In some aspects, isolated transgenic cells (e.g., transgenic T cells) are provided that comprise or express a transgene and DHFR.sup.FS and/or TYMS.sup.SS. Methods for selecting transgeneic cells are also provided.

The present invention relates to directed differentiation and maturation of mammalian hepatocytes, such as human hepatocytes. The hepatocyte obtained in accordance with the present invention show a phenotype which is more similar to that of primary hepatocytes than previously shown. In particular, the present invention relates to exposure of mammalian hepatocytes, such as human hepatocytes, to at least one maturation factor selected from the group consisting of Src kinase inhibitors, vitamin D including precursors, metabolites and analogs thereof, hypoxia inducing compounds, sphingosine and sphingosine derivatives, activators of peroxisome proliferator-activated receptors (PPARs), platelet-activating factor (PAF), PKC inhibitors, and combinations thereof.

The present invention relates to in vitro methods of inducing gametogenesis by producing meiotically competent cells. Reagents and kits for use in the methods of the invention are also provided. The present invention finds use in the field of medicine, particularly in the study and treatment of infertility.

Vacuole- or exosome-inducing indole-based chalcone and substituted triazole-hydrazone compounds that induce endosomal vacuolization and increase exosome yield, but do not trigger growth arrest or cell death, and methods of making and using are described.

The current invention provides for methods and systems of inducing cell cycle exit and terminal differentiation in stem cells undergoing differentiation into various mature cell types in particular pancreatic endocrine cells. The current invention also provides for methods and systems of inducing differentiation of pancreatic endocrine cells from stem cells. The invention also provides for the cells produced by the methods that are suitable for transplantation or grafting into a subject for the prevention and/or treatment of disease, and useful for basic research and drug testing.

Directed differentiation and maturation of mammalian hepatocytes, such as human hepatocytes. The hepatocyte obtained show a phenotype which is more similar to that of primary hepatocytes than previously shown. In particular, exposure of mammalian hepatocytes, such as human hepatocytes, to at least one maturation factor selected from the group consisting of Src kinase inhibitors, vitamin D including precursors, metabolites and analogs thereof, hypoxia inducing compounds, sphingosine and sphingosine derivatives, activators of peroxisome proliferator-activated receptors (PPARs), platelet-activating factor (PAF), PKC inhibitors, and combinations thereof.

Disclosed are methods for the isolation of tumor-specific immune cells from subjects that have a malignant tumor and have received local administration of a composition comprising taxane particles to the malignant tumor, and use of such isolated immune cells in compositions for adoptive cell therapy and cancer vaccines.

Disclosed herein are methods for reprogramming a somatic cell into a pluripotent stem cell by contacting the somatic cell with one or more antifolate agents, with or without methionine, in vitro for a period of time sufficient to reprogramming the somatic cell and selecting and growing the cells that express one or more stem cell markers. Also disclosed are induced pluripotent stem cells obtained from somatic cells.

A novel family of human mitochondrial RNAs, referred to as chimeric RNAs, which are differentially expressed in normal, pre-cancer and cancer cells, are described. Oligonucleotides targeted to the chimeric RNAs are provided. The described oligonucleotides or their analogs can be used for cancer diagnostics and cancer therapy as well as for research. In one embodiment of this invention, these oligonucleotides hybridize with the sense or with the antisense mitochondrial chimeric RNAs, and the result of the hybridization is useful to differentiate between normal proliferating cells, pre-cancer cells and cancer cells. In another embodiment of the invention, the compositions comprise oligonucleotides that hybridize with the human chimeric RNAs resulting in cancer cell and pre-cancer cell death, while there is no effect in normal cells, constituting therefore, a novel approach for cancer therapy.

The disclosure concerns a method for cancer treatment by in vivo priming and activation of natural killer cells for achieving tumor cell lysis. The method includes introducing into a patient a priming tumor cell preparation (PTCP) derived from a first tumor cell line, which is irradiated to inactivate the first tumor cells or a membrane preparation thereof, the first tumor cells having known priming ligands on the membrane surface thereof. The patient's rest NK cells are contacted by the PTCP in vivo, resulting in primed NK cells, which are characterized by upregulation of CD69, shedding of CD16, or a combination of CD69+ and CD16. These primed NK cells then contact second tumor cells, the cancer, and are configured to lyse and kill the second tumor cells.