapten NIP) and the CI 1 A mutant, a) Serum samples taken 14 days post immunization were analyzed for anti-HA antibodies, b) The serum immunoglobulin respons were further analysed for IgGl and IgG2a isotype at day 14 post immunization.
- Serum levels for IgG2a c) and IgGl d) in Balb/c mice was monitored for 18 weeks, with serum samples being collected on week 1, 3, 5, 7, 10, 14 and 18 e) IgG2a serum response when titrating Xcll-HA vacciody DNA in Balb/c mice.
- the numbers in brackets indicate the total amount of DNA used to immunize the mice.
- Figure 5 shows pentamer staining of CD8+ T-cells specific for the HA peptide IYSTVASSL presented on MHC-I molecule K d .
- IYSTVASSL pentamer The numbers in the top right quadrant indicate the percentage of pentamer positive CD8+ T-cells.
- Figure 6 shows that Xcll-HA vaccibodies protects mice against a lethal challenge of Influenza A/PR/8/34(HlNl) (PR8).
- Figure 8 is graph comparing expression and secretion of murine and human Xcll and human Xcl2 vaccibodies.
- Figures 9a and 9b are a graph comparing immune response after immunization with Xcll and Xcl2 vaccibodies.
- Figures 10a and 10b are graphs comparing weight loss after challenge with influenza virus 14 days after immunization with Xcll and Xcl2 vaccibodies.
- immune response refers to a response by the immune system of a subject.
- immune responses include, but are not limited to, a detectable alteration (e.g., increase) in Toll receptor activation, lymphokine (e.g., cytokine (e.g., Thl or Th2 type cytokines) or chemokine) expression and/or secretion, macrophage activation, dendritic cell activation, T cell activation (e.g., CD4+ or CD8+ T cells), NK cell activation, and/or B cell activation (e.g., antibody generation and/or secretion).
- lymphokine e.g., cytokine (e.g., Thl or Th2 type cytokines) or chemokine
- macrophage activation e.g., dendritic cell activation
- T cell activation e.g., CD4+ or CD8+ T cells
- NK cell activation e.g., antibody generation and/or secreti
- immune responses include binding of an immunogen (e.g., antigen (e.g., immunogenic polypeptide)) to an MHC molecule and inducing a cytotoxic T lymphocyte ("CTL") response, inducing a B cell response (e.g., antibody production), and/or T-helper lymphocyte response, and/or a delayed type hypersensitivity (DTH) response against the antigen from which the immunogenic polypeptide is derived, expansion (e.g., growth of a population of cells) of cells of the immune system (e.g., T cells, B cells (e.g., of any stage of development (e.g., plasma cells), and increased processing and presentation of antigen by antigen presenting cells.
- an immunogen e.g., antigen (e.g., immunogenic polypeptide)
- CTL cytotoxic T lymphocyte
- B cell response e.g., antibody production
- T-helper lymphocyte response e.g., T-helper lymphocyte response
- DTH delayed type
- an immune response may be to immunogens that the subject's immune system recognizes as foreign (e.g., non-self antigens from microorganisms (e.g., pathogens), or self-antigens recognized as foreign).
- immunogens that the subject's immune system recognizes as foreign
- immune response refers to any type of immune response, including, but not limited to, innate immune responses (e.g., activation of Toll receptor signaling cascade) cell- mediated immune responses (e.g., responses mediated by T cells (e.g., antigen- specific T cells) and non-specific cells of the immune system) and humoral immune responses (e.g., responses mediated by B cells (e.g., via generation and secretion of antibodies into the plasma, lymph, and/or tissue fluids).
- innate immune responses e.g., activation of Toll receptor signaling cascade
- T cells e.g., antigen- specific T cells
- B cells e.g., via generation and secretion
- immuno response is meant to encompass all aspects of the capability of a subject's immune system to respond to antigens and/or immunogens (e.g., both the initial response to an immunogen (e.g., a pathogen) as well as acquired (e.g., memory) responses that are a result of an adaptive immune response).
- an immunogen e.g., a pathogen
- acquired e.g., memory
- the term "immunity” refers to protection from disease (e.g., preventing or attenuating (e.g., suppression) of a sign, symptom or condition of the disease) upon exposure to a microorganism (e.g., pathogen) capable of causing the disease.
- Immunity can be innate (e.g., non-adaptive (e.g., non-acquired) immune responses that exist in the absence of a previous exposure to an antigen) and/or acquired (e.g., immune responses that are mediated by B and T cells following a previous exposure to antigen (e.g., that exhibit increased specificity and reactivity to the antigen)).
- immunogen refers to an agent (e.g., a microorganism (e.g., bacterium, virus or fungus) and/or portion or component thereof (e.g., a protein antigen)) that is capable of eliciting an immune response in a subject.
- immunogens elicit immunity against the immunogen (e.g. , microorganism (e.g., pathogen or a pathogen product)).
- test compound refers to any chemical entity, pharmaceutical, drug, and the like that can be used to treat or prevent a disease, illness, sickness, or disorder of bodily function, or otherwise alter the physiological or cellular status of a sample.
