Abstract: Disclosed are methods of diagnosing a subject as having a solid tumor or a predisposition to developing a solid tumor. The methods include detecting or quantitating the amount of sCD27 in a serum sample obtained from a subject and comparing that amount of sCD27 with a control value indicative of the basal level of sCD27 present in the serum of a subject that does not have a solid tumor or a predisposition to developing a solid tumor, wherein a reduction of the amount of sCD27 relative to the control value indicates that the subject has the solid tumor or the predisposition to developing the solid tumor. The disclosed methods can be used to monitoring disease progression in a subject or determine a subject's suitability for immunotherapy. Also disclosed are methods of stimulating a subject's immune system by administering a therapeutically effective amount of sCD27 or a functional fragment.

Abstract: Mutant ras oncogene peptides may induce specific anti-ras cellular immune responses in vaccinated patients. Moreover, a human CD8+ CTL epitope(s) reflecting a specific point mutation in the K-ras oncogene at codon 12 was identified. The mutant ras peptide has implications for both active and passive immunotherapies in selected carcinoma patients. A nested 10-mer peptide was identified [i.e., ras5-14(Asp12)], which was shown to bind to HLA-A2 and display specific functional capacity for expansion of the in vivo-primed CD8+ CTL precursors.

Abstract: The invention provides a peptide comprising a human cytolytic T lymphocyte (CTL) epitope from the human tumor-associated antigen (TAA) New Gene Expressed in Prostate (NGEP), which can be used in vaccine prevention or therapy of prostate cancer, as well as a nucleic acid encoding the peptide, a vector comprising the nucleic acid, a cell comprising the peptide, nucleic acid, or vector, and compositions thereof.

Abstract: The present disclosure provides humanized CC49 monoclonal antibodies that bind TAG-72 with high binding affinity and that are minimally immunogenic. In one embodiment, a humanized CC49 antibody includes a non-conservative amino acid substitution in a light chain complementarity determining region 3 of the CC49 antibody. In a further embodiment, the humanized CC49 antibody includes a non-conservative substitution of a first residue in a light chain complementarity determining region 3 and a substitution of a second residue in a complementarity determining region of the humanized CC49 antibody. In several of the embodiments, methods are disclosed for the use of a humanized CC49 antibody.

Abstract: The present disclosure provides humanized COL-1 monoclonal antibodies that retain CEA binding affinity, compared to a parent antibody. Also disclosed herein are humanized COL-1 monoclonal antibodies that have reduced immunogenicity, compared to a parent antibody. The disclosed humanized COL-1 antibodies include substitution of framework residues with residues from the corresponding positions of a homologous human sequence. In several embodiments, methods are disclosed for the use of a humanized COL-1 antibody in the detection or treatment of a CEA-expressing tumor or cell in a subject. Also disclosed is a kit including the humanized COL-1 antibodies described herein.

Abstract: The invention provides a peptide comprising a human cytolytic T lymphocyte (CTL) epitope from the human tumor-associated antigen (TAA) New Gene Expressed in Prostate (NGEP), which can be used in vaccine prevention or therapy of prostate cancer, as well as a nucleic acid encoding the peptide, a vector comprising the nucleic acid, a cell comprising the peptide, nucleic acid, or vector, and compositions thereof.

Abstract: It is disclosed herein that Brachyury is expressed in human tumors, specifically in tumors of the small intestine, stomach, kidney, bladder, uterus, ovary, and testes, as well as in lung, colon and prostate carcinomas. Immunogenic Brachyury polypeptides are disclosed herein. These polypeptides can be used in diagnostic assays for Brachyury expression, as well as for inducing an immune response to Brachyury. Polynucleotides encoding the immunogenic Brachyury polypeptides, vectors including these polypeptides, host cells transformed with these vectors, and methods of using these polypeptides, polynucleotides, vectors, and host cells are provided. Methods of diagnosing a Brachyury-expressing cancer are also provided. Exemplary cancers include small lung, colon, intestine, stomach, kidney, bladder, uterus, ovary, and testes and prostate cancers. Methods of treating cancer are also disclosed.

Abstract: It is disclosed herein that Brachyury is expressed in human tumors, specifically in tumors of the small intestine, stomach, kidney, bladder, uterus, ovary, and testes, as well as in lung, colon and prostate carcinomas. Immunogenic Brachyury polypeptides are disclosed herein. These polypeptides can be used in diagnostic assays for Brachyury expression, as well as for inducing an immune response to Brachyury. Polynucleotides encoding the immunogenic Brachyury polypeptides, vectors including these polypeptides, host cells transformed with these vectors, and methods of using these polypeptides, polynucleotides, vectors, and host cells are provided. Methods of diagnosing a Brachyury-expressing cancer are also provided. Exemplary cancers include small lung, colon, intestine, stomach, kidney, bladder, uterus, ovary, and testes and prostate cancers. Methods of treating cancer are also disclosed.

