This invention provides chimeric antigen receptors (CARs) targeting human EphA3 and dual targeting CARs that bind to human EphA3 and to human mutant epidermal growth factor receptor variant III (EGFRvIII). This invention also relates to CAR-T cells comprising the provided CARs or the dual targeting CARs. Methods for treating a solid tumor cancer by administering the CARs are provided.

Provided in the present invention are a specific antibody of BCMA and a BCMA-targeting immune effector cell, and also provided are a chimeric antigen receptor-modified T cell prepared using the antibody and the use thereof.

The present invention provides a chimeric antigen receptor having a structure of scFv(X)-(Y)CD 3zeta-MN.X comprises a tumor targeting antibody or a ligand or receptor capable of specifically binding to a tumor. Y is an intracellular region of a costimulatory receptor selected from ICOS, CD28, CD27, HVEM, LIGHT, CD40L, 4-1BB, OX40, DR3, GITR, CD30, SLAM, CD2, and CD226; M is an intracellular region of a gamma chain family cytokine receptor, the cytokine receptor being selected from IL2Ra, IL2Rb, IL4Ra, IL7Ra, IL9Ra, IL15Ra, and IL21Ra. N is an intracellular region of IL2Rg. The present invention further provides a CAR-T cell constructed from the recombinant expression vector of said chimeric antigen receptor, a preparation method therefor and the use thereof. The CAR-T cell of the present invention significantly improves tumor killing capacity and amplification capacity.

Embodiments of the disclosure concern compositions and methods of use related to particular immortalized cells, including cardiac stem cells, obtained from a pediatric or neonatal individual. In specific embodiments, the immortalized cells, or conditioned medium from the cells, or partial or total secretomes thereof, are provided in an effective amount to an individual in need thereof either alone or in combination with cardiac stem cells.

The present invention provides compositions and methods for treating cartilage disorders using expression vectors including a nucleic acid encoding a suicide gene, and a fibroblast growth factor 18 (FGF-18) polypeptide or a functional fragment thereof. The present invention relates to expression vectors, and methods of use thereof for promoting the proliferation of cells responsible for the production and maintenance of tissues, such as chondrocytes, cardiomyocytes, and synoviocytes.

Provided herein are compositions and methods for promoting hematopoietic cell cytotoxicity.

Disclosed is an erythroid-specific human β-globin gene promoter and a human β-globin-expressing recombinant sequence, and use thereof, which belongs to the technical field of genetic engineering. An erythroid-specific human β-globin gene promoter with a nucleotide sequence set forth in SEQ ID NO: 1 is provided in the present disclosure, which may achieve high-efficiency and erythroid-specific initiation of the expression of a functional gene. A recombinant sequence specifically expressing human β-globin in erythroid cells is also provided in the present disclosure, which is human β-globin locus control region (LCR) HS 3-1+β-globin gene promoter+β-globin gene+β-globin gene enhancer.

The present invention provides a retroviral or lentiviral vector having a viral envelope which comprises a mitogenic T-cell activating transmembrane protein which comprises: (i) a mitogenic domain which binds a mitogenic tetraspanin, and (ii) a transmembrane domain; wherein the mitogenic T-cell activating transmembrane protein is not part of a viral envelope glycoprotein. When cells such as T-cells or Natural Killer cells are transduced by such a viral vector, they are activated by the mitogenic T-cell activating transmembrane protein.

Provided are a tumor-specific polypeptide sequence and use thereof. The polypeptide includes at least one polypeptide in a first peptide group, and optionally, at least one polypeptide in a second peptide group, the first peptide group includes polypeptides having amino acid sequences set forth in SEQ ID NO: 1 to SEQ ID NO: 4, the second peptide group includes derivative peptides of the amino acid sequences set forth in SEQ ID NO: 1 to SEQ ID NO: 4, the derivative peptide includes a front peptide segment, a middle peptide segment, and a back peptide segment that are connected in sequence. Further provided are a nucleic acid, a construct, an expression vector, a pharmaceutical composition, an antigen-presenting cell, an immune effector cell, a tumor vaccine, use of the polypeptide in the preparation of drugs for preventing or treating tumors, and a method for treating a patient suffering from tumors.

The present invention is directed to a system including neurons over-expressing UBB+1, organized in a 3-dimensional culture, and method of using same. A process for making the system of the invention is also provided.