The present invention relates to a chimeric antigen receptor comprising a c-Met binding domain, and a use thereof. The chimeric antigen receptor comprising a c-Met domain, of the present invention, can be effectively usable as an agent for treating various diseases associated with c-Met expression.

Described herein are immune cells comprising: a T-cell receptor (TCR) and a chimeric stimulating receptor (CSR) that comprises (i) a ligand-binding module that is capable of binding or interacting with a target ligand; (ii) a transmembrane domain; and (iii) a CD30 costimulatory domain, in which the CSR in the immune cells lacks a functional primary signaling domain. Also provided herein are methods of using the same or components thereof (e.g., the CSR) for therapeutic treatment of cancers (e.g., solid tumor cancers).

The present disclosure is in the field of genome engineering, particularly targeted modification of the genome of a cell.

B cell subsets, generation of B cell subsets and utilization of B cell subsets for treatment of Chronic Obstructive Pulmonary Disease (COPD). In one embodiment B cells possessing a B regulatory phenotype are generated in vivo by administrating of mesenchymal stem cells. In another embodiment B regulatory cells are utilized to treat COPD in an interleukin-35 dependent manner. In another embodiment B regulatory cells possess the marker CD5 and produce interleukin-10.

Lipocalin muteins specific to a predetermined antigen can be transduced into a T cell to bring therapeutic benefits to patients in need. In one example, a lipocalin mutein specific to a predetermined antigen (e.g., a target differentially expressed on the surface of a tumor cell) can be transduced into a T cell membrane to serve as an antigen receptor, offering benefits over conventionally deployed antibody-derived protein moieties such as a single chain variable fragment (scFv). Benefits include a more stable structure, leading to superior target engagement, for example. Further, lipocalin muteins specific to a predetermined antigen (e.g. an immunomodulatory target such as an immune checkpoint or costimulatory molecule) can be transduced into a T cell for secretion thereby, bringing an added therapeutic benefit. Specific examples of such modified T cells and methods of making and using the same are provided herein.