A chimeric antigen receptor is disclosed that includes: (a) an scFv comprising a light chain variable domain (V.sub.L) and a heavy chain variable domain (V.sub.H), wherein the scFv specifically binds to CCR4; (b) a hinge and transmembrane domain from CD8; (c) an intracellular 4-1BB signaling domain; and (d) an intracellular CD3 zeta signaling domain, wherein (a)-(d) are in N to C terminal order. Uses of the chimeric antigen receptor, such as for treating a malignancy, are also disclosed.

Provided is an engineered immune cell. The engineered immune cell expresses (i) a chimeric receptor, and (ii) exogenous CCL3, CCL4 and/or CCL5, has improved tumor killing activity, and can be used to treat cancer, infection or autoimmune diseases.

An engineered immune cell, which expresses (i) a cell surface molecule that specifically recognizes a ligand, (ii) an exogenous interleukin, and (iii) an exogenous Flt3L, XCL2, and/or XCL1; the engineered immune cell can be used for treating cancer, infection, or autoimmune diseases; and compared with a traditional engineered immune cell, the engineered immune cell has significantly improved tumor killing activity.

Provided herein are compositions, such as, for example, CXCL 10-secreting antigen presenting cells, and methods for ultrasound-induced blood-brain bander disruption (e.g., low-intensity pulsed ultrasound (LIPU)) to treat a brain cancer in a mammalian subject.

An object of the present invention is to provide CAR-expressing T cells that coexpress a chimeric antigen receptor (CAR) and a T cell immune function-enhancing factor and have a high immunity-inducing effect and antitumor activity, and to provide a CAR expression vector for the preparation of the CAR-expressing T cells.

A CAR expression vector comprises a nucleic acid encoding a chimeric antigen receptor (CAR) and a nucleic acid encoding a T cell immune function-enhancing factor, wherein the nucleic acid encoding an immune function-enhancing factor is a nucleic acid encoding interleukin-7 and a nucleic acid encoding CCL19, a nucleic acid encoding a dominant negative mutant of SHP-1, or a nucleic acid encoding a dominant negative mutant of SHP-2, or a CAR-expressing T cell introduced with the CAR expression vector are prepared.

A chimeric antigen receptor is disclosed that includes: (a) an scFv comprising a light chain variable domain (V.sub.L) and a heavy chain variable domain (V.sub.H), wherein the scFv specifically binds to CCR4; (b) a hinge and transmembrane domain from CD8; (c) an intracellular 4-1BB signaling domain; and (d) an intracellular CD3 zeta signaling domain, wherein (a)-(d) are in N to C terminal order. Uses of the chimeric antigen receptor, such as for treating a malignancy, are also disclosed.

Provided herein are compositions, such as, for example, CXCL 10-secreting antigen presenting cells, and methods for ultrasound-induced blood-brain bander disruption (e.g., low-intensity pulsed ultrasound (LIPU)) to treat a brain cancer in a mammalian subject.

The present disclosure relates to CCL22 as a novel T cell target in cancer immunosuppression.

DNA methylation profiles predictive of head and neck squamous cell carcinoma (HNSCC) patient prognosis, as well as therapeutic protein and adoptive cell compositions useful in the treatment of HNSCC.

The present disclosure provides a TCR-T cell for tumor-killing, wherein the TCR-T cell is a T cell carrying a TCR that recognizes a tumor antigen, and the TCR in the TCR-T cell is derived from any one or more of the following T cells: 1) a CD4 T cell expressing one or more of TNFRSF18, CXCL13, TNFRSF4, TNFSF8, ENTPD1, ACP5, LAYN, TNFRSF9, CTLA4, CD200 and TIGIT genes in the tumor; and 2) a CD8 T cell expressing one or more of TNFRSF18, CXCL13, CXCR6, GALNT2, ENTPD1, ACP5, HAVCR2, LAYN, TNFRSF9, CTLA4 and CD109 genes in the tumor. The TCR-T cell according to the present disclosure can be effectively applied to the treatment of a tumor, especially in an immunotherapy.