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

A plant fat-based scaffold for growing cell-based meat products for consumption. The scaffold comprises primarily plant fats or waxes in addition to cell binding proteins and optional additional components that assist in the growth of cultivated animal cells. The scaffold can exist in both a liquified state during sterilization and a solid state during the formation of the scaffold, the seeding of the cultivated cells, and the cellular growth phase. The scaffold is capable of remaining in the final product for consumption or is partially or completely melted out of the final product and recycled into raw material for forming new scaffolds.

The invention provides tissue culture system for primary cells (e.g. normal mammalian primary epithelial progenitors). This system includes: a) a serum-free, chemically defined cell culture media; and, b) methods for isolation and in vitro long-term propagation of primary cells (e.g. primary epithelial cells). Primary cells so isolated and cultured can be kept undifferentiated and proliferate for many weeks (>15 weeks) or population doubling (>35 PD) without senescence, or any detectable genetic alterations. Upon changing media/culture conditions, these cells can be induced to differentiate. The invention also provides methods to transform normal primary cells so cultured into “cancer stem cells.” The genetically defined cancer stem cell tumor model mimics the behavior of the disease closely, e.g., the cells are invasive, hormone responsive and metastatic when injected into mice. The tumor cells express genes that are specific to cancer stem cells identified in patient samples.

The present invention relates to methods for reprogramming somatic cells into pluripotent stem cell-like cells. Such cells may express pluripotency inducing genes including Oct4, Nanog and Sox2 without introducing exogeneous genes, proteins, or chemicals. The discovery that the inhibition of mechanosensitive and stretch-activated ion channels in somatic cells specifically activates pluripotency inducing factor genes inspired the cell reprogramming culture methods in which somatic cells were incubated with the inhibitor, GsMTX4, against mechanosensitive and stretch-activated ion channels, cultured on the soft hydrogel surface, or treated with cholesterol depletion substance, methyl-beta-cyclodextrin (MβCD). Described methods produce pluripotent stem cell-like cells and subsequently re-differentiated cells, which include adipocytes, osteocytes, neuronal cells. Methods may be combined to increase the efficiency of the somatic cell reprogramming A somatic cell reprogramming kit was also created with tissue culture dishes casted with hydrogel (dehydrated) and MβCD.

A material for culturing cells is disclosed. The material contains a bulk-modified elastomer having a Shore hardness (DIN EN ISO 868) in a range of Shore00 20 to Shore A 80 and comprising a plurality of fatty acid moieties covalently bound to the elastomer bulk, wherein the carboxylic acid groups of said moieties are available on an external surface of said material to provide said binding, and wherein the bulk-modified elastomer is obtained by forming a composition comprising a vinyl-functionalized or a hydride-functionalized elastomer or at least one precursor thereof, a free of saponified unsaturated fatty acid in a range of 0.5-5% by weight of the total weight of the a vinyl-functionalized or a hydride-functionalized elastomer or at least one precursor thereof and a cross-linking catalyst in a mold having a polar inner surface; and bulk-modifying the vinyl-functionalized or the hydride-functionalized elastomer by covalently binding the free or saponified unsaturated fatty acid to the elastomer bulk in said mold by a cross-linking reaction between a vinyl group or a hydride group of the elastomer and an unsaturated carbon-carbon bond of the unsaturated fatty acid to obtain the material. Also disclosed are a fluidic device module and fluidic device, a cell culturing method and a drug testing method.

The presently disclosed subject matter relates to compositions and methods useful for assessing fertilization competency in male and female gametes. In some embodiments, methods, kits, and compositions for identifying, selecting, and functionally evaluating fertilization competent sperm cells are provided, wherein the methods, kits, and compositions employ a reagent that selectively binds phosphatidylserine (PS).

The present invention relates to: a composition for promoting the proliferation of pluripotent stem cells, containing, as an active ingredient, cP1P or a pharmaceutically acceptable salt thereof; and a composition added to a stem cell culture liquid. When culturing stem cells by using a composition for promoting the proliferation of stem cells and a composition added to a stem cell culture medium, according to the present invention, sternness can be strengthened, growth can be promoted, and apoptosis can be inhibited.

Described herein are efficiently dissolving tablets of dry cell culture media, feeds, supplements, media subgroups, buffer concentrates, or media components useful in culturing cells or microorganisms, methods of manufacturing, and methods of use. In particular, formulations of tableted cell culture media feeds, supplements, media subgroups, or buffer concentrates are described.

This application provides improved cell culture media and cell culture methods comprising N-acetylcysteine. These improved cell culture media and cell culture methods increase cell viability, cellular growth rate and/or reduce cell doubling time of cholesterol auxotrophic cells, myeloma cells, and hybridoma cells.

Methods for generating multipotent radial glia-like cells and astrocyte-like cells from human pluripotent stem cells are provided along with the related compositions.