- Test compounds comprise both known and potential therapeutic compounds.
- a test compound can be determined to be therapeutic by screening using the screening methods of the present invention.
- a "known therapeutic compound” refers to a therapeutic compound that has been shown (e.g. , through animal trials or prior experience with administration to humans) to be effective in such treatment or prevention.
- sample as used herein is used in its broadest sense. In one sense it can refer to a tissue sample. In another sense, it is meant to include a specimen or culture obtained from any source, as well as biological. Biological samples may be obtained from animals (including humans) and encompass fluids, solids, tissues, and gases. Biological samples include, but are not limited to blood products, such as plasma, serum and the like. These examples are not to be construed as limiting the sample types applicable to the present invention.
- a sample suspected of containing a human chromosome or sequences associated with a human chromosome may comprise a cell, chromosomes isolated from a cell (e.g., a spread of metaphase chromosomes), genomic DNA (in solution or bound to a solid support such as for Southern blot analysis), RNA (in solution or bound to a solid support such as for Northern blot analysis), cDNA (in solution or bound to a solid support) and the like.
- a sample suspected of containing a protein may comprise a cell, a portion of a tissue, an extract containing one or more proteins and the like.
- amino acid sequence is recited herein to refer to an amino acid sequence of a naturally occurring protein molecule
- amino acid sequence and like terms, such as “polypeptide” or “protein” are not meant to limit the amino acid sequence to the complete, native amino acid sequence associated with the recited protein molecule.
- peptide refers to a polymer of two or more amino acids joined via peptide bonds or modified peptide bonds.
- dipeptides refers to a polymer of two amino acids joined via a peptide or modified peptide bond.
- wild-type refers to a gene or gene product that has the characteristics of that gene or gene product when isolated from a naturally occurring source.
- a wild-type gene is that which is most frequently observed in a population and is thus arbitrarily designed the "normal” or “wild-type” form of the gene.
- modified refers to a gene or gene product that displays modifications in sequence and or functional properties (i. e. , altered characteristics) when compared to the wild-type gene or gene product. It is noted that naturally-occurring mutants can be isolated; these are identified by the fact that they have altered characteristics when compared to the wild-type gene or gene product.
- fragment refers to a polypeptide that has an amino-terminal and/or carboxy-terminal deletion as compared to the native protein, but where the remaining amino acid sequence is identical to the corresponding positions in the amino acid sequence deduced from a full-length cDNA sequence. Fragments typically are at least 4 amino acids long, preferably at least 20 amino acids long, usually at least 50 amino acids long or longer, and span the portion of the polypeptide required for intermolecular binding of the compositions with its various ligands and/or substrates.
- purified or “to purify” refers to the removal of
- antigens are purified by removal of contaminating proteins. The removal of contaminants results in an increase in the percent of antigen (e.g., antigen of the present invention) in the sample.
- variant may be used interchangeably with the term “mutant.” Variants include insertions, substitutions, trans versions, truncations, and/or inversions at one or more locations in the amino acid or nucleotide sequence, respectively.
- variant polypeptide polypeptide
- variant polypeptide polypeptide
- variant enzyme means a polypeptide/protein that has an amino acid sequence that has been modified from the amino acid sequence of native Xcll.
- the variant polypeptides include a polypeptide having a certain percent, e.g., 80%, 85%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98%, or 99%, of sequence identity with Xcll.
- Variant nucleic acids can include sequences that are complementary to sequences that are capable of hybridizing to the nucleotide sequences presented herein.
- the term variant encompasses sequences that are complementary to sequences that are capable of hybridizing under highly stringent conditions, e.g., 65°C and 0.1X SSC, to the nucleotide sequences presented herein.
- the melting point (Tm) of a variant nucleic acid may be about 1 , 2, or 3°C lower than the Tm of the wild-type nucleic acid.
- the variant nucleic acids include a polynucleotide having a certain percent, e.g., 80%, 85%, 90%, 95%, or 99%, of sequence identity with the nucleic acid encoding Xcll or encoding the monomelic protein which can form the homodimeric protein according to invention.
- homodimeric protein refers to a protein comprising two individual identical strands of amino acids, or subunits held together as a single, dimeric protein by either hydrogen bonding, ionic (charged) interactions, actual covalent disulfide bonding, or some combination of these interactions.
- dimerization motif refers to the sequence of amino acids between the antigenic unit and the targeting unit comprising the hinge region and the optional second domain that may contribute to the dimerization.
- This second domain may be an immunoglobulin domain, and optionally the hinge region and the second domain are connected through a linker. Accordingly the dimerization motif serve to connect the antigenic unit and the targeting unit, but also contain the hinge region that facilitates the dimerization of the two monomeric proteins into a homodimeric protein according to the invention.
- targeting unit refers to a unit that delivers the protein with its antigen to a target cell (e.g., cross presenting dendritic cells).
- hinge region refers to a peptide sequence of the homodimeric protein that facilitates the dimerization, such as through the formation of an interchain covalent bond(s), e.g. disulfide bridge(s).
