Provided are engineered T-cell receptors comprising fusion proteins comprising a transmembrane domain and an intracellular domain capable of providing a stimulatory signal or an inhibitory signal, and immune cells comprising same.

Provided is a modified immune cell, comprising a chimeric antigen receptor and/or a coding element therefor, or comprising a T cell receptor and/or a coding element therefor. The immune cell further comprises: leptin and/or a functional fragment thereof; and/or, a leptin receptor and/or a functional fragment thereof, and the expression quantity of the leptin receptor and/or the functional fragment thereof in the immune cell is increased compared with that in an immune cell without the corresponding modification. In addition, also provided is another modified immune cell, comprising leptin and/or a functional fragment thereof, and/or, a leptin receptor and/or a functional fragment thereof, and a low-density lipoprotein-receptor-related protein or a fragment thereof.

This disclosure relates to immunogenic peptides that are specific to B-cell maturation antigen (BCMA) and Transmembrane activator and CAML interactor (TACI), and methods of use thereof.

A nucleic acid molecule comprising a nucleotide sequence encoding an inhibitory chimeric antigen receptor (iCAR) capable of preventing or attenuating undesired activation of an effector immune cell, wherein the iCAR comprises an extracellular domain that specifically binds to a single allelic variant of a polymorphic cell surface epitope absent from mammalian tumor cells due to loss of heterozygosity (LOH) but present at least on all cells of related mammalian normal tissue; and an intracellular domain comprising at least one signal transduction element that inhibits an effector immune cell is provided. Vectors and transduced effector immune cells comprising the nucleic acid molecule and methods for treatment of cancer comprising administering the transduced effector immune cells are further provided.

A method for treating a patient comprising: (a) providing a composition comprising a population of T cells expressing both a chimeric antigen receptor (CAR) and a T cell receptor specific for a cytomegalovirus (CMV) antigen; (b) administering the composition to the patient; and (c) administering to the patient a viral vector encoding: (i) CMV pp65 and (ii) a fusion protein comprising exon 4 of CMV protein IE1 (e4) and exon 5 of CMV protein 1E2 (e5) either prior to or subsequent to administering the composition comprising a population of T cells to the patient is described.

The invention relates to fusion target-binding proteins, such as chimeric antigen receptors (CARs), that comprise a target binding moiety, an intracellular signalling region, and an arginase domain. These proteins confer advantages that include improved cell killing and increased proliferation. The invention also relates to nucleic acids encoding the fusion target-binding proteins and cells expressing such proteins. The invention relates to pharmaceutical compositions, medical uses, and methods of treatment, all using the fusion target-binding proteins, cells, or nucleic acids disclosed. The medical uses and methods of treatment are of particular benefit in cancer therapy.

Provided are methods and compositions for obtaining functionally enhanced derivative effector cells obtained from directed differentiation of genomically engineered iPSCs. The derivative cells provided herein have stable and functional genome editing that delivers improved or enhanced therapeutic effects. Also provided are therapeutic compositions and the used thereof comprising the functionally enhanced derivative effector cells alone, or with antibodies or checkpoint inhibitors in combination therapies.

The present disclosure provides compositions and methods comprising chimeric antigen receptors (CARs) capable of binding tumor-specific isoforms of fibronectin.

The present invention relates to an immune cell, which contains a TMEM59 protein and/or a functional fragment thereof, a chimeric antigen receptor (CAR) and/or a coding element thereof, as well as a use of the immune cell in the preparation of a drug for treating tumors. Further provided are a method for promoting the proliferation of immune cells and a method for promoting the production of memory cells.

In certain aspects, the disclosure provides multispecific binders (e.g., ActRIIA:TβRII heteromultimers comprising an ActRIIA polypeptide and a TfiRU polypeptide). The disclosure further provides that such multispecific binders (e.g., ActRIIA:TβRII heteromultimer) may be used to treat various disorders or conditions.