Jens Mani1, Patrick Antonietti2, Stefanie Rakel2, Roman Blaheta3, Georg Bartsch3, Axel Haferkamp3, Donat Kögel2. 1. Department of Urology, Goethe University Hospital, Theodor-Stern-Kai 7, 60590, Frankfurt am Main, Germany. jens.mani@kgu.de. 2. Experimental Neurosurgery, Neuroscience Center, Goethe University Hospital, Theodor-Stern-Kai 7, 60590, Frankfurt am Main, Germany. 3. Department of Urology, Goethe University Hospital, Theodor-Stern-Kai 7, 60590, Frankfurt am Main, Germany.
Abstract
PURPOSE: BAG3 is overexpressed in several malignancies and mediates a non-canonical, selective form of (macro)autophagy. By stabilizing pro-survival Bcl-2 proteins in complex with HSP70, BAG3 can also exert an apoptosis-antagonizing function. ABT-737 is a high affinity Bcl-2 inhibitor that fails to target Mcl-1. This failure may confer resistance in various cancers. METHODS: Urothelial cancer cells were treated with the BH3 mimetics ABT-737 and (-)-gossypol, a pan-Bcl-2 inhibitor which inhibits also Mcl-1. To clarify the importance of the core autophagy regulator ATG5 and BAG3 in ABT-737 treatment, cell lines carrying a stable lentiviral knockdown of ATG5 and BAG3 were created. The synergistic effect of ABT-737 and pharmaceutical inhibition of BAG3 with the HSF1 inhibitor KRIBB11 or sorafenib was also evaluated. Total cell death and apoptosis were quantified by FACS analysis of propidium iodide, annexin. Target protein analysis was conducted by Western blotting. RESULTS: Knockdown of BAG3 significantly downregulated Mcl-1 protein levels and sensitized urothelial cancer cells to apoptotic cell death induced by ABT-737, while inhibition of bulk autophagy through depletion of ATG5 had no discernible effect on cell death. Similar to knockdown of BAG3, pharmacological targeting of the BAG3/Mcl-1 pathway with KRIBB11 was capable to sensitize both cell lines to treatment with ABT-737. CONCLUSION: Our results show that BAG3, but not bulk autophagy has a major role in the response of bladder cancer cells to BH3 mimetics. They also suggest that BAG3 is a suitable target for combined therapies aimed at synergistically inducing apoptosis in bladder cancer.
PURPOSE:BAG3 is overexpressed in several malignancies and mediates a non-canonical, selective form of (macro)autophagy. By stabilizing pro-survival Bcl-2 proteins in complex with HSP70, BAG3 can also exert an apoptosis-antagonizing function. ABT-737 is a high affinity Bcl-2 inhibitor that fails to target Mcl-1. This failure may confer resistance in various cancers. METHODS:Urothelial cancer cells were treated with the BH3 mimetics ABT-737 and (-)-gossypol, a pan-Bcl-2 inhibitor which inhibits also Mcl-1. To clarify the importance of the core autophagy regulator ATG5 and BAG3 in ABT-737 treatment, cell lines carrying a stable lentiviral knockdown of ATG5 and BAG3 were created. The synergistic effect of ABT-737 and pharmaceutical inhibition of BAG3 with the HSF1 inhibitor KRIBB11 or sorafenib was also evaluated. Total cell death and apoptosis were quantified by FACS analysis of propidium iodide, annexin. Target protein analysis was conducted by Western blotting. RESULTS: Knockdown of BAG3 significantly downregulated Mcl-1 protein levels and sensitized urothelial cancer cells to apoptotic cell death induced by ABT-737, while inhibition of bulk autophagy through depletion of ATG5 had no discernible effect on cell death. Similar to knockdown of BAG3, pharmacological targeting of the BAG3/Mcl-1 pathway with KRIBB11 was capable to sensitize both cell lines to treatment with ABT-737. CONCLUSION: Our results show that BAG3, but not bulk autophagy has a major role in the response of bladder cancer cells to BH3 mimetics. They also suggest that BAG3 is a suitable target for combined therapies aimed at synergistically inducing apoptosis in bladder cancer.
Authors: Valerie Voss; Christian Senft; Verena Lang; Michael W Ronellenfitsch; Joachim P Steinbach; Volker Seifert; Donat Kögel Journal: Mol Cancer Res Date: 2010-06-29 Impact factor: 5.852
Authors: Jose A Karam; Yair Lotan; Pierre I Karakiewicz; Raheela Ashfaq; Arthur I Sagalowsky; Claus G Roehrborn; Shahrokh F Shariat Journal: Lancet Oncol Date: 2007-02 Impact factor: 41.316
Authors: Teresa A Colvin; Vladimir L Gabai; Jianlin Gong; Stuart K Calderwood; Hu Li; Suryaram Gummuluru; Olga N Matchuk; Svetlana G Smirnova; Nina V Orlova; Irina A Zamulaeva; Mikel Garcia-Marcos; Xiaokai Li; Z T Young; Jennifer N Rauch; Jason E Gestwicki; Shinichi Takayama; Michael Y Sherman Journal: Cancer Res Date: 2014-07-03 Impact factor: 12.701
Authors: N Mizushima; T Noda; T Yoshimori; Y Tanaka; T Ishii; M D George; D J Klionsky; M Ohsumi; Y Ohsumi Journal: Nature Date: 1998-09-24 Impact factor: 49.962
Authors: Bruno Christian Koehler; Anna-Lena Scherr; Stephan Lorenz; Christin Elssner; Nicole Kautz; Stefan Welte; Dirk Jaeger; Toni Urbanik; Henning Schulze-Bergkamen Journal: PLoS One Date: 2014-09-05 Impact factor: 3.240
Authors: Valerie D Myers; Joseph M McClung; JuFang Wang; Farzaneh G Tahrir; Manish K Gupta; Jennifer Gordon; Christopher H Kontos; Kamel Khalili; Joseph Y Cheung; Arthur M Feldman Journal: JACC Basic Transl Sci Date: 2018-02