- the hinge region may be Ig derived, such as hinge exons hl+h4 of an Ig, such as IgG3.
- the present invention relates to recombinant fusion proteins targeted to dendritic cells and uses thereof.
- the present invention relates to fusion proteins (vaccibodies) comprising a targeting component, an antigen, a linker region and an antibody component and uses of such homodimeric fusion proteins, or DNA encoding such fusion proteins, to trigger immune responses.
- DCs Dendritic cells exert their functions of immune sentinels in different anatomical places.
- the DCs that reside in the parenchyma of nonlymphoid tissues (NLT) are called interstitial DCs (int-DCs). These DCs shuttle tissue antigens to draining lymph nodes (LNs), where they are called migratory DCs (mig-DCs).
- LNs lymph nodes
- mig-DCs migratory DCs
- DCs make up epidermal Langerhans cells (LCs) and three major subsets of dermal DCs: CDl lbhiCD24 DCs, CDl lb- CD24+CD1032 DCs, and CDl lbCD24+CD103+ DCs (1), hereafter referred to as
- CD1 lb+ DCs, CD103 DCs, and CD103+ DCs (Table I). Although LCs and all dermal DC subsets constitutively migrate from skin to cutaneous LN (CLN), the CD103+ DCs stand out as the most potent subset for presenting keratinocyte-derived Ags to CD8 T cells in the CLN (1). This capacity is reminiscent of the high efficiency of lymphoid tissue (LT)-resident CD8a+ DCs for cross-presentation (1). CD103+ int-DCs are also found in other anatomical places such as lung and gut. The development of CD 103+ int-DCs and LT-resident CD8a+ DCs selectively depends on a common set of transcription factors (2, 3). Hence, these mouse DC populations may belong to a unique category of CD8a+- type DCs (1).
- LT lymphoid tissue
- CD8a+-type DCs exist in human and sheep, where their identification was based on their expression of a unique transcriptional fingerprint shared with mouse spleen CD8a+ DCs (4, 5) and on their efficiency for Ag cross-presentation (5-9).
- chemokine receptor XCR1 is specifically expressed by CD8a+-type DCs in mouse spleen, human blood, and sheep lymph (4-7, 10).
- the function of Xcrl was first unveiled by the group of R. Kroczek (10), who showed that CD8+ T cell cross-priming depends on their ability to secrete the Xcrl ligand XCLl in experimental models where either the OVA coupled to an anti-CD205 Ab or OVA-expressing allogeneic pre-B cells are administrated in vivo.
- Xcrl expression on CD8a+ DCs was also found critical for the optimal induction of CD8+ T cell responses upon Listeria monocytogenes infection (6).
- fusion protein vaccines examples include, e.g., WO 2004/076489,
- Embodiments of the present invention provide a recombinant fusion protein including the Xcll or Xcl2 chemokines that target Xcrl (e.g., vaccibodies).
- the vaccibodies of embodiments of the present invention provide the advantage of enhanced immune responses against the antigen, in particular CD8+ T cell responses.
- APCs antigen presenting cells
- Xcrl is exclusively expressed on cross- presenting DCs which have this ability. While other targeting methods are pursued in order to target antigens to cross-presenting DCs (such as targeting towards DEC205), these receptors are often expressed on other populations of APCs as well. Targeting via Xcll or Xcl2 thus ensures a highly specific targeting approach.
- embodiments, of the present invention provide fusion proteins comprising human or mouse Xcll or Xcl2 fused to an immunoglobulin and/or an
- Xcll and Xcl2 target fusion polypeptides to the receptor Xcrl.
- Xcll is described by Genbank Accession numbers NM_002995 (human nucleic acid) and
- NM_008510 mouse nucleic acid
- Embodiments of the present invention further utilize variants, homologs and mimetics of Xcll (described in more detail below).
- VGTEVLEESSCVNLQTQRLPVQKIKTYirWEGAMRAVIFVTKRGLKICADPEAKWVK AAIKTVDGRASTRKNMAETVPTGAQRSTSTAITLTG (SEQ ID NO:l ; mouse) and VGSEVSDKRTCVSLTTQRLPVSRIKTYTITEGSLRAVIFITKRGLKVCADPQATWVRD VVRSMDRKSNTRNNMIQTKPTGTQQSTNTAVTLTG (SEQ ID NO:2; human).
- the amino acid sequence of human Xcl2 is described by
- the fusion protein comprises Xcll as a targeting unit (Xcl2 may be substituted for Xcll), human IgG3 dimerization domain (hCH3) and an antigenic unit consisting of, but not limited to, an antigen.
- Xcl2 may be substituted for Xcll
- human IgG3 dimerization domain hCH3
- an antigenic unit consisting of, but not limited to, an antigen.
- the dimerization causes the vaccine molecule to be bivalent both in terms of targeting units (Xcll or Xcl2) and antigen.
- the present invention is not limited to a particular mechanism. Indeed, an understanding of the mechanism is not necessary to practice the present invention.
- targeting vaccibodies to Xcrl on cross-presenting DCs induces presentation of viral peptides on MHC- I to CD8 + T-cells.
