Compositions of multipeptide vaccines comprising at least seven tumor associated antigens, compositions of antigen presenting cell (e.g., dendritic cell) based vaccines presenting epitopes from at least seven tumor associated antigens, and methods of making same, are provided herein. Also, disclosed are methods for treating gynecological and peritoneal cancers using such vaccines.

Provided are a polypeptide and nucleic acid for encoding the polypeptide, a nucleic-acid construct, an expression vector, and a host cell containing the nucleic acid, an antigen-presenting cell presenting the polypeptide on the surface of the cell, and immune effector cell thereof, a pharmaceutical composition containing the polypeptide, a vaccine containing the nucleic acid, the nucleic acid construct, the expression vector, the host cell, the antigen-presenting cell, and the immune effector cell, and an antibody recognizing the polypeptide. Also provided is a therapeutic method using the polypeptide, the nucleic acid, the pharmaceutical composition, the vaccine, and the antibody. Also provided are a diagnosis method and diagnosis apparatus for detecting the described polypeptide. Also provided is an application of the polypeptide in preparing a vaccine, a tumor diagnosis kit, or a pharmaceutical composition, and an application of the polypeptide or the nucleic acid as a test target in tumor diagnosis.

The present disclosure provides engineered cells (e.g., T cells) comprising a chimeric antigen receptor (CAR) and a therapeutic peptide, and methods of use thereof.

Described herein are tolerogenic compositions for use in a method of treatment for multiple sclerosis (MS) in a MS subject exhibiting T-cell autoreactivity against an endogenous epitope corresponding to a T-cell epitope comprising a sequence of at least 8 consecutive amino acid residues differing from a sub-sequence of SEQ ID NO: 5 by 0-2 residue substitutions, deletions and/or insertions, or the composition comprising a nucleic acid encoding said therapeutic T-cell epitope. Also described are methods for determining antigen-specific T-cell activation in a test subject, comprising providing a test sample derived from the test subject comprising viable T-cells; determining antigen-specific activation of the T-cells of the test sample in vitro in response to a test antigen comprising a T-cell epitope; and comparing the determined antigen-specific activation to a relevant reference to determine the degree of MS-related autoimmunity in the test subject.

The invention features compositions and methods for identifying functional anti-tumor T cell responses.

Disclosed are yeast-based immunotherapeutic compositions comprising Brachyury antigens, and methods for the prevention and/or treatment of cancers characterized by the expression or overexpression of Brachyury.

The disclosure provides, e.g., modified enucleated erythroid cells having increased or decreased levels of particular endogenous proteins. For example, CD47-negative enucleated erythroid cells may be used to induce tolerance to an exogenous antigen.

Provided herein are T-cell receptor (TCR) fusion proteins (TFPs), T-cells engineered to express one or more TFPs, and methods of use thereof for the treatment of diseases, including cancer.

Here we show that SEG/SEI presented from a HLA-DQ8 (HLA-DQB*0302 and HLA-DQA*0301) platform prevent the de novo outgrowth (vaccination) of Lewis lung carcinoma (LLC) and B16-F10 melanoma and retard the growth of established tumors with no significant toxicity. Vaccination of DQ8 tg mice with irradiated LLC or B16-F10 melanoma followed by SEG/SEI immunization and live tumor challenge resulted in 100 and 66% survival respectively for 200 days compared to a median survival of 20 days for untreated controls (p<0.001). In vaccination studies, DQ8 tg mice showed a surge in IFN serum levels reaching 3000 fold above baseline devoid of a parallel spike in TNF levels above baseline levels. Presentation of the SEG/SEI superantigen from a MHC-DQ8 platform, therefore, augments the therapeutic index of these SAgs inducing a tumoricidal response against Lewis lung carcinoma and B16 melanoma accompanied by a sharp increase of therapeutic IFN levels absent toxic levels of TNF.

The present invention provides methods for inducing tolerance and/or suppressing an immune response to an antigen by passing a cell suspension containing an anucleate cell through a constriction, wherein the constriction deforms the cell thereby causing a perturbation of the cell such that an antigen and/or tolerogenic factor enters the cell. In some embodiments, the anucleate cell is delivered to an individual and the antigen is delivered to and processed in a tolerogenic environment to induce tolerance and/or suppress an immune response to the antigen.