A somatic stem cell that is CD10+, CXCR4+, and CD31+ and another somatic stem cell that is CD105+, CD44+, and nestin+. Also disclosed are both a method of preparing these stem cells and a method of using them to treat degenerative diseases, e.g., a muscle-degenerative disease. The invention further includes making and using liver cells derived from the somatic cell that is CD105+, CD44+, and nestin+.

Provided herein are methods of producing erythrocytes from hematopoietic cells, particularly hematopoietic cells from placental perfusate in combination with hematopoietic cells from umbilical cord blood, wherein the method results in accelerated expansion and differentiation of the hematopoietic cells to more efficiently produce administrable erythrocytes. Further provided herein is a bioreactor in which hematopoietic cell expansion and differentiation takes place.

The present invention relates to methods for deriving human hematopoietic progenitors, primitive macrophages, and microglial cells from human pluripotent stem cells. In particular, provided herein are highly efficient and reproducible methods of obtaining human primitive macrophages and microglia from human pluripotent stem cells, where the primitive macrophages and microglia can be suitable for clinically relevant therapeutic applications.

The present invention is directed to methods of inducing a phenotypic change in a population of monocytes and; or macrophages. The method includes administering to the population of monocytes and/or macrophages, a macrophage stimulating agent coupled to a carrier molecule, wherein the carrier molecule facilitates macropinocytic uptake of the agent by monocytes and macrophages in the population and is defective in neonatal Fc receptor binding, wherein the administering induces a phenotypic change in the monocytes and macrophages in the population.

The invention provides methods for using Umbilical Cord Lining Stem Cells (ULSCs) to produce therapeutic factors including growth factors, cytokines, chemokines and extracellular matrix components. ULSCs are mesenchymal stem cells isolated from umbilical cord lining. They can be efficiently propagated and expanded in vitro. Under specific conditions ULSCs produce useful therapeutic factors that can be used to treat injuries and degenerative conditions.

Cell populations, compositions, and methods are provided relating to target priming of macrophage cells. The macrophages, once primed or activated with a microorganism, can be used to prevent or treat infection by the microorganism. Likewise, once primed or activated by a tumor cell or tumor antigen, the macrophage cell can be used to prevent or treat tumor of the same kind. The priming can be carried out in vitro or ex vivo. The macrophages can be isolated from the subject of disease prevention or treatment.

The present disclosure provides a modified cell of leukemic origin comprising a downregulated CD47 pathway. Methods for using the modified cells in treating cancer alone, or in combination with CD47 blockade are also provided. Also provided are compositions comprising a modified cell of leukemic origin, pharmaceutical compositions and formulations thereof, and methods of producing the modified cells.

A drug and, more particularly, to a drug for treating inflammatory and dysimmune response. The present invention also relates to a drug for treating graft-versus-host disease. Thus, the present invention relates in particular to a cell expressing CD33, CD11b, CD14, CD163, CD206, HLA-DR, CD44, CD31, CCR5 and CD105.

The present invention relates to a serum-free conditioned medium that solves the drawbacks mentioned in the prior art, as it does not require prior handling of the cells, and it furthermore allows starting from a large population with no additional cost. This medium favors in vitro proliferation and conservation of the pluripotency potential that allows maintaining a state that is undifferentiated with respect to the subpopulation of cancer stem cells (CSCs) and in turn does not allow survival of the differentiated cells.

Factor rich compositions produced from umbilical cord (UC) mesenchymal stem cells (MSCs) are described. Secretory UC MSCs in serum free culture conditions produce a factor rich conditioned medium which may be concentrated and filtered to obtain clinical grade products.