Provided are a composition and method for inducing direct conversion from a somatic cell into a myeloid cell and use thereof, in which differentiation from a somatic cell into a myeloid cell can be efficiently induced through the expression of a single direct conversion inducer without undergoing the pluripotency stage of induced pluripotent stem cells, and thus, the composition can be widely used as an effective preventive and therapeutic agent for immune diseases.

The present application is related to cancer immunotherapy, e.g. stimulation of T cell mediated anti-tumor therapy.

The disclosure relates to an ex vivo generated population of educated macrophages specific to LPS and methods of making and using such macrophages.

Compositions and methods described in this document make use of macrophage derived engineered vesicles (MEV) having specificity for delivery to a target environment, for use in modifying macrophage phenotype and/or treating a condition. Further disclosed are MEV derived from a specific phenotype encapsulating a therapeutic agent for targeted therapeutic delivery.

Provided is a cell culture substrate for trait induction control of a macrophage, which has a pattern of unevenness on a surface to which a cell adheres, the width of the unevenness being 50 nm or more and less than 1,000 nm.

A trait induction method of undifferentiated cells is provided, including: culturing undifferentiated cells on abase material which has an uneven pattern on the surface to which the cells adhere and of which the width of the unevenness is 1 nm to 1,000 nm.

Provided are the tolerogenic dendritic cells for treating a myocardial infarction and a method for preparing the same, and more particularly, the tolerogenic dendritic cells for treating a myocardial infarction, which can treat cardiac insufficiency that occurs by excessive remodeling of left ventricle in the heart muscle recovery process after an acute myocardial infarction, and a method for preparing the tolergenic dendritic cells. According to the present invention, the inflammatory reaction and the excessive remodeling of left ventricle in the heart muscle recovery process after a myocardial infarction can be inhibited, and thus, the incidence rate of cardiac insufficiency can be significantly reduced, thereby being effectively used for treating a myocardial infarction.

Disclosed herein are new methods of producing a novel line of dendritic cells. The method comprises subjecting a sample of hematopoietic stem/precursor cells to a first feeder culture system that is supplemented with a first set of factors and a second feeder culture system supplemented with a second group of factors. The disclosure also pertains to new cell types that may be used as cancer immunotherapy.

There is described herein a method for inducing Tc22 lineage T cells from a population of CD8+ T cells, the method comprising: a) providing a population of CD8+ T cells; b) activating the population of CD8+ T cells; and c) culturing or contacting the population of CD8+ T cells with IL-6.

The present disclosure relates to compositions, nucleic acid constructs, methods and kits thereof for cell induction or reprogramming cells to the dendritic cell state or antigen presenting cell state, based, in part, on the surprisingly effect described herein of novel use and combinations of transcription factors that permit induction or reprogramming of differentiated or undifferentiated cells into dendritic cells or antigen presenting cells. Such compositions, nucleic acid constructs, methods and kits can be used for inducing dendritic cells in vitro, ex vivo, or in vivo, and these induced dendritic cells or antigen presenting cells can be used for immunotherapy applications.