Abstract: Provided is a mammalian T cell modified to express the Phf19 at a level that is higher than the level of Phf19 expressed by a T cell that has not been modified to express Phf19. Provided is a genetically-modified mammalian T cell comprising a genetic expression vector comprising (a) virally-, bacterially-, or both virally- and bacterially-derived genetic sequences and (b) a genetic sequence encoding Phf19, whereby the genetic sequence encoding Phf19 within the vector is expressed within the T cell. Pharmaceutical compositions, methods of treating a disease, and methods of inhibiting the differentiation of T cells by epigenetic reprogramming are also provided.

Abstract: The invention provides compositions and methods for using adoptive cell therapy (ACT) for treating cancer in a mammal. Cultured T-cells are provided by (a) obtaining an isolated population of T cells, and (b) culturing the isolated T cells ex vivo in the presence of a cytokine and a lactate dehydrogenase inhibitor.

Abstract: Provided are methods of producing an isolated T memory stem cell population, the method comprising a) isolating naïve T cells from a mammal, wherein the mammal is not a mouse; b) activating the naïve T cells and expanding the numbers of naïve T cells in the presence of one or more non-specific T cell stimuli, one or more cytokines, and a GSK-3beta inhibitor. Also provided are methods of producing an isolated T memory stem cell population, the method comprising a) isolating lymphocytes from a mammal; b) sorting the lymphocytes using flow cytometry into a population comprising a phenotype comprising i) CD95+, CD45RO?, and CCR7+; and ii) CD62L+ or one or more of CD27+, CD28+, CD45RA+, and CD127+ to produce an isolated T memory stem cell population. Further embodiments of the invention provide related cells, populations of cells, pharmaceutical compositions, and methods of treating or preventing cancer.

Abstract: Provided are methods of producing an isolated T memory stem cell population, the method comprising a) isolating naïve T cells from a mammal, wherein the mammal is not a mouse; b) activating the naïve T cells and expanding the numbers of naïve T cells in the presence of one or more non-specific T cell stimuli, one or more cytokines, and a GSK-3beta inhibitor. Also provided are methods of producing an isolated T memory stem cell population, the method comprising a) isolating lymphocytes from a mammal; b) sorting the lymphocytes using flow cytometry into a population comprising a phenotype comprising i) CD95+, CD45RO?, and CCR7+; and ii) CD62L+ or one or more of CD27+, CD28+, CD45RA+, and CD127+ to produce an isolated T memory stem cell population. Further embodiments of the invention provide related cells, populations of cells, pharmaceutical compositions, and methods of treating or preventing cancer.

Abstract: Provided is an isolated or purified T cell comprising an antigen-specific receptor, wherein the antigen-specific receptor is a T cell receptor (TCR) or a chimeric antigen receptor (CAR), wherein the T cell has been modified to express a transcription factor at a level that is higher than the level of the transcription factor expressed by a T cell that has not been modified to express the transcription factor, wherein the transcription factor is V-Myb Avian Myeloblastosis Viral Oncogene Homolog (c-Myb), a functional variant of c-Myb, or a functional fragment of c-Myb. Related populations of cells, pharmaceutical compositions, methods of treating a disease, and methods of inhibiting the differentiation of T cells are also provided.

Abstract: Provided is a mammalian T cell modified to express the Phf19 at a level that is higher than the level of Phf19 expressed by a T cell that has not been modified to express Phf19. Provided is a genetically-modified mammalian T cell comprising a genetic expression vector comprising (a) virally-, bacterially-, or both virally- and bacterially-derived genetic sequences and (b) a genetic sequence encoding Phf19, whereby the genetic sequence encoding Phf19 within the vector is expressed within the T cell. Pharmaceutical compositions, methods of treating a disease, and methods of inhibiting the differentiation of T cells by epigenetic reprogramming are also provided.

Abstract: Provided are methods of producing an isolated T memory stem cell population, the method comprising a) isolating naïve T cells from a mammal, wherein the mammal is not a mouse; b) activating the naïve T cells and expanding the numbers of naïve T cells in the presence of one or more non-specific T cell stimuli, one or more cytokines, and a GSK-3beta inhibitor. Also provided are methods of producing an isolated T memory stem cell population, the method comprising a) isolating lymphocytes from a mammal; b) sorting the lymphocytes using flow cytometry into a population comprising a phenotype comprising i) CD95+, CD45RO?, and CCR7+; and ii) CD62L+ or one or more of CD27+, CD28+, CD45RA+, and CD127+ to produce an isolated T memory stem cell population. Further embodiments of the invention provide related cells, populations of cells, pharmaceutical compositions, and methods of treating or preventing cancer.

Abstract: Provided are methods of producing an isolated T memory stem cell population, the method comprising a) isolating nave T cells from a mammal, wherein the mammal is not a mouse; b) activating the nave T cells and expanding the numbers of nave T cells in the presence of one or more non-specific T cell stimuli, one or more cytokines, and a GSK-3beta inhibitor. Also provided are methods of producing an isolated T memory stem cell population, the method comprising a) isolating lymphocytes from a mammal; b) sorting the lymphocytes using flow cytometry into a population comprising a phenotype comprising i) CD95+, CD45RO?, and CCR7+; and ii) CD62L+ or one or more of CD27+, CD28+, CD45RA+, and CD127+ to produce an isolated T memory stem cell population. Further embodiments of the invention provide related cells, populations of cells, pharmaceutical compositions, and methods of treating or preventing cancer.

Abstract: Provided is an isolated or purified T cell comprising an antigen-specific receptor, wherein the antigen-specific receptor is a T cell receptor (TCR) or a chimeric antigen receptor (CAR), wherein the T cell has been modified to express a transcription factor at a level that is higher than the level of the transcription factor expressed by a T cell that has not been modified to express the transcription factor, wherein the transcription factor is V-Myb Avian Myeloblastosis Viral Oncogene Homolog (c-Myb), a functional variant of c-Myb, or a functional fragment of c-Myb. Related populations of cells, pharmaceutical compositions, methods of treating a disease, and methods of inhibiting the differentiation of T cells are also provided.

Abstract: Provided are methods of producing an isolated T memory stem cell population, the method comprising a) isolating naïve T cells from a mammal, wherein the mammal is not a mouse; b) activating the naïve T cells and expanding the numbers of naïve T cells in the presence of one or more non-specific T cell stimuli, one or more cytokines, and a GSK-3beta inhibitor. Also provided are methods of producing an isolated T memory stem cell population, the method comprising a) isolating lymphocytes from a mammal; b) sorting the lymphocytes using flow cytometry into a population comprising a phenotype comprising i) CD95+, CD45RO?, and CCR7+; and ii) CD62L+ or one or more of CD27+, CD28+, CD45RA+, and CD127+ to produce an isolated T memory stem cell population. Further embodiments of the invention provide related cells, populations of cells, pharmaceutical compositions, and methods of treating or preventing cancer.

Abstract: The invention provides an isolated or purified CD8+? T cell which comprises an antigen-specific T cell receptor and an exogenous nucleic acid encoding a microRNA-155 (miR-155) molecule, and methods of preparing the same. The invention also provides a pharmaceutical composition comprising the CD8+ T cell a carrier. Further provided is a method for treating or preventing a medical condition, such as cancer, by adoptively transferring to a mammal an amount of the CD8+? T cells effective to treat or prevent the medical condition.