Abstract: The present invention relates to cancer therapies using an antibody that binds to mortalin 2 and a functional nucleic acid. Mortalin expression was found to be upregulated in immortalized cells and tumor tissues. Immortalized human cells highly expressing mortalin showed anchorage-independent growth. When the K antibody, which is a specific anti-mortalin antibody, was injected into a tumor of a nude mouse, tumor growth was suppressed or the tumor shrank compared with the case of a control. In accordance with the present invention, the use of a specific anti-mortalin antibody (K antibody) for tumor therapies and the use of such antibody as a carrier molecule for transportation of immunotoxicin and the like into cells are provided. It has been shown that mortalin can be a target for cancer therapies. In accordance with the present invention, a novel and effective anticancer agent is provided. In addition, an anti-mortalin antibody that is internalized by cells is developed.

Abstract: A medicament for treating cancer for use in combination therapy with an anti-HER2 antibody, which comprises amrubicin or a pharmaceutically acceptable salt thereof as an active ingredient.

Abstract: Disclosed are immunoassay methods for the diagnosis/prognosis of diseases and disease susceptibility traits associated with gene mutations that cause protein truncation or allelic loss. The levels of one or more targeted wild-type proteins expressed by a subject gene or genes are immunologically quantitated in biological samples. Results indicating that a targeted wild-type protein is not present in an assayed sample, or that approximately 50% of the normal amount of such a wild-type protein is present in an assayed sample are considered to be positive for a mutation in one or both alleles of a subject gene, and correlated with the disease or the disease susceptibility trait associated with that mutation or mutations. Normal cells, particularly normal peripheral blood lymphocytes, are preferred biological samples.

Abstract: The present application describes humanized anti-ErbB2 antibodies and methods for treating cancer with anti-ErbB2 antibodies, such as humanized anti-ErbB2 antibodies.

Abstract: A novel prostate tumor associated gene (designated 24P4C12) and its encoded protein is described. 24P4C12 is highly expressed in prostate tissue xenografts, providing evidence that it is turned on in at least some prostate cancers. 24P4C12 provides a diagnostic and/or therapeutic target for prostate and other cancers.

Abstract: The present invention concerns the treatment of disorders characterized by the overexpression of ErbB2. More specifically, the invention concerns the treatment of human patients susceptible to or diagnosed with cancer overexpressing ErbB2 with a combination of an anti-ErbB2 antibody and a chemotherapeutic agent other than an anthracycline, e.g. doxorubicin or epirubicin.

Abstract: The subject invention discloses a method for determining the prognosis and probable clinical course of a subject diagnosed with B-CLL. Specifically, the invention involves comparing CD38 expression in a biological sample from the subject containing B-CLL cells to a baseline level of CD38 expression, wherein an elevated level of CD38 expression in relation to the baseline level of CD38 expression may indicate poor prognosis or aggressive course of disease in the subject. Also disclosed is a method for determining whether the Ig V genes of the B-CLL cells of a B-CLL patient are mutated, comprising comparing CD38 expression in a biological sample from the subject containing B-CLL cells to a baseline level of CD38 expression, wherein a lower level of CD38 expression in relation to the baseline level indicates IG V gene mutation.

Abstract: The invention provides methods for detecting and inhibiting angiogenesis, endothelial cell adhesion, and endothelial cell migration using agents which inhibit the specific binding of integrin ?4?1 to one or more of its ligands. The invention further provides methods for screening test compounds for their ability to inhibit angiogenesis, endothelial cell adhesion, or endothelial cell migration by employing agents which inhibit the specific binding of integrin ?4?1 to one or more of its ligands. The invention additionally relates to methods for isolating endothelial progenitor cells which express integrin ?4?1. The methods of the invention are useful in, for example, diagnosing and inhibiting pathological conditions that are associated with angiogenesis, endothelial cell adhesion, and/or endothelial cell migration.

Abstract: This invention provides methods of treating and vaccinating against an antigen-expressing tumor and inducing an immune response against a sub-dominant epitope of antigen, comprising a fusion of an LLO fragment to the antigen or a recombinant Listeria strain expressing the antigen. The present invention also provides recombinant peptides comprising a listeriolysin (LLO) protein fragment fused to a Her-2 protein or fragment thereof, recombinant Listeria strains expressing a Her-2 protein, vaccines and immunogenic compositions comprising same, and methods of inducing an anti-Her-2 immune response and treating and vaccinating against a Her-2-expressing tumor, comprising same.