- the latter once activated, can then kill virally infected cells or other targeted cells presenting the same peptide/MHC complex.
- Xcll/2-targeted vaccibodies performs better as DNA vaccines when tested in comparison with non targeted vaccibodies vaccibodies using influenza virus hemaglutinin (HA) as an antigenic unit.
- HA hemaglutinin
- Xcll/2-targeted vaccibodies induced stronger IgG2a antibody responses, and better protection in mice against a lethal influenza infection (See e.g., Example 1 and Figures 4-6).
- vaccibody constructs which contain Xcll as a targeting unit in combination with the fluorescent protein mCherry as well as the viral antigen hemaglutinin (HA) from influenza virus.
- Xcll-mCherry vaccibodies were evaluated. Binding was analysed on DCs enriched from either lymph nodes or skin. Xcll-mCherry was only observed to bind to the CD8+ residential DCs and the CD 103+ migratory DCs, both of which are known to cross-present antigens on MHC- I ( Figures 2-3).
- Xcll-HA vaccibody to vaccinate mice, and subsequently harvest serum samples to evaluate IgG levels.
- Xcll-HA induced a strong and lasting IgG2a response.
- the ability of Xcll-HA to protect mice from a lethal challenge of influenza virus was evaluated. Mice vaccinated with Xcll-HA were completely protected from the virus after a single vaccination with 25 ⁇ g DNA, and we were able to titrate the amount of DNA used to immunize the mice down to 4.16 ⁇ g and still get full protection. This indicates that Xcll/2-targeting provides a potent method for inducing protective immune responses.
- Fusion protein vaccines may be recombinant Ig-based homodimeric vaccines, each chain being composed of a targeting unit directly attached to Ig hinge and CH3, the combination of which induces covalent homodimerization.
- Fusion proteins comprising Xcll/2 polypeptides, including variants thereof, and different antigenic units are preferably constructed and expressed as functional proteins.
- the present invention relates to the utilization of Xcll/2 and their natural isoforms in fusion vaccines to target antigen delivery to antigen-presenting cells.
- the antigen presenting cell is a cross-presenting dendritic cell or other APC that present Xcrl.
- DNA vaccines encoding a fusion protein that targets antigen delivery to Xcll/2 receptors (Xcrl) on professional antigen-presenting cells (APC).
- targeting vaccibodies to Xcrl on cross-presenting DCs induces presentation of viral peptides on MHC-I to CD8+ T-cells.
- the latter once activated, can then kill virally infected cells presenting the same peptide/MHC complex.
- the recombinant proteins according to the present invention may be human antibodylike molecules useful in vaccines, including cancer vaccines. These molecules, also referred to as vaccibodies, bind APC and trigger both T cell and B cell immune responses. Moreover, it is contemplated that vaccibodies bind divalently to APC to promote a more efficient induction of a strong immune response. Vaccibodies preferably comprise a dimer of a monomelic unit that consists of a targeting unit with specificity for a surface molecule on APC, connected through a dimerization motif, such as a hinge region and a Cy3 domain, to an antigenic unit, the later being in the COOH-terminal or NH2-terminal end.
- the present invention also relates to a DNA sequence coding for this recombinant protein, to expression vectors comprising these DNA sequences, cell lines comprising said expression vectors, to treatment of mammals preferentially by immunization by means of vaccibody DNA, vaccibody RNA, or vaccibody protein, and finally to pharmaceuticals and kits comprising such molecules.
- the dimerization motif in the proteins according to the present invention may be constructed to include a hinge region and an immunoglobulin domain (e.g. Cy3 domain), e.g. carboxyterminal C domain (CH3 domain), or a sequence that is substantially homologous to said C domain.
- the hinge region may be Ig derived and contributes to the dimerization through the formation of an interchain covalent bond(s), e.g. disulfide bridge(s). In addition, it functions as a flexible spacer between the domains allowing the two targeting units to bind simultaneously to two target molecules on APC expressed with variable distances.
- the immunoglobulin domains contribute to homodimerization through noncovalent interactions, e.g. hydrophobic interactions.
- the CH3 domain is derived from IgG.
- dimerization motifs may be exchanged with other multimerization moieties (e.g. from other Ig isotypes/subclasses).
- the dimerization motif is derived from native human proteins, such as human IgG.
- the dimerization motif may have any orientation with respect to antigenic unit and targeting unit.
- the antigenic unit is in the COOH- terminal end of the dimerization motif with the targeting unit in the N-terminal end of the dimerization motif.
- the antigenic unit is in the N-terminal end of the dimerization motif with the targeting unit in the COOH-terminal end of the dimerization motif.
- the proteins according to the present invention may be suitable for induction of an immune response against any polypeptide of any origin.
- Any antigenic sequence of sufficient length that include a specific epitope may be used as the antigenic unit in the proteins according to the invention.
- the antigenic unit comprises an amino acid sequence of at least 9 amino acids corresponding to at least about 27 nucleotides in a nucleic acids sequence encoding such antigenic unit.
