Cell culture systems for producing IL-33 induced T9 cells and methods of using the IL-33 induced T9 cells (T9.sub.IL-33 cells) in a cell therapy for increasing anti-tumoral activity following allogeneic hematopoietic cell transplantation (HCT) and/or treating graft-versus-host disease (GVHD) are disclosed herein. Further, methods of using the T9.sub.IL-33 cells, alone or in combination with allogeneic hematopoietic cell transplantation, are described herein for cancer treatment.

Disclosed herein is a genetically-modified cell comprising in its genome a modified human T cell receptor alpha constant region gene, wherein the cell has reduced cell-surface expression of the endogenous T cell receptor. The present disclosure further relates to methods for producing such a genetically-modified cell, and to methods of using such a cell for treating a disease in a subject.

Construction of a T cell receptor and the use thereof are provided. Utilizing mutations of intracellular constant region sites of an chain and an chain of the T cell receptor to inhibit the degradation of the T cell receptor after TCR antigen signal activation, maintain the level of TCR on cell surface, and improve the efficacy of TCR-T cell therapy. This method can be applied to different TCR-T cell therapies.

We provide new methods of in vitro or in vivo enhancing the T-cell stimulatory capacity of human DCs and the use thereof in cancer vaccination. The method includes the introduction of different molecular adjuvants to human DCs by contacting or modifying them with mRNA or DNA molecule(s) encoding CD40L, and CD70 or constitutively active TILR4 (caTLR4).

Disclosed herein is a genetically-modified cell comprising in its genome a modified human T cell receptor alpha constant region gene, wherein the cell has reduced cell-surface expression of the endogenous T cell receptor. The present disclosure further relates to methods for producing such a genetically-modified cell, and to methods of using such a cell for treating a disease in a subject.

Disclosed herein is a genetically-modified cell comprising in its genome a modified human T cell receptor alpha constant region gene, wherein the cell has reduced cell-surface expression of the endogenous T cell receptor. The present disclosure further relates to methods for producing such a genetically-modified cell, and to methods of using such a cell for treating a disease in a subject.

Disclosed herein are methods of treating an EBV-LPD (Epstein-Barr Virus-associated lymphoproliferative disorder) in a human patient who has failed combination chemotherapy to treat the EBV-LPD and/or radiation therapy to treat the EBV-LPD, comprising administering to the human patient a population of allogeneic T cells comprising EBV-specific T cells.

Compositions and methods are provided for preventing or treating neoplastic disease in a mammalian subject. A composition is provided which comprises an enriched immune cell population reactive to a human endogenous retrovirus type E antigen on a tumor cell. A method of treating a neoplastic disease in a mammalian subject is provided which comprises administering to a mammalian subject a composition comprising an enriched immune cell population reactive to a human endogenous retrovirus type E antigen, in an amount effective to reduce or eliminate the neoplastic disease or to prevent its occurrence or recurrence.

Disclosed herein is a genetically-modified cell comprising in its genome a modified human T cell receptor alpha constant region gene, wherein the cell has reduced cell-surface expression of the endogenous T cell receptor. The present disclosure further relates to methods for producing such a genetically-modified cell, and to methods of using such a cell for treating a disease in a subject.

Disclosed herein is a genetically-modified cell comprising in its genome a modified human T cell receptor alpha constant region gene, wherein the cell has reduced cell-surface expression of the endogenous T cell receptor. The present disclosure further relates to methods for producing such a genetically-modified cell, and to methods of using such a cell for treating a disease in a subject.