Abstract: The present invention provides an engineered multidomain protein including at least two nonidentical engineered domains, each of which contains a protein-protein interaction interface containing amino acid sequence segments derived from two or more existing homologous parent domains, thereby conferring on the engineered domains assembly specificities distinct from assembly specificities of the parent domains. In particular, the engineered domains form heterodimers with one another preferentially over forming homodimers. Methods of designing and using the engineered proteins are also included.

Abstract: A humanised agonistic antibody which binds human PD-1 comprising a heavy chain and a light chain wherein the variable domain of the heavy chain comprises the sequence given in SEQ ID NO:1 for CDR-H1, the sequence given in SEQ ID NO:2 for CDR-H2 and the sequence given in SEQ ID NO:3 for CDR-H3 and the variable domain of the light chain comprises the sequence given in SEQ ID NO:4 for CDR-L1, the sequence given in SEQ ID NO:5 for CDR-L2 and the sequence given in SEQ ID NO:7 for CDR-L3. The invention also extends to therapeutic uses of the antibody molecules, compositions and methods for producing said antibody molecules.

Abstract: The present invention relates to a Robo1-Fc recombinant protein and to the use thereof for treating diseases in which a Slit protein is overexpressed, in particular cancer. The invention also relates to a composition including such a recombinant protein. Another aspect of the invention involves using a Robo1-Fc molecule as a diagnostic tool for detecting the overexpression of a molecule belonging to the Slit family in a patient.

Abstract: The present application describes engineered antibodies, with three or more functional antigen binding sites, and uses, such as therapeutic applications, for such engineered antibodies.

Abstract: Molecules and compositions that can be used in the treatment of gynecologic cancers are described. ApoA-1, in particular, is demonstrated to inhibit the proliferation of cancer cells reduce tumor size in a mouse model of ovarian cancer.

Abstract: The present disclosure is directed to methods of treating pancreatic cancer in subject using cancer with antibodies that specifically bind to progastrin.

Abstract: Proteins that bind IL-17 and/or IL-17F are described along with their use in composition and methods for treating, preventing, and diagnosing IL-17 related diseases and for detecting IL-17 in cells, tissues, samples, and compositions.

Abstract: Proteins that bind IL-17 and/or IL-17F are described along with their use in compositions and methods for treating, preventing, and diagnosing IL-17 related diseases and for detecting IL-17 in cells, tissues, samples, and compositions.

Abstract: The present invention relates to a recombinant antibody composition having higher complement-dependent cytotoxic activity than a human IgG1 antibody and a human IgG3 antibody, wherein a polypeptide comprising a CH2 domain in the Fc region of a human IgG1 antibody is replaced by a polypeptide comprising an amino acid sequence which corresponds to the same position of a human IgG3 antibody indicated by the EU index as in Kabat, et al.; a DNA encoding the antibody molecule or a heavy chain constant region of the antibody molecule contained in the recombinant antibody composition; a transformant obtainable by introducing the recombinant vector into a host cell; a process for producing the recombinant antibody composition using the transformant; and a medicament comprising the recombinant antibody composition as an active ingredient.

Abstract: The present disclosure relates to antibodies targeting LRP6 and compositions and methods of use thereof.

Abstract: Disclosed are human antibodies that specifically inhibit VEGF binding to only one (VEGFR2) of the two primary VEGF receptors. The antibodies effectively inhibit angiogenesis and induce tumor regression, and yet have improved safety due to their specificity. The present invention thus provides new human antibody-based compositions, methods and combined protocols for treating cancer and other angiogenic diseases. Advantageous immunoconjugate compositions and methods using the new VEGF-specific human antibodies are also provided.