- Such an antigenic sequence may be derived from cancer proteins or infectious agents. Examples of such cancer sequences are telomerase, more specifically hTERT, tyrosinase, TRP-1/ TRP-2 melanoma antigen, prostate specific antigen and idiotypes.
- the infectious agents can be of bacterial, e.g.
- tuberculosis antigens and OMP31 from brucellosis, or viral origin more specifically HIV derived sequences like e.g. gpl20 derived sequences, glycoprotein D from HSV-2, and influenza virus antigens like hemagglutinin, nuceloprotein and M2. Insertion of such sequences in a vaccibody format might also lead to activation of both arms of the immune response.
- the antigenic unit may be antibodies or fragments thereof, such as the C -terminal scFv derived from the monoclonal Ig produced by myeloma or lymphoma cells, also called the
- vaccibody protein, vaccibody DNA, or vaccibody RNA or the present invention may be utilized for immunization of a subject, for example, by intramuscular or intradermal injection with or without a following electroporation.
- the targeting unit of the proteins according to the invention targets the protein to APC through binding to chemokine receptors.
- the chemokine receptor is Xcrl .
- the various units of fusion proteins according to the present invention may be operably linked via standard molecular biology methods, and the DNA transfected into a suitable host cell, such as NSO cells, 293E cells, CHO cells or COS-7 cells.
- a suitable host cell such as NSO cells, 293E cells, CHO cells or COS-7 cells.
- the transfectants produce and secrete the recombinant proteins.
- the present invention further relates to a pharmaceutical comprising the above described recombinant based proteins, DNA/RNA sequences, or expression vectors according to the invention.
- this pharmaceutical additionally comprises a
- Suitable carriers are, for example, phosphate-buffered common salt solutions, water, emulsions, e.g. oil/water emulsions, wetting agents, sterile solutions etc.
- the pharmaceuticals may be administered orally or parenterally.
- the methods of parenteral administration comprise the topical, intra-arterial, intramuscular, subcutaneous, intramedullary, intrathekal, intraventricular, intravenous, intraperitoneal or intranasal administration.
- the suitable dose is determined by the attending physician and depends on different factors, e.g. the patient's age, sex and weight, the kind of administration etc.
- the present invention relates to a vaccine composition against cancer or infectious diseases comprising an immunologically effective amount of the nucleic acid encoding the molecule of the invention or degenerate variants thereof, wherein said composition is able to trigger both a T-cell- and B-cell immune response.
- the present invention also relates to a kit comprising vaccibody DNA, RNA, or protein for diagnostic, medical or scientific purposes.
- the invention further relates to a method of preparing the recombinant molecule of the invention comprising, transfecting the vector comprising the molecule of the invention into a cell population; culturing the cell population; collecting recombinant protein expressed from the cell population; and purifying the expressed protein.
- the above described nucleotide sequences may preferably be inserted into a vector suited for gene therapy, e.g. under the control of a specific promoter, and introduced into the cells.
- the vector comprising said DNA sequence is a virus, for example, an adenovirus, vaccinia virus or an adeno-associated virus.
- Retroviruses are particularly preferred. Examples of suitable retroviruses are e.g. MoMuLV or HaMuSV.
- the DNA/RNA sequences according to the invention can also be transported to the target cells in the form of colloidal dispersions. They comprise e.g.
- liposomes or lipoplexes are liposomes or lipoplexes.
- the present invention also encompasses the use of polypeptides or domains or motifs within the polypeptides having a degree of sequence identity or sequence homology with amino acid sequence(s) defined herein or with a polypeptide having the specific properties defined herein.
- the present invention encompasses, in particular, peptides having a degree of sequence identity with Xcll/2, or homologs thereof.
- the term "homolog” means an entity having sequence identity with the subject amino acid sequences or the subject nucleotide sequences, where the subject amino acid sequence preferably is the amino acid sequence of Xcll/2.
- the homologous amino acid sequence and/or nucleotide sequence should provide and/or encode a polypeptide which retains the functional activity and/or enhances the activity of a Xcll/2 polypeptide.
- a homologous sequence is taken to include an amino acid sequence which may be at least 80%, at least 85%, at least 90%, at least 95%, at least 96%, at least 97%, at least 98% or at least 99%, identical to the subject sequence.
- the homologs will comprise the same active sites and other functional sequences as the subject amino acid sequence.
- homology can also be considered in terms of similarity (e.g., amino acid residues having similar chemical properties/functions), in the context of the present invention it is preferred to express homology in terms of sequence identity.
- Sequence identity comparisons can be conducted by eye, or more usually, with the aid of readily available sequence comparison programs. These commercially available computer programs use complex comparison algorithms to align two or more sequences that best reflect the evolutionary events that might have led to the difference(s) between the two or more sequences. Therefore, these algorithms operate with a scoring system rewarding alignment of identical or similar amino acids and penalizing the insertion of gaps, gap extensions and alignment of non-similar amino acids.
- the scoring system of the comparison algorithms include:
- the scores given for alignment of non-identical amino acids are assigned according to a scoring matrix also called a substitution matrix.
