Abstract: Embodiments of the disclosure encompass methods and compositions related to overcoming or preventing cancer resistance to anti-apoptotic proteins, for example BH3 mimetics. The disclosure provides methods for modulating p73 to reduce cancer resistance to BH3 mimetics including inhibitors of Bcl-2, Bcl-xL, Mcl-1, Bcl-W, A1/BFL-1, or a combination thereof. In specific embodiments, targeting isoforms of p73, such as TAp73 or DNp73, results in reduction of cancer resistance to BH3 mimetics to allow effective treatment of hematological cancers.

Abstract: Provided herein are methods of using ClpP levels and mutation status as a marker for the selection and treatment of cancer patients who will respond to the administration of imipridones. Also provided are methods of treating patients having Perrault syndrome. Also provided are methods of killing bacterial cells and treating bacterial infections using imipridones.

Abstract: Triterpenoid drugs such as CDDO-Me can be used as to treat autoimmune diseases such as graft versus host disease, lupus, and lupus nephritis. Triterpenoid drugs can also be used to prevent the effects of an autoimmune disease.

Abstract: The present invention provides a pharmaceutical composition for use in treating acute myeloid leukemia (AML) and a method of treating AML in a patient in need thereof. The present invention also provides a method for predicting the sensitivity to the treatment in the patient using gene expression signature.

Abstract: Methods for determining the presence of cancer stem cells by detecting GD2 expression. Also provided are methods for reducing proliferation of cancer stem cells by contacting the cells with a GD2 targeting agent, such as an anti-GD2 antibody or a GD3 synthase inhibitor. GD3 synthase inhibitor compounds are also provided.

Abstract: Methods for determining the presence of cancer stem cells by detecting GD2 expression. Also provided are methods for reducing proliferation of cancer stem cells by contacting the cells with a GD2 targeting agent, such as an anti-GD2 antibody or a GD3 synthase inhibitor. GD3 synthase inhibitor compounds are also provided.

Abstract: CDDO-compounds in combination with other chemotherapeutic agents induce and potentiate cytotoxicity and apoptosis in cancer cell. One class of chemotherapeutic agents include retinoids. Cancer therapies based on these combination therapies are provided. Also provided are methods to treat graft versus host diseases using the CDDO compounds.

Abstract: In certain aspects, the invention relates to methods for identifying compounds which modulate Akt activity mediated by the rictor-mTOR complex and methods for treating or preventing a disorder that is associated with aberrant Akt activity.

Abstract: CDDO-compounds in combination with other chemotherapeutic agents induce and potentiate cytotoxicity and apoptosis in cancer cell. One class of chemotherapeutic agents include retinoids. Cancer therapies based on these combination therapies are provided. Also provided are methods to treat graft versus host diseases using the CDDO compounds.

Abstract: The present invention concerns methods for treating cancer, such as pancreatic cancer, using combination therapies, including the combination of a synthetic triterpenoid, e.g., CDDO-Me, and gemcitabine.

Abstract: CDDO-compounds in combination with other chemotherapeutic agents induce and potentiate cytotoxicity and apoptosis in cancer cell. One class of chemotherapeutic agents include retinoids. Cancer therapies based on these combination therapies are provided. Also provided are methods to treat graft versus host diseases using the CDDO compounds.

Abstract: This invention comprises a method of treating a subject having relapsed or refractory cancer such as leukemia with liposomal annamycin including the steps of (a) evaluating the subject to determine if the subject has relapsed or refractory cancer; (b) administering a high-dose amount of liposomal-annamycin for at least 3 days in a 7 day period. First line cancer therapy with particular reference to leukemia is both contemplated and useful.

Abstract: This invention comprises a method of treating a subject having relapsed or refractory cancer such as leukemia with liposomal annamycin including the steps of (a) evaluating the subject to determine if the subject has relapsed or refractory cancer; (b) administering a high-dose amount of liposomal-annamycin for at least 3 days in a 7 day period. First line cancer therapy with particular reference to leukemia is both contemplated and useful.

Abstract: This invention comprises a method of treating a subject having relapsed or refractory cancer such as leukemia with liposomal annamycin including the steps of (a) evaluating the subject to determine if the subject has relapsed or refractory cancer; (b) administering a high-dose amount of liposomal-annamycin for at least 3 days in a 7 day period. First line cancer therapy with particular reference to leukemia is both contemplated and useful.

Abstract: The present invention concerns the use of compositions comprising, and methods for making, genetically modified mesenchymal stem cells to treat subjects with hyperproliferative disorders. Certain embodiments allow local delivery of an agent while avoiding systemic delivery of the agent alone. Stromat precursor cells may be used to produce a biological agent locally at tumor sites. The tumor microenvironment, or other proliferation inducing microenvironment, preferentially promotes the engraftment of stromal precursors as compared to other tissues.

Abstract: This invention comprises a method of treating a subject having relapsed or refractory cancer such as leukemia with liposomal annamycin including the steps of

Abstract: CDDO-compounds in combination with other chemotherapeutic agents induce and potentiate cytotoxicity and apoptosis in cancer cell. One class of chemotherapeutic agents include retinoids. Cancer therapies based on these combination therapies are provided. Also provided are methods to treat graft versus host diseases using the CDDO compounds.