Disclosed is a method for selecting a potential subject with benefiting from a pharmaceutical composition for treating or preventing cancer, comprising: determining the presence or absence of a mutation in tumor protein p53 (TP53) gene and/or BCL6 co-repressor (BCOR) gene by using a sample collected from the subject; and providing an indication that the subject is a potential subject with benefiting from the pharmaceutical composition in the case of TP53 wild type and/or BCOR wild type.

The present invention provides immunoresponsive cells, including T cells, cytotoxic T cells, regulatory T cells, and Natural Killer (NK) cells, expressing at least one of an antigen recognizing receptor and one of a chimeric costimulatory receptor. Methods of using the immunoresponsive cell include those for the treatment of neoplasia and other pathologies where an increase in an antigen-specific immune response is desired.

A compound represented by the formula (1): ##STR00001##
wherein X.sup.a and Y.sup.a are each a single bond and the like, cancer antigen peptide A is an MHC class I-restricted WT1 peptide consisting of 7-30 amino acid residues, R.sup.1 is a hydrogen atom, a group represented by the formula (2): ##STR00002##
wherein X.sup.b and Y.sup.b are each a single bond and the like, cancer antigen peptide B has a sequence different from that of the cancer antigen peptide A, and is an MHC class I-restricted WT1 peptide consisting of 7-30 amino acid residues, or cancer antigen peptide C, and cancer antigen peptide C has a sequence different from that of the cancer antigen peptide A, and is an MHC class I-restricted WT1 peptide or an MHC class II-restricted WT1 peptide, consisting of 7-30 amino acid residues containing one cysteine residue, or a salt thereof, and the like.

The present disclosure provides methods for treating a progressive ovarian cancer using an allogeneic leukemia-derived cell. Also provided are immunogenic compositions comprising an allogeneic leukemia-derived cell, and pharmaceutical compositions and formulations thereof.

[Problem to be Solved]

Provided is an effective and safe method for treating or preventing a cancer using aAVC.

[Solution]

The present invention finds suitable ranges of the dose of α-GalCer loaded on aAVC cell surface, and the amount of α-GalCer loaded on aAVC cell surface in a pharmaceutical composition comprising aAVC, which are preferred in terms of securing effectiveness and safety in the treatment and prevention of a cancer using aAVC, and provides an effective and safe method for treating or preventing a cancer using aAVC, aAVC for effective and safe treatment or prevention of a cancer, and a pharmaceutical composition comprising the same, etc.

The present disclosure provides a composition for preventing or treating a benign tumor. Provided is a composition for preventing or treating a benign tumor that comprises a WT1 peptide or an analog thereof, or a nucleic acid molecule encoding a WT1 peptide or an analog thereof. In a specific embodiment, the present disclosure provides a composition for preventing or treating a benign tumor that comprises a WT1 peptide or an analog thereof, or a nucleic acid molecule encoding a WT1 peptide or an analog thereof. In a preferred embodiment, the composition for preventing or treating a benign tumor (e.g. familial adenomatous polyposis) according to the present disclosure comprises a killer type WT1 peptide and/or a helper type WT1 peptide. In a further preferred embodiment, the WT1 peptide is WT1.sub.126 killer peptide and/or WT1.sub.35 helper peptide. In another aspect, provided are a method of inducing WT1 peptide-specific CTLs, a method of inducing WT1-specific helper T cells, and a method of inducing dendritic cells presenting a WT1 peptide.

Disclosed herein are methods of selecting an allogeneic T cell line for therapeutic administration to a patient having or suspected of having a pathogen or cancer. Also disclosed are methods of selecting a donor from whom to derive an allogeneic T cell line for therapeutic administration to a patient having or suspected of having a pathogen or cancer.

The present application provides methods of preparing tumor antigen-specific T cells comprising enriching activated T cells from a first co-culture comprising a first population of antigen-loaded dendritic cells loaded and a population of T cells, and co-culturing the enriched activated T cells with a second population of antigen-loaded dendritic cells. Also provided are methods of treating cancer in an individual using the tumor antigen-specific T cells, pharmaceutical compositions and kits for cell-based cancer immunotherapy.

Disclosed herein are methods of selecting an allogeneic T cell line for therapeutic administration to a patient having or suspected of having a pathogen or cancer. Also disclosed are methods of selecting a donor from whom to derive an allogeneic T cell line for therapeutic administration to a patient having or suspected of having a pathogen or cancer.

Provided herein are interleukin-13 receptor α2 peptide-based brain cancer vaccines and methods for treating and vaccinating against brain cancer comprising administering to patients in need thereof interleukin-13 receptor α2 peptide-based brain cancer vaccines. Also provided herein are regimens comprising interleukin-13 receptor α2 peptides and at least one additional peptide and/or immunostimulant.