The present invention relates to: a method for producing immunocytes, specifically induced natural killer T (iNKT) cells that are induced by direct reprogramming of isolated somatic cells, and chimeric antigen receptor (CAR)-iNKT cells into which a CAR gene encoding a CAR is introduced; iNKT cells produced by the method; and a cell therapy composition and a pharmaceutical composition for preventing or treating cancer, comprising the iNKT cells.

The method according to the present invention can produce, through direct reprogramming, iNKT cells or iNKT cells into which a CAR gene is introduced, from isolated cells so as to simplify the production process and shorten production time, thereby reducing costs, to have excellent NKT cell production efficiency, and to ensure safety according to the production without passing through induced pluripotent stem cells, thereby having an excellent NKT cell production effect distinguished from that of a conventional reprogramming technique. In addition, the iNKT cells or iNKT cells into which a CAR gene is introduced, which are produced by the method, have an excellent cancer cell killing ability, and thus can be effectively used as a cell therapy composition or a pharmaceutical composition for preventing or treating cancer.

A cell culture cartridge is provided comprising a plurality of zones geometrically configured to provide for symmetrical fluid flow with each of the plurality of zones to avoid dead areas in flow within each of the plurality of zones. In certain embodiments, at least eight inlets are provided, with an inlet positioned at each corner of the cell culture cartridge. In certain embodiments, a shared outlet is positioned on a top surface of the cell culture cartridge.

An ex vivo generated population of tissue-specific alternatively-activated macrophages and methods of making and using such macrophages for treating orthopedic injury are provided.

Embodiments of the disclosure include methods and compositions related to improvements of T cell therapy. In particular embodiments, CD8+ T cell therapy is enhanced upon expression of transgenic E08αβ co-receptor in the CD8+ T cells. In certain embodiments, CD4+ T cells are rendered to have cytotoxic cell function for adoptive transfer upon expression of transgenic E08αβ co-receptor in the CD4+ T cells. In specific embodiments, TCR-expressing and E08αβ co-receptor-expressing CD4+ and CD8+ T cells are utilized in adoptive transfer.

Universal human induced pluripotent stem cells (universal hiPSCs) and a method of forming the same are provided in the disclosure, including the following steps: providing a first cell group including human stem cells; providing a second cell group including human mononuclear cells; in some embodiments, the second cell group further includes human stem cells, in which the human stem cells of the second cell group are allogenic cells from the first cell group; mixing the first cell group and the second cell group to form cell mixture; maintaining the cell mixture at a temperature below 30° C. for at least one day; reprogramming the human stem cells of the cell mixture to obtain universal hiPSCs. The universal hiPSCs includes human leukocyte antigen-1 (HLA class I) gene and human leukocyte antigen-2 (HLA class II) gene, but no HLA class I and HLA class II expressions.

The present invention relates to isolated mammalian CD11b+/PIEZO-1+ macrophage cells, neutrophil cells, and/or an isolated exosome as secreted by said cells, pharmaceutical compositions comprising said cells and/or exosomes, as well as uses thereof.

Provided are methods of expanding and isolating γδ T cells from human peripheral blood mononuclear cells (PBMCs). Also provided are isolated γδ T cells, CAR-γδ T cells, and methods of using the same.

The invention relates to pharmaceutical compositions that contain COVID-19 peptide specific cytotoxic T cells, and to methods for treating or preventing COVID-19 infection.

The present invention provides: a novel method for the production of truly fully human monoclonal antibodies against specific antigens of our choice using isolated human blood cells. These antigens may include but are not limited to peptide sequences found in c-met and TMX2 proteins; an antibody specific for c-met protein produced with said method; an antibody specific for TMX2 protein produced with said method; and a new means and method for the diagnosis, prevention and/or cancer treatment by means of the aforementioned antibodies.

A method of treating neurodegenerative diseases or disorders, especially Parkinson's disease and a method of inducing neural stem cells from peripheral blood mononuclear cells. The induced neural stem cells can express neural stem cell-related genes and differentiate into neurons, astrocytes and oligodendrocytes. The dopaminergic precursors derived from the induced neural stem cells are transplanted into the striatum of the PD mouse models without any sign of tumorigenesis, thereby improving the behaviors of the PD mouse models and slowing down the progression of Parkinson's disease.