The present disclosure provides immunogenic telomerase reverse transcriptase-derived peptide compositions and methods of their use. By administering to a human subject an effective amount of an immunotherapeutic composition that stimulates an immune response to one or more peptides in the composition, a cell-mediated immune response may be elicited in the subject.

The present disclosure provides Multimeric Antigen Presenting Polypeptides (MAPPs) for the presentation of antigens in the context of a class I MHC receptor. The present disclosure provides nucleic acids comprising nucleotide sequences encoding those MAPPs, as well as cells genetically modified with the nucleic acids. MAPPs of the present disclosure are useful for selectively modulating activity of T cells having T cell receptors that recognize the antigens. Thus, the present disclosure provides compositions and methods for modulating the activity of T cells, as well as compositions and methods for treating persons who have diseases and/or disorders including cancers, autoimmune diseases and/or allergies.

The present invention relates to a patient-specific tumor treatment targeting individual expression patterns of tumor antigens, in particular shared tumor antigens, and individual tumor mutations. In one aspect, the present invention relates to a method for preventing or treating cancer in a patient comprising the steps of: (i) inducing a first immune response against one or more tumor antigens in the patient, and (ii) inducing a second immune response against one or more tumor antigens in the patient wherein the second immune response is specific for cancer specific somatic mutations present in cancer cells of the patient.

Peptides derived from melanoma-associated antigen C2 (MAGEC2), complexes comprising such peptides bound to recombinant MHC molecules, and cells presenting said peptide in complex with MHC molecules are described. Also provided by the present invention are binding moieties that bind to the peptides and/or complexes of the invention. Such moieties are useful for the development of immunotherapeutic reagents for the treatment of diseases such as cancer.

Two-component vaccine formulations and methods are contemplated where the vaccine has an adjuvant component and a therapeutic component. The therapeutic component comprises preferably a recombinant therapeutic virus encoding a therapeutic antigen while the adjuvant component comprises a non-host cell or immune stimulating portion thereof. Notably, use of the adjuvant component will result in significant uptake of the therapeutic component into immune competent cells, even in the absence of receptors for entry of the therapeutic component. In addition, such adjuvant also stimulates expression of the therapeutic antigen.

Disclosed herein are alphavirus vectors that include neoantigen-encoding nucleic acid sequences derived from a tumor of a subject. Also disclosed are nucleotides, cells, and methods associated with the vectors including their use as vaccines.

The methods include selectively reducing or expanding T cells according to the antigenic specificity of the T cells. Therefore, the present invention can be used to reduce or eliminate pathogenic T cells that recognize autoantigens, such as beta cell specific T cells. As such, the present invention can be used to prevent, treat or ameliorate autoimmune diseases such as IDDM. Furthermore, the present invention can be used to expand desirable T cells, such as anti-pathogenic T cells to prevent, treat and/or ameliorate autoimmune diseases.

This invention relates to the field of anticancer therapy, and to the identification of immunogenic peptides derived from the human telomerase reverse transcriptase (hTERT). The present invention relates to polynucleotides encoding hTERT epitopes restricted to MHC class I molecule, analogues thereof and polyepitopes containing such epitopes and/or analogues. Are also included in the present invention, vector and cell comprising such polynucleotides. The present invention also concerns composition comprising hTERT polypeptides, corresponding polynucleotides, vectors and cells, for use in the treatment and/or prevention of cancer.

A method of treating a patient who has brain cancer includes administering to said patient a composition containing a population of activated T cells that selectively recognize cells in the patient that aberrantly express a peptide. A pharmaceutical composition contains activated T cells that selectively recognize cells in a patient that aberrantly express a peptide, and a pharmaceutically acceptable carrier, in which the T cells bind to the peptide in a complex with an MHC class I molecule, and the composition is for treating the patient who has brain cancer. A method of treating a patient who has brain cancer includes administering to said patient a composition comprising a peptide in the form of a pharmaceutically acceptable salt, thereby inducing a T-cell response to the brain cancer.

A minimal antigen delivery system consists essentially of PEGylated stealth liposomes loaded with an immunogenic human leukocyte antigen (HLA) class restricted peptide and surface modified with a cell targeting peptide which mediates binding and internalization of the liposomes into a target cell.