Provided is a method for inducing T cells for a cell-based immunotherapy, which comprises the steps of: (1) providing human pluripotent stem cells bearing a T cell receptor specific for a desired antigen, and (2) inducing T cell progenitors or mature T cells from the pluripotent stem cells of step (1). Especially, a method for inducing T cells for a cell-based immunotherapy from cells of a person who is not the subject to be treated by the cell-based immunotherapy. The method provided herein may further comprise a step of co-culturing the T cell progenitors or mature T cells induced from the pluripotent stem cells with the lymphocytes of the subject to be treated by the cell based immunotherapy to verify that the T cells are not allogenicaly reactive against the subject.

The present invention provides designed polypeptides that selectively bind to and inhibit Epstein Barr protein BHFR1, and B cell lymphoma family proteins, and are thus useful for treating Epstein Barr-related diseases and cancer.

The present invention provides designed polypeptides that selectively bind to and inhibit Epstein Barr protein BHFR1, and B cell lymphoma family proteins, and are thus useful for treating Epstein Barr-related diseases and cancer.

The present invention relates to the filed of immunotherapy, in particular, of Epstein-Barr virus-associated diseases (EBV, also designated Human gammaherpesvirus 4), e.g., cancer or post-transplant lymphoproliferative disease, in particular, to adoptive T cell therapy or T cell receptor (TCR) gene therapy. The invention provides a combination of nucleic acids encoding at least two TCR constructs, or the respective proteins or host cells, wherein each TCR construct is capable of specifically binding to its respective epitope in the context of the respective MHC I, and wherein the epitopes are peptides from different antigens expressed by the same infective agent or cancer, e.g., EBV antigens. The invention also provides specific nucleic acids encoding a TCR alpha chain construct (TRA) and/or a TCR beta chain construct (TRB) of a TCR construct specific for an epitope in complex with a human MHC I, wherein the epitope is an epitope of an Epstein-Barr-virus protein, wherein the TCR constructs are specific for epitopes from LMP2A, LMP1 or EBNA3C. Proteins encoded by said nucleic acids, corresponding host cells and pharmaceutical compositions and kits are also objects of the invention.

The present invention provides a medicinal composition containing a T cell population that exhibits an excellent antigen specificity and has genetic diversity, and a method for preventing or treating cancer using the medicinal composition.

Nucleic acid molecules and compositions comprising one or more nucleotide sequences that encode a consensus Epstein-Barr virus (EBV) antigen. Immunomodulatory methods and methods of inducing an immune response against EBV are disclosed. Method of treating infection by EBV and methods of treating or preventing a disease or disorder associated with EBV are disclosed. Modified consensus EBV antigens are disclosed.

The present disclosure relates to compositions comprising isolated T cells, with activity against a fungal antigen, a viral antigen or a tumour antigen, wherein the composition comprises a defined number or defined ratio of T cells. Described herein are compositions comprising at least two populations of T cells, the compositions being suitable for treating various diseases and disorders.

Provided herein are methods of treating a solid malignant tumor using antigen-specific T cells and methods of managing tumor flare in treatment of a solid malignant tumor using antigen-specific T cells. The methods provided herein improve the safety of treatment by informing the patient about the potential risks for tumor flare, telling the patient to contact his or her physician if tumor swelling occurs, counseling a patient with Waldeyer's ring lymphadenopathy to contact his or her physician if shortness of breath or stridor occurs, or grading and managing tumor flare developed in the patient.

The present disclosure is directed towards genetically engineered TCR-T cells to recognize tumor antigens and simultaneously secrete a binding protein that blocks an immune checkpoint molecule and TGF-beta. These engineered T cells demonstrate stronger antitumor response and reduced T cell exhaustion. The present disclosure provides immunotherapy against HPV- or EBV-positive cancers, among others.

Brachyury protein can be used to induce Brachyury-specific CD4+ T cells in vivo and ex vivo. It is also disclosed that Brachyury protein can be used to stimulate the production of both Brachyury-specific CD4+ T cells and Brachyury-specific CD8+ T cells in a subject, such as a subject with cancer. In some embodiments, the methods include the administration of a Brachyury protein. In additional embodiments, the methods include the administration of a nucleic acid encoding the Brachyury protein, such as in a non-pox non-yeast vector. In further embodiments, the method include the administration of host cells expressing the Brachyury protein.