Abstract: The present invention provides a small molecule treatment of diseases/conditions caused by a virus carrying a viral oncoprotein. In one embodiment, the virus which carries the viral oncoprotein is HPV. The small molecule useful herein includes thiadiazolin-3,5-dione compounds having an optionally substituted aryl group bound to one nitrogen atom of said thiadiazolin-3,5-dione compound. The small molecules may also be administered with a compound which inhibits binding of HPV E6 to p53. In one embodiment, the thiadiazolin-3,5-dione compound has formula (I), or a pharmaceutically acceptable salt, prodrug, solvate, or metabolite thereof, wherein R1 and R2 are defined herein.

Abstract: The present invention provides a small molecule treatment of diseases/conditions caused by a virus carrying a viral oncoprotein. In one embodiment, the virus which carries the viral oncoprotein is HPV. The small molecule useful herein includes thiadiazolin-3,5-dione compounds having an optionally substituted aryl group bound to one nitrogen atom of said thiadiazolin-3,5-dione compound. The small molecules may also be administered with a compound which inhibits binding of HPV E6 to p53. In one embodiment, the thiadiazolin-3,5-dione compound has formula (I), or a pharmaceutically acceptable salt, prodrug, solvate, or metabolite thereof, wherein R1 and R2 are defined herein.

Abstract: The present invention relates to a method for identifying compounds that modulate the activity of p300/CBP. Compounds of the invention are identified by designing or screening for a compound which binds to at least one amino acid residue of the newly identified lysine-CoA inhibitor binding site, L1 loop, electronegative pocket, or electronegative groove of the HAT domain of p300/CBP and testing the compound for its ability to modulate the activity of p300/CBP. Compositions and methods for preventing or treating diseases or disorders associated with p300/CBP are also provided as is a method for producing a semi-synthetic HAT domain.

Abstract: The present invention provides a small molecule treatment of diseases/conditions caused by a virus carrying a viral oncoprotein. In one embodiment, the virus which carries the viral oncoprotein is HPV. The small molecule useful herein includes thiadiazolin-3,5-dione compounds having an optionally substituted aryl group bound to one nitrogen atom of said thiadiazolin-3,5-dione compound. The small molecules may also be administered with a compound which inhibits binding of HPV E6 to p53. In one embodiment, the thiadiazolin-3,5-dione compound has formula (I), or a pharmaceutically acceptable salt, prodrug, solvate, or metabolite thereof, wherein R1 and R2 are defined herein.

Abstract: The present invention relates to a method for identifying compounds that modulate the activity of p300/CBP. Compounds of the invention are identified by designing or screening for a compound which binds to at least one amino acid residue of the newly identified lysine-CoA inhibitor binding site, L1 loop, electronegative pocket, or electronegative groove of the HAT domain of p300/CBP and testing the compound for its ability to modulate the activity of p300/CBP. Compositions and methods for preventing or treating diseases or disorders associated with p300/CBP are also provided as is a method for producing a semi-synthetic HAT domain.

Abstract: The present invention relates to a method for identifying compounds that modulate the activity of p300/CBP. Compounds of the invention are identified by designing or screening for a compound which binds to at least one amino acid residue of the newly identified lysine-CoA inhibitor binding site, L1 loop, electronegative pocket, or electronegative groove of the HAT domain of p300/CBP and testing the compound for its ability to modulate the activity of p300/CBP. Compositions and methods for preventing or treating diseases or disorders associated with p300/CBP are also provided as is a method for producing a semi-synthetic HAT domain.

Abstract: The present invention relates to a method for identifying compounds that modulate the activity of sirtuin deacetylase protein family members. Compounds of the invention are identified by designing or screening for a compound which binds to at least one amino acid residue of the newly identified nicotinamide inhibition and base exchange site of Sir2 and testing the compound for its ability to modulate the activity of the Sir2 protein. Compositions and methods for preventing or treating diseases or disorders associated with Sir2 are also provided.

Abstract: Provided are novel organometallic compounds that inhibit PI3K lipid kinase and phospho-AKT in human melanoma cells, and also inhibit the migration of melanoma cells. The present invention is also directed to methods for inhibiting cancer cell proliferation, migration or both comprising contacting a cancer cell with a disclosed organometallic kinase inhibitor. Also disclosed are methods for treating a kinase-affected disease or condition comprising administering to a subject in need thereof a therapeutically effective amount of a disclosed organometallic kinase inhibitor.

Abstract: The present invention relates to a method for identifying compounds that modulate the activity of p300/CBP. Compounds of the invention are identified by designing or screening for a compound which binds to at least one amino acid residue of the newly identified lysine-CoA inhibitor binding site, L1 loop, electronegative pocket, or electronegative groove of the HAT domain of p300/CBP and testing the compound for its ability to modulate the activity of p300/CBP. Compositions and methods for preventing or treating diseases or disorders associated with p300/CBP are also provided as is a method for producing a semi-synthetic HAT domain.

Abstract: The present invention embraces compounds that modulate the activity of sirtuin deacetylase protein family members and use thereof for modulating Sir2 activity as well as for preventing or treating diseases or disorders associated with Sir2.

Abstract: Provided are novel organometallic compounds that inhibit PI3K lipid kinase and phospho-AKT in human melanoma cells, and also inhibit the migration of melanoma cells. The present invention is also directed to methods for inhibiting cancer cell proliferation, migration or both comprising contacting a cancer cell with a disclosed organometallic kinase inhibitor. Also disclosed are methods for treating a kinase-affected disease or condition comprising administering to a subject in need thereof a therapeutically effective amount of a disclosed organometallic kinase inhibitor.

Abstract: The present invention relates to a method for identifying compounds that modulate the activity of sirtuin deacetylase protein family members. Compounds of the invention are identified by designing or screening for a compound which binds to at least one amino acid residue of the newly identified nicotinamide inhibition and base exchange site of Sir2 and testing the compound for its ability to modulate the activity of the Sir2 protein. Compositions and methods for preventing or treating diseases or disorders associated with Sir2 are also provided.