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.

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.

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.

Disclosed are a heterogeneous stem cell population, a preparation method therefor, and the use thereof. Specifically, disclosed is a heterogeneous stem cell population, characterized in that stem cells in the heterogeneous stem cell population express stemness genes MYC, KLF4, GMNN, SOX2 and NANOG, and in the heterogeneous stem cell population, the ratio of stem cells expressing CD146 is 1%-50%.

The invention relates in certain embodiments to a method for generating dendritic cells by employing temperatures below 37° C. during the development of progenitor cells and immature dendritic cells. In some embodiments the invention relates to populations of dendritic cells and its use.

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.

This document provides methods and materials relating to cardiac cells. For example, this document provides methods and materials that can be used to obtain cells having the ability to differentiate into cardiomyocytes. Such cells can be used to repair damaged heart tissue. For example, cells having the ability to differentiate into cardiomyocytes can be used to repair or regenerate heart tissue in patients with a cardiac condition (e.g., ischemic cardiomyopathy, myocardial infarction, or heart failure).

The present disclosure relates to methods, cells, and compositions for preparing T cell populations and compositions for adoptive cell therapy. In particular, provided herein are methods for efficiently expanding and activating T cell populations for genetic engineering and adoptive T cell immunotherapies. Also provided are cells and compositions produced by the methods and methods of their use.

Compounds that either produced a higher proportion or greater absolute number of phenotypically identified nave, stem cell memory, central memory T cells, adaptive NK cells, and type I NKT cells are identified. Compositions and methods for modulating immune cells including T, NK, and NKT cells for adoptive cell therapies with improved efficacy are provided.