The present disclosure relates to new agents useful for anti-cancer therapy such as anti-cancer adoptive T-cell transfer (ACT) immunotherapy or immune check-point blockade therapy and related compositions, uses and methods thereof.

Binding compounds, such as human heavy-chain antibodies (e.g., UniAbs™) binding to CD38 are disclosed, along with methods of making such binding compounds, compositions, including pharmaceutical compositions, comprising such binding compounds and their various uses.

The present invention provides methods of treating, preventing or delaying the progress of cancer and/or tumour in a subject comprising administering to the subject a treatment regimen comprising an effective amount of a PD-1 axis binding antagonist and a population of modified immunoresponsive cells expressing or presenting a heterologous TCR. The invention also provides methods of enhancing immune function in a subject having cancer and/or tumour comprising administering to the subject a treatment regimen comprising an effective amount of a PD-1 axis binding antagonist and a population of modified immunoresponsive cells expressing or presenting a heterologous TCR.

The present disclosure generally relates to, among other things, a new class of receptors engineered to modulate transcription in a ligand-dependent manner. The new receptors provide a selectable degree of noise, expression level, and signal to noise ratio. The disclosure also provides compositions and methods useful for producing such receptors, nucleic acids encoding same, host cells genetically modified with the nucleic acids, as well as methods for modulating an activity of a cell and/or for the treatment of various health conditions or diseases, such as cancers.

The present invention relates to methods of treating a B-cell proliferative disorder by administering an anti-CD20/anti-CD3 bispecific antibody, and methods for reduction of adverse effects in response to the administration of the anti-CD20/anti-CD3 bispecific antibody. The present invention further relates to combination treatment methods of treating a B-cell proliferative disorder.

The present invention provides isolated T cell receptors (TCRs) that specifically bind to an HLA-displayed cancer testis antigen preferentially expressed antigen in melanoma (FRAME) peptide, as well as therapeutic and diagnostic methods of using those isolated TCRs.

Disclosed are an engineered immune killer cell, and a preparation method therefor and the use thereof. The engineered immune killer cell is prepared by inducing reprogrammed human T cell, retains the marker and function of the human T cell from which the engineered immune killer cell is derived, has the marker and function of an NK cell, and transfects and expresses, in an obtained immune killer lymphocyte, a CAR molecule which recognizes tumor and virus-associated antigens or a TCR molecule which specifically recognizes a tumor.

The invention provides, for the first time, strategies to inhibit the killing of transplanted cells by activated polymorphonuclear cells (PMNs) of the recipient. Multiple different modes for PMN inhibition are provided and one or more agents effectively utilized every mode of action. The combination of two or more of those agents with different modes of action synergistically improved the efficacy of PMN inhibition without exerting toxic side effects on the survival of the target cells. The cells may be pluripotent cells, including hypoimmune pluripotent cells (HIP), ABO blood type O Rhesus Factor negative HIP cells (HIPO−), or derivatives thereof. The cells may also be alpha 1 antitrypsin (A1AT) secreting cells.

The invention provides improved methods for adoptive cell therapies for the treatment of cancer.

Embodiments described herein are directed to compositions and methods for treating tumors resistant to checkpoint blockade by activating NK cells.