Abstract: The invention provides compositions, kits, and methods for inducing growth arrest, differentiation, or senescence of cancer cells that express thymine DNA glycosylase, and treating the cancer accordingly. The methods comprise inhibiting expression or biologic activity of thymine DNA glycosylase in cancer cells. Inhibition of thymine DNA glycosylase in cancer cells may induce the cells to revert to a healthy, non-cancerous phenotype and/or may induce the cells to senesce. Cancer cells include melanoma, lung, prostate, pancreatic, ovarian, brain, colon, recto-sigmoid colon, and breast cancer cells.

Abstract: The invention provides compositions, kits, and methods for inducing growth arrest, differentiation, or senescence of cancer cells that express thymine DNA glycosylase, and treating the cancer accordingly. The methods comprise inhibiting expression or biologic activity of thymine DNA glycosylase in cancer cells. Inhibition of thymine DNA glycosylase in cancer cells may induce the cells to revert to a healthy, non-cancerous phenotype and/or may induce the cells to senesce. Cancer cells include melanoma, lung, prostate, pancreatic, ovarian, brain, colon, recto-sigmoid colon, and breast cancer cells.

Abstract: The invention provides compositions, kits, and methods for inducing growth arrest, differentiation, or senescence of cancer cells that express thymine DNA glycosylase, and treating the cancer accordingly. The methods comprise inhibiting expression or biologic activity of thymine DNA glycosylase in cancer cells. Inhibition of thymine DNA glycosylase in cancer cells may induce the cells to revert to a healthy, non-cancerous phenotype and/or may induce the cells to senesce. Cancer cells include melanoma, lung, prostate, pancreatic, ovarian, brain, colon, recto-sigmoid colon, and breast cancer cells.

Abstract: This application describes compounds, compositions, and combinations thereof that can be used to treat cancer, such as cancers with and without BRAF and/or KRAS mutations.

Abstract: This application describes compounds, compositions, and combinations thereof that can be used to treat cancer, such as cancers with and without BRAF and/or RAS mutations.

Abstract: This application describes compounds, compositions, and combinations thereof that can be used to treat cancer, such as cancers with and without BRAF and/or RAS mutations.

Abstract: This application describes compounds, compositions, and combinations thereof that can be used to treat cancer, such as cancers with and without BRAF and/or KRAS mutations.

Abstract: Methods for treating tumors comprise contacting tumor cells expressing the vitamin D receptor with a vitamin D receptor ligand that inhibits homologous recombination in the tumor cells, and contacting the tumor cells with an amount of a Poly(ADP) Ribose Polymerase 1 (PARP-1) inhibitor. Inhibiting homologous recombination produces a synergistic therapeutic effect between the vitamin D receptor ligand and PARP-1 inhibitor, and may overcome PARP-1 resistance in killing tumor cells.

Abstract: This application describes compounds, compositions, and combinations thereof that can be used to treat cancer, such as cancers with and without BRAF and/or RAS mutations.

Abstract: The invention provides methods for enhancing the cytotoxicity of DNA damage in cancer cells that express thymine DNA glycosylase, and treating tumors accordingly. The methods comprise inhibiting the expression or biologic activity of thymine DNA glycosylase, and inducing DNA damage in the cancer cells. DNA damage may be induced by administration of bendamustine or gemcitabine to the cancer cells.

Abstract: Methods for treating tumors comprise contacting tumor cells expressing the vitamin D receptor with a vitamin D receptor ligand that inhibits homologous recombination in the tumor cells, and contacting the tumor cells with an amount of a Poly(ADP) Ribose Polymerase 1 (PARP-1) inhibitor. Inhibiting homologous recombination produces a synergistic therapeutic effect between the vitamin D receptor ligand and PARP-1 inhibitor, and may overcome PARP-1 resistance in killing tumor cells.

Abstract: Methods for treating tumors comprise contacting tumor cells expressing the vitamin D receptor with a vitamin D receptor ligand that inhibits homologous recombination in the tumor cells, and contacting the tumor cells with an amount of a Poly(ADP) Ribose Polymerase 1 (PARP-1) inhibitor. Inhibiting homologous recombination produces a synergistic therapeutic effect between the vitamin D receptor ligand and PARP-1 inhibitor, and may overcome PARP-1 resistance in killing tumor cells.

Abstract: The invention provides compositions, kits, and methods for inducing growth arrest, differentiation, or senescence of cancer cells that express thymine DNA glycosylase, and treating the cancer accordingly. The methods comprise inhibiting expression or biologic activity of thymine DNA glycosylase in cancer cells. Inhibition of thymine DNA glycosylase in cancer cells may induce the cells to revert to a healthy, non-cancerous phenotype and/or may induce the cells to senesce. Cancer cells include melanoma, lung, prostate, pancreatic, ovarian, brain, colon, recto-sigmoid colon, and breast cancer cells.

Abstract: Methods for treating tumors comprise contacting tumor cells expressing the vitamin D receptor with a vitamin D receptor ligand that inhibits homologous recombination in the tumor cells, and contacting the tumor cells with an amount of a Poly(ADP) Ribose Polymerase 1 (PARP-1) inhibitor. Inhibiting homologous recombination produces a synergistic therapeutic effect between the vitamin D receptor ligand and PARP-1 inhibitor, and may overcome PARP-1 resistance in killing tumor cells.

Abstract: Methods for treating tumors comprising cells expressing the vitamin D receptor are provided, and comprise inhibiting the expression or the biologic activity of the vitamin D receptor in the tumor cells, and/or inhibiting the expression or the biologic activity of a constituent of the vitamin D receptor signaling pathway in the tumor cells, and administering to the tumor cells an effective amount of gemcitabine.

Abstract: The invention provides methods for enhancing the cytotoxicity of DNA damage in cancer cells that express thymine DNA glycosylase, and treating tumors accordingly. The methods comprise inhibiting the expression or biologic activity of thymine DNA glycosylase, and inducing DNA damage in the cancer cells. DNA damage may be induced by administration of bendamustine or gemcitabine to the cancer cells.

Abstract: Methods for treating tumors comprising cells expressing the vitamin D receptor are provided, and comprise inhibiting the expression or the biologic activity of the vitamin D receptor in the tumor cells, and/or inhibiting the expression or the biologic activity of a constituent of the vitamin D receptor signaling pathway in the tumor cells, and administering to the tumor cells an effective amount of gemcitabine.