- the scores provided in such substitution matrices are reflecting the fact that the likelihood of one amino acid being substituted with another during evolution varies and depends on the physical/chemical nature of the amino acid to be substituted. For example, the likelihood of a polar amino acid being substituted with another polar amino acid is higher compared to being substituted with a hydrophobic amino acid. Therefore, the scoring matrix will assign the highest score for identical amino acids, lower score for non-identical but similar amino acids and even lower score for non- identical non-similar amino acids.
- the most frequently used scoring matrices are the PAM matrices (Dayhoff et al. (1978), Jones et al. (1992)), the BLOSUM matrices (Henikoff and Henikoff (1992)) and the Gonnet matrix (Gonnet et al. (1992)).
- Suitable computer programs for carrying out such an alignment include, but are not limited to, Vector NTI (Invitrogen Corp.) and the ClustalV, ClustalW and ClustalW2 programs (Higgins DG & Sharp PM (1988), Higgins et al. (1992), Thompson et al. (1994), Larkin et al. (2007).
- a selection of different alignment tools is available from the ExPASy Proteomics server.
- Another example of software that can perform sequence alignment is BLAST (Basic Local Alignment Search Tool), which is available from the webpage of National Center for Biotechnology Information (Altschul et al. (1990) J. Mol. Biol. 215; 403- 410).
- the software Once the software has produced an alignment, it is possible to calculate % similarity and % sequence identity. The software typically does this as part of the sequence comparison and generates a numerical result.
- ClustalW software for performing sequence alignments.
- alignment with ClustalW is performed with the following parameters for pairwise alignment:
- ClustalW2 is for example made available on the internet by the European Bioinformatics Institute at the EMBL-EBI webpage under tools - sequence analysis - ClustalW2.
- Exp 10 has been may be used with default settings:
- Gap extension penalty 0.05
- the present invention also encompasses the use of variants, homologues and derivatives of any amino acid sequence of a protein, polypeptide, motif or domain as defined herein, particularly those of Xcll/2.
- sequences may also have deletions, insertions or substitutions of amino acid residues which produce a silent change and result in a functionally equivalent substance.
- Deliberate amino acid substitutions may be made on the basis of similarity in polarity, charge, solubility, hydrophobicity, hydrophilicity, and/or the amphipathic nature of the residues as long as the secondary binding activity of the substance is retained.
- negatively charged amino acids include aspartic acid and glutamic acid; positively charged amino acids include lysine and arginine; and amino acids with uncharged polar head groups having similar hydrophilicity values include leucine, isoleucine, valine, glycine, alanine, asparagine, glutamine, serine, threonine, phenylalanine, and tyrosine.
- the present invention also encompasses conservative substitution (substitution and replacement are both used herein to mean the interchange of an existing amino acid residue, with an alternative residue) that may occur, e.g. like-for-like substitution such as basic for basic, acidic for acidic, polar for polar etc.
- Non-conservative substitution may also occur i.e. from one class of residue to another or alternatively involving the inclusion of unnatural amino acids such as ornithine (hereinafter referred to as Z), diaminobutyric acid ornithine (hereinafter referred to as B), norleucine ornithine (hereinafter referred to as O),
- Conservative substitutions that may be made are, for example within the groups of basic amino acids (Arginine, Lysine and Histidine), acidic amino acids (glutamic acid and aspartic acid), aliphatic amino acids (Alanine, Valine, Leucine, Isoleucine), polar amino acids (Glutamine, Asparagine, Serine, Threonine), aromatic amino acids (Phenylalanine,
- Tryptophan and Tyrosine Tryptophan and Tyrosine
- hydroxyl amino acids Serine, Threonine
- large amino acids Phenylalanine and Tryptophan
- small amino acids Glycine, Alanine
- Replacements may also be made by unnatural amino acids include; alpha* and alpha- disubstituted* amino acids, N-alkyl amino acids*, lactic acid*, halide derivatives of natural amino acids such as trifluorotyrosine*, p-Cl-phenylalanine*, p-Br-phenylalanine*, p-I- phenylalanine*, L-allyl-glycine*, ⁇ -alanine*, L-ot-amino butyric acid*, L-y-amino butyric acid*, L-ot-amino isobutyric acid*, L-e-amino caproic acid*, 7-amino heptanoic acid*, L- methionine sulfone* * , L-norleucine*, L-norvaline*, p-nitro-L-phenylalanine*, L- hydroxyproline*, L-thioproline*,
- Variant amino acid sequences may include suitable spacer groups that may be inserted between any two amino acid residues of the sequence including alkyl groups such as methyl, ethyl or propyl groups in addition to amino acid spacers such as glycine or ⁇ -alanine residues.
- alkyl groups such as methyl, ethyl or propyl groups in addition to amino acid spacers such as glycine or ⁇ -alanine residues.
- the peptoid form is used to refer to variant amino acid residues wherein the ot-carbon substituent group is on the residue's nitrogen atom rather than the ot-carbon.
- Processes for preparing peptides in the peptoid form are known in the art, for example Simon RJ et al. (1992), Horwell DC. (1995).
