Abstract: The present invention provides pluripotent and multipotent stem cells, including embryonic stem cells, induced pluripotent stem cells, adult stem cells and other progenitor cells, that have been modified to contain an inducible cancer-specific suicide gene construct that, upon induction, selectively kills stem- or progenitor-cell-derived cancerous cells without significant effect on healthy tissues or other (noncancerous) cells derived from such cells. This suicide gene construct expresses a dominant negative MYC-interfering protein (D-MIP) that acts as a tumor suppressor in cancer cells without significant deleterious effects on healthy cells and tissues. The suicide gene construct can also be used in gene therapies that produce cancers arising in association with the presence of the gene therapy vector and likewise discriminates between killing of cancerous cells and non-cancerous cells modified with a gene therapy vector.

Abstract: The present invention relates to microRNAs (miRNAs) which are associated with cancer, particularly including hematologic malignancies, and particularly T-cell acute lymphoblastic leukemia (T-ALL), and to the assessment and modulation thereof in the treatment and management of cancer. The present invention is directed to methods and compositions for diagnosing and treating cancer, particularly T-ALL, by modulating miRNAs, and the use of miRNAs and antagonists thereof, particularly antagomirs, for predicting and assessing response to treatment, in assays for isolating and selecting antagonists, and as compositions for the treatment and management of cancer. Methods and compositions are provided for treatment or alleviation of cancer, particularly T-ALL, with antagonists/antagomirs of miRNAs, particularly one or more of miR-19b, miR-20a, miR26, miR92, miR148 and miR223.

Abstract: The present disclosure identifies a novel subtype of follicular lymphoma (FL) characterized by dysregulation of the cyclin/CDK/RB proliferative pathway. This subtype of FL is associated with increased malignancy and mortality, relative to FL which is not associated with cell cycle dysregulation. Accordingly, this disclosure presents novel methods to subtype FL and stratify patient risk by detection of biomarkers associated with RB inactivation. This disclosure further presents novel therapies for the treatment of FL subtyped by inactivation of RB.

Abstract: The present disclosure identifies a novel subtype of follicular lymphoma (FL) characterized by dysregulation of the cyclin/CDK/RB proliferative pathway. This subtype of FL is associated with increased malignancy and mortality, relative to FL which is not associated with cell cycle dysregulation. Accordingly, this disclosure presents novel methods to subtype FL and stratify patient risk by detection of biomarkers associated with RB inactivation. This disclosure further presents novel therapies for the treatment of FL subtyped by inactivation of RB.

Abstract: The present invention is directed to methods and compositions for treating cancer, including, hematologic malignancies, such as B-cell malignancies, with anti-tumor antibody-tumor suppressor fusion proteins in order to selectively restore tumor suppressor gene function to cancer cells in which such tumor suppressor gene function has been lost. The present invention is also directed to methods and compositions for diagnosing cancer and for predicting and assessing response to treatment.

Abstract: The present disclosure identifies a novel subtype of follicular lymphoma (FL) characterized by dysregulation of the cyclin/CDK/RB proliferative pathway. This subtype of FL is associated with increased malignancy and mortality, relative to FL which is not associated with cell cycle dysregulation. Accordingly, this disclosure presents novel methods to subtype FL and stratify patient risk by detection of biomarkers associated with RB inactivation. This disclosure further presents novel therapies for the treatment of FL subtyped by inactivation of RB.

Abstract: The present invention relates to microRNAs (miRNAs) which are associated with cancer, particularly including hematologic malignancies, and particularly T-cell acute lymphoblastic leukemia (T-ALL), and to the assessment and modulation thereof in the treatment and management of cancer. The present invention is directed to methods and compositions for diagnosing and treating cancer, particularly T-ALL, by modulating miRNAs, and the use of miRNAs and antagonists thereof, particularly antagomirs, for predicting and assessing response to treatment, in assays for isolating and selecting antagists, and as compositions for the treatment and management of cancer. Methods and compositions are provided for treatment or alleviation of cancer, particularly T-ALL, with antagonists/antagomirs of miRNAs, particularly one or more of miR-19b, miR-20a, miR26, miR92, miR148 and miR223.