Fresh human pancreas tissue can be used as a source of cells when to identify and select a non-stem cell population that is predisposed to be a source for surrogate pancreatic cells that can be used in treating insulin-dependent diabetes. The progenitors of these surrogate pancreatic cells have no reprogramming genes integrated into their genomes, differentiate to the pancreatic lineage pursuant to a protocol that employs only defined reagents, and are substantially unable to differentiate to the mesodermal lineage.

A method for bone regeneration which comprises administering a short term release composition into a bone area of a subject in need thereof, wherein the composition comprises a poly(lactic-co-glycolic acid) cross-linked alendronate (PLGA-ALN), wherein the composition releases the alendronate into the bone area, wherein the bone tissue of the bone area is exposed in situ to a therapeutically effective amount of the alendronate over 9 days.

Described herein are cells, cell culture methods, and cell culture media compositions useful for producing and maintaining iPSC-derived cell lines that are of higher purity and maintain cell type integrity better than current iPSC-derived cell lines. Also disclosed are methods of using the described cells and media, such as therapeutic methods of use for the described cells. The described cells include iPSC-derived mesodermal precursor cells (MPC), which itself may differentiate into at least four different cell types. When cultured under appropriate conditions, the mesodermal precursor cells can be used to produce hematopoietic stem cells (HSC), mesenchymal stem cells (MSC), smooth muscle cells (SMC), or unlimited functional endothelial cells (UFEC). One characteristic that makes the described cells desirable is that they can be maintained in culture for a number of days, or passages, without changing phenotype through differentiation.

An in vitro method of expanding T cells includes isolating T cells from a blood sample of a human subject, activating the isolated T cells in the presence of an aminobisphosphonate and/or a feeder cell and at least one cytokine, expanding the activated T cells, and optionally restimulating the expanded T cells.

According to the present disclosure, there is provided a method for producing stem cells, which includes applying a phosphate to blood cells and inducing stem cells from the blood cells. The phosphate may be an intermediate product or a final product in a non-mevalonate pathway. The phosphate may be (E)-4-hydroxy-3-methyl-but-2-enyl pyrophosphate.

A cell culture medium comprising adenosine triphosphate; a carrier protein; cholesterol, linoleic acid, and lipoic acid; glutathione; at least one nucleotide salvage pathway precursor base; phosphoethanolamine; selenium; transferrin; triiodothyronine; all-trans-retinoic acid (ATRA) and vitamin C; zinc, magnesium, and copper; an agent that increases intracellular cAMP; epidermal growth factor (EGF); hydrocortisone; insulin; and charcoal stripped fetal bovine serum, wherein said cell culture medium is substantially free, if not entirely free, of vitamin D, androgenic hormones, androgenic ligands, estrogenic hormones, estrogenic ligands, and/or androgenic receptors.

A cell culture medium comprising adenosine triphosphate; a carrier protein; cholesterol, linoleic acid, and lipoic acid; glutathione; at least one nucleotide salvage pathway precursor base; phosphoethanolamine; selenium; transferrin; triiodothyronine; all-trans-retinoic acid (ATRA) and vitamin C; zinc, magnesium, and copper; an agent that increases intracellular cAMP; epidermal growth factor (EGF); hydrocortisone; insulin; and charcoal stripped fetal bovine serum, wherein said cell culture medium is substantially free, if not entirely free, of vitamin D, androgenic hormones, androgenic ligands, estrogenic hormones, estrogenic ligands, and/or androgenic receptors.

Mesenchymal precursors cells have been isolated from perivascular niches from a range of tissues utilizing a perivascular marker. A new mesenchymal precursor cell phenotype is described characterized by the presence of the perivascular marker 3G5, and preferably also alpha smooth muscle actin together with early developmental markers such as MUC 18, VCAM-1 and STRO-1.sup.bri. The perivascular mesenchymal precursor cell is multipotential and is shown to form, vascular tissue, as well as bone marrow dentin and pulp. A method of enriching using cell sorting based on these markers is also described.

The present invention provides a compounded cell culture medium powder formulation comprising: a basal medium powder and a cell culture media supplement, wherein the cell culture media supplement comprises and one or more salts; one or more growth factors; one or more inorganic ions; an amino acid supplement comprising one or more of asparagine, glutamine, histidine, and serine; one or more buffers; and one or more anti-foaming agents. The invention further provides methods of making a compounded cell culture medium powder formulation methods of making a cell culture medium for growing mammalian cells and methods of producing a protein of interest by culturing cells in the cell culture medium and isolating the protein of interest.

[Problem] To provide a medium suitable for long-term storage, i.e., that ensures sufficient quality retention period, for growing obligate anaerobic bacteria or microaerobic bacteria under aerobic environment, and to provide a method of easily detecting obligate anaerobic bacteria or microaerobic bacteria using said medium.

[Means for solving the problem] A long-term storage medium comprising dithiothreitol and/or ascorbic acid as a reducing agent in a basal medium, for culturing obligate anaerobic bacteria or microaerobic bacteria under aerobic environment, and a method of detecting obligate anaerobic bacteria or microaerobic bacteria using said medium.