Inhibition of Heat Shock Protein 90 Function Down-Regulates Akt Kinase and Sensitizes Tumors to Taxol

Experimental Therapeutics

Inhibition of Heat Shock Protein 90 Function Down-Regulates Akt Kinase and Sensitizes Tumors to Taxol¹

David B. Solit, Andrea D. Basso, Adam B. Olshen, Howard I. Scher and Neal Rosen²

Department of Medicine [D. B. S., H. I. S., N. R.], Program in Cell Biology [D. B. S., A. D. B., N. R.], and the Department of Epidemiology and Biostatistics [A. B. O.], Memorial Sloan-Kettering Cancer Center, New York, New York 10021

The phosphatidylinositol 3'-kinase/Akt pathway is activatedfrequently in human cancer, and has been implicated in tumorproliferation, cell survival, and resistance to apoptotic stimuli.Akt forms a complex with heat shock protein (Hsp) 90 and Cdc37,and inhibitors of Hsp90 cause Akt degradation. 17-allylamino-17-demethoxygeldanamycin(17-AGG) is an Hsp90 inhibitor currently in Phase I clinicaltrial. 17-AAG inhibits Akt activation and expression in tumors,and has antitumor activity in breast cancer xenografts. Thecombination of 17-AAG and Taxol is synergistic, and 17-AAG sensitizestumor cells to Taxol-induced apoptosis in a schedule-dependentmanner. Transfection of membrane-bound p110 PI3k prevented 17-AAGinactivation of Akt and abrogated the enhancement of Taxol-inducedapoptosis caused by the drug. 17-AAG and Taxol could be administeredtogether at their maximally tolerated doses to tumor-bearingmice. Doses of 17-AAG that induce HER2 degradation and causeAkt inactivation but have no single agent activity were effectivein sensitizing tumors to Taxol. Enhancement was schedule-dependentand maximal when Taxol and 17-AAG were administered on the sameday. These results suggest that Hsp90 inhibitors can effectivelysuppress Akt activity in animal models of human cancer at nontoxicdoses, thus sensitizing tumor cells to proapoptotic stimuli.

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