The present invention relates to an immune cell that are engineered to overexpress cell signaling pathway modulator(s) and a use thereof. As a specific example, an immune cell expressing a fusion protein comprising a chimeric antigen receptor and a cell signaling pathway modulator(s) performs an immune response by selecting a target cancer cell by a chimeric antigen receptor expressed on a cell membrane. In this case, the cell signaling pathway modulator is overexpressed in the cytoplasm, thereby being capable of regulating the activity of an immune cell. Therefore, the fusion protein comprising a chimeric antigen receptor and cell signaling pathway modulator(s), and the immune cell engineered to overexpress the cell signaling pathway modulator(s) of the present invention can be usefully used in the treatment of cancer.

The present disclosure is directed to methods of inducing rejuvenation in a population of adult glial progenitor cells, and methods of treating a subject having a myelin deficiency. The method of inducing rejuvenation in a population of adult glial progenitor cells, may comprise: administering, to the population of adult glial progenitor cells, one or more nucleic acid molecules encoding microRNAs, wherein administering suppresses the signal transducer and activator of transcription 3 (STAT3) signaling pathway; and/or administering microRNAs, wherein administering suppresses the E2F transcription factor 6 (E2F6) signaling pathway; and/or administering microRNAs, wherein administering suppresses the Myc-associated factor X (MAX) signaling pathway, wherein said one or more nucleic acid molecules are administered in an amount sufficient to induce rejuvenation in the population of adult glial progenitor cells.

The present disclosure provides use of chemokine receptor CXCR5, wherein CAR-T cells with enhanced chemotaxis are obtained by modifying chimeric antigen receptor T cells (CAR-T cells) utilizing the chemotactic signal between CXCR5 and its ligand CXCL13. The chemokine receptor CXCR5 can guide CAR-T cells to migrate to tumors. It has an excellent ability to enhance the chemotaxis of CAR-T cells, can specifically clear tumor cells, and effectively solve the problem of poor efficacy of the existing CAR-T therapy for solid tumors, thereby exhibiting broad application prospects and great market value.

Provided herein are methods and compositions for a suicide gene approach comprising an expression vector comprising a cell cycle-dependent promoter driving the expression of a suicide gene. Also provided herein are methods to render proliferative cells sensitive to a prodrug after transplantation but avoids expression of the suicide gene in post-mitotic cells, such as neurons.

The invention provides a method for constructing a hepatic progenitor cell-like cell bank, including successively performing following processes to human primary hepatocyte cultures from different donor sources: transformation-culture, cryopreservation treatment, proliferation-culture, a first subculture treatment, virus infection, a second subculture treatment, continuous selection-culture and continuous subculture. In the method for constructing a heterogenous immortal hepatic progenitor cell-like cell bank of the present invention, the human primary hepatocyte culture of each of the donor sources is transformation-cultured before the proliferation-culture, which is beneficial in endowing the human primary hepatocyte cultures with good proliferation performance. Once combined with subsequent controlling of culture parameter, the immortal hepatic progenitor cell-like cell lines obtained from different donor sources may have good in vitro proliferation ability. The invention also provides an application of the hepatic progenitor cell-like cell bank and cell lines obtained by the construction method.

The present disclosure is directed to method of generating human glomeruli endothelial cells (HGECs) from human endothelial cells (ECs), comprising expressing in human ECs an exogenous nucleic acid encoding a T-box transcription factor 3 (Tbx3), alone or in combination with one or more of PR domain zinc finger protein 1 (Prdm1), GATA Binding Protein 5 (Gata5) and Pre-B-Cell Leukemia Transcription Factor 1 (Pbx1). Disclosed also are HGECs produced by the methods of the instant disclosure, as well as methods for using the same.

The subject matter disclosed herein is generally directed to methods and compositions for stable transduction of target cells with libraries of genetic elements. The invention reduces intermolecular recombination between library elements and integration of multiple genetic elements.

The present disclosure provides fusion proteins with improved signaling properties. Disclosed embodiments include fusion proteins that comprise an extracellular component comprising a target-binding domain, a transmembrane domain, and an intracellular component comprising a SH2 domain or a functional portion or variant thereof, and have improved signaling in response to antigen-binding, including of solid-tumor antigens with low levels of expression. Recombinant host cells expressing the fusion proteins, and polynucleotides encoding the fusion proteins, are also provided, as are compositions and methods comprising the same.

The present invention discloses cell lines and recombinant growth factor receptors useful in adoptive cell therapy (ACT), wherein the recombinant growth factor receptor can act as a molecular switch enabling cells expressing the rGFR protein to be expanded in-vitro or in- vivo. Thus the invention provides a T or NK cell, comprising a recombinant growth factor receptor (rGFR) comprising: (i) an extracellular (EC) domain; (ii) a thrombopoietin receptor transmembrane (TM) domain; and (iii) a growth factor receptor intracellular (IC) domain.

Provided are compositions and methods for production of anti-inflammatory cytokines, growth factors, or chemokines. Provided are nucleic acids (e.g., expression vectors) that include an NFκB inflammation response element operably linked to a nucleotide sequence encoding an anti-inflammatory cytokine (e.g., IL-4). In some cases, the nucleic acid is an expression vector selected from: a linear expression vector, a circular expression vector, a plasmid, and a viral expression vector. Also provided are cells (e.g., mesenchymal stem cells—MSCs) comprising a nucleic acid that includes an NFκB inflammation response element operably linked to a nucleotide sequence encoding an anti-inflammatory cytokine. In some cases, the nucleic acid is integrated into the cell's genome. Also provided are methods for treating an individual having an inflammation-associated ailment, which can include administering an MSC to the individual, where the MSC includes an NFκB inflammation response element operably linked to a nucleotide sequence encoding an anti-inflammatory cytokine.