- the variant targeting unit used in the homodimeric protein according to the present invention is variant having the sequence of Xcll/2 and having at least at least 65%, at least 70%, at least 75%, at least 78%, at least 80%, at least 85%, at least 90%, at least 95%, at least 96%, at least 97%, at least 98% or at least 99% amino acid sequence identity therewith.
- the protein or sequence used in the present invention is in a purified form.
- a “variant” or “variants” refers to proteins, polypeptides, units, motifs, domains or nucleic acids.
- HEK293E cells were used for expression of HA-vaccibodies, and for transfecting Xcrl-eGFP.
- Antibodies towards Xcll was obtained from Lifespan Biosciences (C-16241), while antibodies a-HA (H-36-4-52), a-human IgG3 (HP-6017) and a-mCherry were purified in the lab.
- serum immunoglobulin ELISA a-mouse IgGl-bio (BD Pharmingen, clone 10.9), a-mouse IgG2a-bio (BD Pharmingen, clone 8.3), a-mouse IgG2b-bio (BD
- Influenza virus strain A/PR/8/34(HlNl) was obtained from the Norwegian Institute of Public Health.
- Stable transfectants were generated by electropporating 2xl0 7 NSO cells in PBS with 40 ⁇ g of Xcll-mCherry or Xcll(Cl 1 A)-mcherry DNA. The cells were transferred to fresh RPMI medium and left to recover in a T-25 flask at 37 °C for 24 hours without selection. Next day, G418 was added to a final concentration of 800 ⁇ g/ml and cells seeded in 96-well plates at a density of 5xl0 4 cells pr well. Colonies of stably transfected cells appeared after 2- 3 weeks.
- Stable transfectants were subsequently expanded in rollerbottles, and supernatant collected after 5 days and applied on an a-mCherry column connected to an Aktaprime Plus (GE Healthcare). Bound vaccibodies were washed with PBS, eluted in 0.1 M Glycin-HCl pH 10.5, and immediately dialyzed against PBS.
- 96-well ELISA plates (Costar) were coated with 2 ⁇ g/ml of inactivated PR8 influenza virus (Supplier), and incubated ON at 4°C. The plates were then incubated with 150 ⁇ /well blocking buffer (1% (w/v) BSA in PBS with 0.02% (w/v) NaAzide) for lh at RT. After washing the plates, serum samples were diluted 1:50, and subsequently serial diluted 1:3, in ELISA buffer (0.1% (w/v) BSA in PBS with 0.02% (w/v) NaAzide). ELISA plates were incubated with serum samples overnight at 4°C.
- 150 ⁇ /well blocking buffer 1% (w/v) BSA in PBS with 0.02% (w/v) NaAzide
- XcrltmlDgen mice (Xcrl-bGal) (6, 10) generated by Deltagen were bred in Centre d'Immunologie Mé-Luminy animal care facilities. C57BL/6J Q:8 mice were purchased from Charles River Laboratories (France). Studies were performed in accordance with institutional regulations governing animal care and use.
- XCRl expression defines CD8a+-type DCs in visceral organs and their draining LNs
- XCRl expression remained highest in the CD 103+ subset (Fig. 2H).
- the CD103+ int-DCs in the intestine and the CD103+ mig-DCs in MedLN showed substantial levels of bGal activity in wild-type mice.
- a clear increase over that background signal could be detected in the corresponding subsets isolated from XCRl-bGal mice.
- XCRl expression remained confined to the CD8a+ subset (Fig. 21).
- vaccibodies that target Xcrl expressing DCs we replaced the endogenous signaling peptide of Xcll by that of human IgG3, which was originally included in the vaccibody genetic construct.
- mCherry which can be detected by its intrinsic ability to fluoresce, as well as via specific antibodies generated in our lab ( Figure 3a).
- Xcll-mCherry we generated a mutated version of Xcll where the Cysl 1 was mutated to an alanine CI lA-mCherry).
- mice were immunized with 25 ⁇ g of DNA encoding the Xcll -HA vaccibody.
- additional controls we included one group of mice immunized with a plasmid expressing PR8 HA alone, and one group immunized with 0.9 % NaCl, one group immunized with NIP-HA (scFv specific for the hapten NIP), in addition to C11A-HA.
- Serum samples were collected 14 days post immunization and initially analyzed for HA specific serum IgG (Figure 4a). The strongest induction of IgG was observed in mice immunized with Xcll-HA.
- mice were immunized with 25 ⁇ g of DNA and challenge with 5x lethal dose of Influenza A/PR 8/34(HlNl) 14 days post immunization. Weight loss was monitored as a sign of disease progression. Mice vaccinated with Xcll-HA initially lost some weight, but recovered after day 4 post challenge ( Figure 6a). Mice vaccinated with HA alone did not induce a protective response and continued to lose weight until the experiment was terminated on day 7.
- mice immunized with Xcll-HA initially lost weight, but all but 1 of 5 mice started recovering from the infection after day 6.
- mice immunized with NaCl continued to lose weight and by day 9 4/6 mice had to be euthanized.
- Mice immunized with the mutated CI 1 A-HA generally lost more weight, but also started to recover after day 6 post infection.
