Abstract: A method of treating prostate cancer in a patient comprising administering to the patient a pharmaceutical composition including a first therapeutic including a TLK1B inhibitor, or a pharmaceutically acceptable salt, solvate, ester, amide, clathrate, stereoisomer, enantiomer, prodrug or analog thereof, and a second therapeutic including an antiandrogen or a pharmaceutically acceptable salt, solvate, ester, amide, clathrate, stereoisomer, enantiomer, prodrug or analog thereof.

Abstract: A method of treating prostate cancer in a patient comprising administering to the patient a pharmaceutical composition including a first therapeutic including a TLK1B inhibitor, or a pharmaceutically acceptable salt, solvate, ester, amide, clathrate, stereoisomer, enantiomer, prodrug or analog thereof, and a second therapeutic including an antiandrogen or a pharmaceutically acceptable salt, solvate, ester, amide, clathrate, stereoisomer, enantiomer, prodrug or analog thereof.

Abstract: A novel gene therapy for cancer has been discovered, which unlike most prior approaches, does not require specific knowledge of the cancer cells, but instead targets a general characteristic that distinguishes cancer cells from normal cells, i.e., elevated eIF4E expression. The expression of a toxin or conditional toxin such as HTK is translationally repressed in normal cells by placing a complex 5? UTR in front of its reading frame. In prototype experiments, this HTK mRNA, a transcriptional product of the BK-UTK vector, was translationally regulated so as to largely inhibit its production in normal murine and human cells, while cancer cells efficiently translated the protein, which a resulting increased sensitivity to GCV. Synthesis of the HTK protein from the BK-UTK vector (containing the 5? UTR of Fibroblast growth factor-2 (“FGF-2”) readily occurred in a panel of murine and human breast carcinoma lines, but not in normal cell lines.

Abstract: The present invention provides for methods and compositions for translation of a viral vector both in vitro and in vivo. Specifically, the present invention pertains to a translational control element placed in a vector to cause a selective translation of a viral vector.

Abstract: A novel gene therapy for cancer has been discovered, which unlike most prior appraches, does not require specific knowledge of the cancer cells, but instead targets a general characteristic that distinguishes cancer cells from normal cells, i.e., elevated eIF4E expression. The expression of a toxin or conditional toxin such as HTK is translationally repressed in normal cells by placing a complex 5′ UTR in front of its reading frame. In prototype experiments, this HTK mRNA, a transcriptional product of the BK-UTK vector, was translationally regulated so as to largely inhibit its production in normal murine and human cells, while cancer cells efficiently translated the protein, which a resulting increased sensitivity to GCV. Synthesis of the HTK protein from the BK-UTK vector (containing the 5′ UTR of Fibroblast growth factor −2 (“FGF-2”) readily occurred in a panel of murine and human breast carcinoma lines, but not in normal cell lines.

Abstract: A novel gene therapy for cancer has been discovered, which unlike most prior approaches, does not require specific knowledge of the cancer cells, but instead targets a general characteristic that distinguishes cancer cells from normal cells, i.e., elevated eIF4E expression. The expression of a toxin or conditional toxin such as HTK is translationally repressed in normal cells by placing a complex 5′ UTR in front of its reading frame. In prototype experiments, this HTK mRNA, a transcriptional product of the BK-UTK vector, was translationally regulated so as to largely inhibit its production in normal murine and human cells, while cancer cells efficiently translated the protein, which a resulting increased sensitivity to GCV. Synthesis of the HTK protein from the BK-UTK vector (containing the 5′ UTR of Fibroblast growth factor-2 (“FGF-2”) readily occurred in a panel of murine and human breast carcinoma lines, but not in normal cell lines.

Abstract: A novel gene therapy for cancer has been discovered, which unlike most prior appraches, does not require specific knowledge of the cancer cells, but instead targets a general characteristic that distinguishes cancer cells from normal cells, i.e., elevated eIF4E expression. The expression of a toxin or conditional toxin such as HTK is translationally repressed in normal cells by placing a complex 5′ UTR in front of its reading frame. In prototype experiments, this HTK mRNA, a transcriptional product of the BK-UTK vector, was translationally regulated so as to largely inhibit its production in normal murine and human cells, while cancer cells efficiently translated the protein, which a resulting increased sensitivity to GCV. Synthesis of the HTK protein from the BK-UTK vector (containing the 5′ UTR of Fibroblast growth factor −2 (“FGF-2”) readily occurred in a panel of murine and human breast carcinoma lines, but not in normal cell lines.