Abstract: The present disclosure provides humanized CC49 monoclonal antibodies that bind TAG-72 with high binding affinity and that are minimally immunogenic. In one embodiment, a humanized CC49 antibody includes a non-conservative amino acid substitution in a light chain complementarity determining region 3 of the CC49 antibody. In a further embodiment, the humanized CC49 antibody includes a non-conservative substitution of a first residue in a light chain complementarity determining region 3 and a substitution of a second residue in a complementarity determining region of the humanized CC49 antibody. In several of the embodiments, methods are disclosed for the use of a humanized CC49 antibody.

Abstract: The invention provides a polypeptide comprising an agonist of a MHC Class I binding native sequence having amino acid substitution(s) and enhanced immunogenicity compared to the native sequence. The invention provides DNA encoding the polypeptide, as well as vectors and cells comprising the DNA and methods comprising the administration of the polypeptide.

Abstract: Disclosed are yeast-based immunotherapeutic compositions comprising mucin-1 (MUC1), as well as methods for the prevention and/or treatment of cancers characterized by the expression or overexpression of mucin-1 (MUC1).

Abstract: Novel MUC-1 epitopes outside the VNTR region are identified. In addition, the first agonist epitope of MUC-1 is described. The employment of agonist epitopes in peptide, protein and vector-based vaccine may well aid in the development of effective vaccines for a range of human cancers.

Abstract: The present disclosure provides humanized CC49 monoclonal antibodies that bind TAG-72 with high binding affinity and that are minimally immunogenic. In one embodiment, a humanized CC49 antibody includes a non-conservative amino acid substitution in a light chain complementarity determining region 3 of the CC49 antibody. In a further embodiment, the humanized CC49 antibody includes a non-conservative substitution of a first residue in a light chain complementarity determining region 3 and a substitution of a second residue in a complementarity determining region of the humanized CC49 antibody. In several of the embodiments, methods are disclosed for the use of a humanized CC49 antibody.

Abstract: The invention provides a method for predicting the clinical response to a cancer vaccine in a patient having cancer, a method for determining the immune response to a cancer vaccine in a patient having cancer who has been administered a cancer vaccine, a method for determining the long-term survival in a patient having cancer, corresponding kits therefor, as well as methods of for improving the efficacy of a virus-based vaccine.

Abstract: It is disclosed herein that Brachyury is expressed in human tumors, specifically in tumors of the small intestine, stomach, kidney, bladder, uterus, ovary, and testes, as well as in lung, colon and prostate carcinomas. Immunogenic Brachyury polypeptides are disclosed herein. These polypeptides can be used in diagnostic assays for Brachyury expression, as well as for inducing an immune response to Brachyury. Polynucleotides encoding the immunogenic Brachyury polypeptides, vectors including these polypeptides, host cells transformed with these vectors, and methods of using these polypeptides, polynucleotides, vectors, and host cells are provided. Methods of diagnosing a Brachyury-expressing cancer are also provided. Exemplary cancers include small lung, colon, intestine, stomach, kidney, bladder, uterus, ovary, and testes and prostate cancers. Methods of treating cancer are also disclosed.

Abstract: The invention provides a polypeptide comprising an agonist of a MHC Class I binding native sequence having amino acid substitution(s) and enhanced immunogenicity compared to the native sequence. The invention provides DNA encoding the polypeptide, as well as vectors and cells comprising the DNA and methods comprising the administration of the polypeptide.

Abstract: It is disclosed herein that Brachyury is expressed in human tumors, specifically in tumors of the small intestine, stomach, kidney, bladder, uterus, ovary, and testes, as well as in lung, colon and prostate carcinomas. Immunogenic Brachyury polypeptides are disclosed herein. These polypeptides can be used in diagnostic assays for Brachyury expression, as well as for inducing an immune response to Brachyury. Polynucleotides encoding the immunogenic Brachyury polypeptides, vectors including these polypeptides, host cells transformed with these vectors, and methods of using these polypeptides, polynucleotides, vectors, and host cells are provided. Methods of diagnosing a Brachyury-expressing cancer are also provided. Exemplary cancers include lung, colon, small intestine, stomach, kidney, bladder, uterus, ovary, and testes and prostate cancers. Methods of treating cancer are also disclosed.

Abstract: The invention provides a prostate specific antigen oligo-epitope peptide (PSA-OP) that is useful as an immunogen in the prevention or treatment of prostatic cancer and in the inhibition of prostatic cancer cells and in the establishment and characterization of PSA-specific cytotoxic T-cell lines. In particular, the invention provides methods for eliciting an immune response against PSA comprising administering (i) a priming inoculation of a first recombinant virus encoding PSA-OP and (ii) one or more boosting inoculations of a second recombinant virus encoding PSA-OP, wherein the first and second recombinant viruses are from a different genus.

Abstract: Disclosed are immunotherapeutic compositions and the concurrent use of combinations of such compositions for the improved induction of therapeutic immune responses and/or for the prevention, amelioration and/or treatment of disease, including, but not limited to, cancer and infectious disease.

Abstract: The invention provides a peptide comprising a human cytolytic T lymphocyte (CTL) epitope from the human tumor-associated antigen (TAA) New Gene Expressed in Prostate (NGEP), which can be used in vaccine prevention or therapy of prostate cancer, as well as a nucleic acid encoding the peptide, a vector comprising the nucleic acid, a cell comprising the peptide, nucleic acid, or vector, and compositions thereof.