- Vaccibodies were produced as described above, except that Xcl2 was substituted for Xcll as the targeting unit.
- HEK293E cells were transiently transfected with plasmids encoding murine Xcll-HA (mXcll), human Xcll-HA (hXcll) or human Xcl2-HA (hXcl2) vaccibodies.
- Supernatants were harvested after 48h and analyzed for secretion of vaccibodies by ELISA. All three vaccibodies were efficiently expressed and secreted, with hXcll and hXcl2 giving better expression than mXcll.
- the results are presented in Figure 8.
- Balb/c mice were immunized with 25 ⁇ g of DNA encoding mXcll, hXcll or hXcl2-HA vaccibodies.
- FIG. 10(a) shows weight loss monitored for 7 days and used as an indication of disease progression. Mice vaccinated with NaCl or HA alone succumbed to the viral infection while mice vaccinated with mXcll, hXcll or hXcl2 survived the challenge.
- Figure 10(b) shows weight loss for all mice on day 7 after infection.
- the XC chemokine receptor 1 is a conserved selective marker of mammalian cells homologous
- CD141+(BDCA-3)+ dendritic cells represent a unique myeloid DC subset that cross-presents necrotic cell antigens. J. Exp. Med. 207: 1247-1260.
- lymph nodes contain dermis-derived CD 103- dendritic cells that constitutively
- CD207+CD103+ dermal dendritic cells cross-present keratinocyte-derived antigens irrespective of the presence of Langerhans cells. J. Exp. Med. 207: 189-206.
- Nectinlike protein 2 defines a subset of T-cell zone dendritic cells and is a ligand for class-Irestricted T-cell-associated molecule. J. Biol. Chem. 280: 21955-21964.
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US14/346,182 US20140234316A1 (en) | 2011-09-23 | 2012-09-24 | Vaccibodies targeted to cross-presenting dendritic cells |
CA2849374A CA2849374A1 (en) | 2011-09-23 | 2012-09-24 | Vaccibodies targeted to cross-presenting dendritic cells |
KR1020147010742A KR20140069222A (en) | 2011-09-23 | 2012-09-24 | Vaccibodies targeted to cross-presenting dendritic cells |
JP2014531332A JP2014534807A (en) | 2011-09-23 | 2012-09-24 | Vaccibody targeting dendritic cells for cross-presentation |
AU2012311238A AU2012311238A1 (en) | 2011-09-23 | 2012-09-24 | Vaccibodies targeted to cross-presenting dendritic cells |
EP12795848.6A EP2758072A1 (en) | 2011-09-23 | 2012-09-24 | Vaccibodies targeted to cross-presenting dendritic cells |
BR112014006887A BR112014006887A2 (en) | 2011-09-23 | 2012-09-24 | Vaccine Bodies Targeting Cross-Presented Dendritic Cells |
CN201280057434.4A CN104136039A (en) | 2011-09-23 | 2012-09-24 | Vaccibodies targeted to cross-presenting dendritic cells |
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JP2017504655A (en) * | 2013-12-06 | 2017-02-09 | シャンハイ・ユナイテッド・セル・バイオテクノロジー・カンパニー・リミテッド | Antigen chimera, antigen combination, vaccine, method for preparing them, and kits thereof |
WO2019048936A1 (en) * | 2017-09-07 | 2019-03-14 | University Of Oslo | Vaccine molecules |
IT201900016736A1 (en) | 2019-09-19 | 2021-03-19 | Takis S R L | Fused antigens to the Toxoplasma Gondii Profilin-like protein (PFTG) and their use in preventive and therapeutic vaccination. |
WO2022013277A1 (en) * | 2020-07-14 | 2022-01-20 | Evaxion Biotech A/S | Apc targeting units for immunotherapy |
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MY199248A (en) * | 2015-12-04 | 2023-10-23 | Dana Farber Cancer Inst Inc | Vaccination with mica/b alpha 3 domain for the treatment of cancer |
US11186618B2 (en) * | 2016-09-21 | 2021-11-30 | The Research Foundation For Microbial Diseases Of Osaka University | Dendritic-cell-targeted peptide, fusion peptide utilizing said peptide, and vaccine utilizing said fusion peptide |
WO2020136060A1 (en) * | 2018-12-28 | 2020-07-02 | F. Hoffmann-La Roche Ag | A peptide-mhc-i-antibody fusion protein for therapeutic use in a patient with amplified immune response |
WO2023070317A1 (en) * | 2021-10-26 | 2023-05-04 | 江苏省农业科学院 | Bifunctional nanobody based on dc, and construction method therefor and use thereof |
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JP2017504655A (en) * | 2013-12-06 | 2017-02-09 | シャンハイ・ユナイテッド・セル・バイオテクノロジー・カンパニー・リミテッド | Antigen chimera, antigen combination, vaccine, method for preparing them, and kits thereof |
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IT201900016736A1 (en) | 2019-09-19 | 2021-03-19 | Takis S R L | Fused antigens to the Toxoplasma Gondii Profilin-like protein (PFTG) and their use in preventive and therapeutic vaccination. |
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