Abstract: Antibodies and antigen-binding fragments of antibodies that bind OV064 are disclosed. The antibodies bind an extracellular domain of OV064. Some of the antibodies and antigen-binding fragments bind an epitope on OV064 sufficient to induce internalization. In some embodiments, the antibodies are humanized, chimeric or human. Nucleic acids and vectors encoding the antibodies or portions thereof, recombinant cells that contain the nucleic acids, and compositions comprising the antibodies or antigen-binding fragments are also disclosed. The invention also provides therapeutic and diagnostic methods utilizing the antibodies and antigen-binding fragments provided herein.

Abstract: The present invention provides glycan-interacting antibodies useful in the treatment and prevention of human disease, including cancer. Such glycan-interacting antibodies include monoclonal antibodies, derivatives and fragments thereof as well as compositions and kits comprising them.

Abstract: The present invention relates to an antibody acceptor framework and to methods for grafting non-human antibodies, e.g., rabbit antibodies, using a particularly well suited antibody acceptor framework. Antibodies generated by the methods of the invention are useful in a variety of diagnostic and therapeutic applications.

Abstract: The present invention relates to an antibody acceptor framework and to methods for grafting non-human antibodies, e.g., rabbit antibodies, using a particularly well suited antibody acceptor framework. Antibodies generated by the methods of the invention are useful in a variety of diagnostic and therapeutic applications.

Abstract: The present invention provides methods of specifically targeting compounds to cells overexpressing matrix metalloproteinases, plasminogen activators, or plasminogen activator receptors, by administering a compound and a mutant protective antigen protein comprising a matrix metalloproteinase or a plasminogen activator-recognized cleavage site in place of the native protective antigen furin-recognized cleavage site, wherein the mutant protective antigen is cleaved by a matrix metalloproteinase or a plasminogen activator overexpressed by the cell, thereby translocating into the cell a compound comprising a lethal factor polypeptide comprising a protective antigen binding site.

Abstract: The concurrent administration of chemotherapy and immunotherapy has been considered a contraindication because of the concern that the induced lymphopenia would ablate therapeutic efficacy of immunotherapy. Temozolomide has been shown to be an effective chemotherapeutic for patients with malignant gliomas and to deprive patients with glioblastoma (GBM) patients of this agent in order to treat with immunotherapy is controversial. Despite conventional dogma, we demonstrate that both chemotherapy and immunotherapy can be delivered concurrently without negating the effects of immunotherapy, hi fact, the temozolomide induced lymphopenia may actually be synergistic with a peptide vaccine.

Abstract: POTE has recently been identified as a tumor antigen expressed in a variety of human cancers, including colon, ovarian, breast, prostate, lung and pancreatic cancer. Described herein are immunogenic POTE polypeptides, including modified POTE polypeptides, that bind MHC class I molecules. The immunogenic POTE polypeptides are capable of inducing an immune response against POTE-expressing tumor cells. Thus, provided herein is a method of eliciting an immune response in a subject, such as a subject having a type of cancer that expresses POTE.

Abstract: Described herein is the identification of human monoclonal antibodies that bind GPC3 or heparan sulfate (HS) chains on GPC3 with high affinity. The antibodies described herein are capable of inhibiting HCC cell growth and migration. Provided are human monoclonal antibodies specific for GPC3 or HS chains on GPC3, including immunoglobulin molecules, such as IgG antibodies, as well as antibody fragments, such as single-domain VH antibodies or single chain variable fragments (scFv). Further provided are compositions including the antibodies that bind GPC3 or HS chains on GPC3, nucleic acid molecules encoding these antibodies, expression vectors comprising the nucleic acids, and isolated host cells that express the nucleic acids. Methods of treating cancer and/or inhibiting tumor growth or metastasis are also provided. Further provided are methods of detecting cancer in a subject and confirming a diagnosis of cancer in a subject.

Abstract: Uses of depolymerized hyaluronan (e.g., prepared by sonicating high molecular weight hyaluronan such as naturally-occurring hyaluronan) or anti-Hyal-2 antibody in cancer treatment. Also described herein are methods for preparing depolymerized and crosslinked hyaluronan by sonication and the hyaluronan composition thus obtained.