Abstract: The present invention relates to novel sequences for use in diagnosis and treatment of carcinomas, especially lymphoma carcinomas. In addition, the present invention describes the use of novel compositions for use in screening methods.

Abstract: The present invention includes compositions, methods and kits for inducing an immune response to a tumor and for treating cancer with a Listeria vaccine strain expressing an antigen fused to a truncated LLO protein.

Abstract: This invention provides methods for determining or predicting response to cancer therapy in an individual.

Abstract: The invention relates to methods and compositions for causing the selective targeting and killing of tumor cells. Through ex vivo gene therapy protocols tumor cells are engineered to express an ? (1,3) galactosyl epitope. The cells are then irradiated or otherwise killed and administered to a patient. The ? galactosyl epitope causes opsonization of the tumor cell enhancing uptake of the opsonized tumor cell by antigen presenting cells which results in enhanced tumor specific antigen presentation. The animal's immune system thus is stimulated to produce tumor specific cytotoxic cells and antibodies which will attack and kill tumor cells present in the animal.

Abstract: Among the genes identified, in a comparison of the global gene expression profile of metastatic colorectal cancer to that of primary cancers, benign colorectal tumors, and normal colorectal epithelium, the PRL-3 protein tyrosine phosphatase gene was of particular interest. It was expressed at high levels in each of 18 cancer metastases studied but at lower levels in non-metastatic tumors and normal colorectal epithelium. In three of twelve metastases examined, multiple copies of the PRL-3 gene were found within a small amplicon located at chromosome 8q24.3. These data suggest that the PRL-3 gene is important for colorectal cancer metastasis and provides a new therapeutic target for these intractable lesions.

Abstract: The present invention provides the TWEAK receptor and methods for identifying and using agonists and antagonists of the TWEAK receptor. In particular, the invention provides methods of screening for agonists and antagonists and for treating diseases or conditions mediated by angiogenesis, such as solid tumors and vascular deficiencies of cardiac or peripheral tissue.

Abstract: The invention is related to a method of predicting the response to a treatment with a HER inhibitor in a patient comprising the steps of assessing a biomarker or a combination of biomarkers selected from the group consisting of amphiregulin, an epidermal growth factor, a transforming growth factor alpha, and a HER2 biomarker in a biological sample from the patient and predicting the response to the treatment with the HER inhibitor in the patient by evaluating the results of the first step. Further uses and methods wherein these markers are used are disclosed.

Abstract: DNAs are provided, whose genes are induced at least by Wnt-1. Also provided are nucleic acid molecules encoding those polypeptides, as well as vectors and host cells comprising those nucleic acid sequences, chimeric polypeptide molecules comprising the polypeptides fused to heterologous polypeptide sequences, antibodies which bind to the polypeptides, and methods for producing the polypeptides.

Abstract: The present invention relates to a method of screening a compound for potential effectiveness in treating or preventing a mammalian disease mediated by plasma cells or a mammalian disease caused by virus infection of mammalian cells. Compounds are tested for their ability to inhibit IRE1-mediated processing of untranslatable XBP-1 mRNA into translatable XBP-1 mRNA. Drugs that are useful in treating or preventing a mammalian disease mediated by plasma cells and a method for detecting XBP-1 activity in living cells are also described.

Abstract: Methods for the detection, monitoring and treatment of malignancies in which the HER-2/neu oncogene is associated are disclosed. Detection of specific T cell activation (e.g., by measuring the proliferation of T cells) in response to in vitro exposure to the HER-2/neu protein, or detection of immunocomplexes formed between the HER-2/neu protein and antibodies in body fluid, allows the diagnosis of the presence of a malignancy in which the HER-2/neu oncogene is associated. The present invention also discloses methods and compositions, including peptides, for treating such malignancies.

Abstract: Antibodies that bind with a B-cell antigen provide an effective means to treat autoimmune disorders. Antibodies and fragments, which may be conjugated or naked, are used alone or in multimodal therapies. The antibodies may be bispecific antibodies which may be produced recombinantly as fusion proteins, or as hybrid, polyspecific antibodies.