Problem to be solved: An object of the present invention is to obtain medicinal effect that could not be obtained by conventional peptide vaccines that activate and proliferate a CD8-positive CTL by administering a Class II epitope as a peptide vaccine. Solution: The inventors of the present invention have found, as a result of diligent examination on the aforementioned problems, that these problems can be solved by acquiring a peptide having a partial amino acid sequence containing a mutated amino acid of a neoantigen expressed in cancer cells and being an epitope presented by a Class II molecule.

The invention covers the use of certain classes of lipids including cationic lipids in ex-vivo dendritic cell therapies. The cationic lipids enhance antigen uptake, processing and presentation of the processed antigens by dendritic cells to CD8+ and CD4+ T-cells via the MHC classes I and II presentation pathways respectively. Antigen uptake via cationic lipid by dendritic cells result in significant lowering of the population of the immune suppressive regulatory T cells in the tumors and a significant increase of the tumor targeting cytotoxic T-cells. Loss of regulatory T cells and increase of tumor specific cytotoxic cells are conducive to effective elimination of the tumors.

Compositions and methods for isolating HLA-peptides from cells. A universal platform and methods for profiling the HLA-peptidome, enabling identification of endogenously presented HLA-peptides from cell lines expressing any possible class I or II construct.

Provided are a genetically modified immunocyte expressing a chimeric antigen receptor (CAR) comprising an antigen binding domain specifically binding to cancer cells and/or expressing TRAIL, a composition for preventing or treating cancer, the composition comprising the immunocytes, a cell therapeutic agent, a method of providing information for cancer diagnosis, and a method of preparing the genetically modified immunocyte.

Cancer is treated via a coordinated treatment regimen that use various compounds and compositions that employ prime-boost vaccination in combination with immune modulatory treatment and biasing of an immune response towards a Th1 profile.

Compositions and methods for the prevention and/or treatment of a viral infection, in particular of the Coronaviridae family.

The present disclosure relates to compositions and methods for inducing an immune response to a composition of the invention in a subject. Additionally, the present disclosure generally relates to methods for screening for immune response to a composition of the invention.

Recombinant NK cells, and especially recombinant NK-92 cells express a chimeric antigen receptor (CAR) having an intracellular domain of FcεRIγ. Notably, CAR constructs with an intracellular domain of FcεRIγ had a substantially prolonged duration of expression and significantly extended cytotoxicity over time. The CAR may be expressed from RNA and DNA, preferably as a tricistronic construct that further encodes CD16 and a cytokine to confer autocrine growth support. Advantageously, such constructs also enable high levels of transfection and expression of the recombinant proteins and provide a convenient selection marker to facilitate rapid production of recombinant NK/NK-92 cells.

A method of producing an immunotherapy vaccine is provided. The method includes performing a heat treatment to exosomes separated from cancer cells or body fluids including blood of a cancer patient to promote inactivation of proteolytic enzymes in the exosomes, and introducing or co-culturing the exosomes in dendritic cells derived from blood of the cancer patient or a healthy person to make antigen-presenting cells.

The present invention relates to methods and pharmaceutical compositions for reprograming immune environment in a subject in need thereof. The inventors demonstrated that DDA induces differentiation of tumor cells and stimulates the secretion and the production of modified exosomes with anti-tumor properties (DDA-exosomes) via a mechanism dependent of the expression of the LXRbeta in the parental cells. In particular, one object of the present invention relates to a method of promoting Th1 differentiation and functionality and CD8+ cytotoxicity in a subject in need thereof comprising administering to the subject a therapeutically effective amount of DDA or DDA-exosomes.