The invention of the current disclosure includes methods and compositions useful for producing personalized cancer immunotherapies which target tumor-associated neoepitopes. Also included are methods for treating cancer in subjects in need thereof.

The inventive subject matter relates to methods for treating a T-cell deficiency in a subject in need thereof, comprising administering to said subject a T-cell precursor isolated from an allogeneic donor, provided that said allogeneic donor is not MHC-matched to said subject. The inventive methods can be further enhanced by genetic engineering for targeted immunotherapy.

The inventive subject matter relates to methods for treating a T-cell deficiency in a subject in need thereof, comprising administering to said subject a T-cell precursor isolated from an allogeneic donor, provided that said allogeneic donor is not MHC-matched to said subject. The inventive methods can be further enhanced by genetic engineering for targeted immunotherapy.

Contemplated cancer treatments comprise recursive analysis of patient-, cancer-, and location-specific neoepitopes from various biopsy sites of a patient after treatment or between successive rounds of immunotherapy and/or chemotherapy to inform further immunotherapy. Recursive analysis preferably includes various neoepitope attributes to so identify treatment relevant neoepitopes.

An immunotherapeutic composition is contemplated that comprises subject-derived peripheral blood mononuclear cells (PBMC) and at least one recombinant adenovirus subtype 5 (Ad5) comprising a deletion in an E1 gene region, a deletion in an E2b gene region, and a nucleic acid sequence encoding a peptide antigen, wherein the PBMC are exposed ex-vivo to the at least one Ad5 vector. Advantageously, the same PBMC composition may also be used to prepare modified NK cells, and especially modified NK include CIML NK cells, CENK cells and mCENK cells.

Disclosed herein are antigenic peptide-MHC complexes, termed comPACT polypeptides and comPACT polynucleotides, and methods of producing such complexes. Also discloses herein are methods of producing libraries of comPACT polynucleotides and polypeptides, and their exemplary use in capturing cancer neoepitope-reactive T cells with high accuracy. Dual particle detection approaches for detection of neoantigen specific T cells with improved sensitivity and specificity are provided. Signal to noise ratio analysis of isolated T cells for detection of neoantigen-specific T cells with improved T cells is also provided.

The generation of antigen specific T cells by controlled ex vivo induction or expansion can provide highly specific and beneficial T cell therapies. The present disclosure provides T cell manufacturing methods and therapeutic T cell compositions which can be used for treating subjects with cancer and other conditions, diseases and disorders personal antigen specific T cell therapy.

The present invention relates to using monoterpene or sesquiterpene to permeabilize the blood brain barrier.

A cancer vaccine technology is provided which knocks out expression of cell surface immune checkpoint proteins, to facilitate their processing by immune cells, and optionally by knocking-in the expression of cytokines to boost immune response. Non-replicating tumor cells lacking cell surface CD47 are highly effective immunizing agents against subcutaneous mouse melanoma. Whole-cell vaccines inhibited tumor growth, and immunophenotyping showed a dramatic increase in activated effector cell subsets and M1-type macrophages aided by a significant reduction in the tumor-associated macrophage and myeloid derived suppressor cell compartments. A remarkable downregulation of cell surface CD47 was observed in the tumors that did escape after vaccination with genetically modified cells, suggesting the intricate involvement of CD47 in a prophylactic situation. An effective vaccination strategy to increase tumor-specific immune response in solid tumors is provided to improve the outcome of cancer immunotherapy.

The present disclosure provides T cell receptors (TCRs) against peptide-MHC complexes, isolated nucleic acid molecules encoding TCRs against peptide-MHC complexes, T cells expressing TCRs against peptide-MHC complexes, and pharmaceutical compositions for use in the treatment of diseases.