Research Papers:
Targeting Hsp27/eIF4E interaction with phenazine compound: a promising alternative for castration-resistant prostate cancer treatment
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Abstract
Hajer Ziouziou1,2,3,4,7, Claudia Andrieu1,2,3,4, Erik Laurini5,6, Sara Karaki1,2,3,4, Maurizio Fermeglia5,6, Ridha Oueslati7, David Taieb1,2,3,4, Michel Camplo6, Olivier Siri8, Sabrina Pricl5,6, Maria Katsogiannou1,2,3,4 and Palma Rocchi1,2,3,4
1Inserm, UMR1068, CRCM, Marseille, France
2Institut Paoli-Calmettes, Marseille, France
3Aix-Marseille Université, Marseille, France
4CNRS, UMR7258, CRCM, Marseille, France
5Molecular Simulation Engineering (MOSE) Laboratory, DEA, University of Trieste, Trieste, Italy
6National Interuniversity Consortium for Material Science and Technology (INSTM), Research Unit MOSE-DEA, University of Trieste, Trieste, Italy
7Unit of Immunology Microbiology Environmental and Carcinogenesis (IMEC), Science Faculty of Bizerte, University of Carthage, Bizerte, Tunisia
8Aix-Marseille Université, CNRS, Centre Interdisciplinaire de Nanoscience de Marseille, UMR 7325, Marseille, France
Correspondence to:
Palma Rocchi, email: [email protected]
Keywords: prostate cancer, Hsp27/eIF4E interaction, protein-protein interaction inhibition
Received: March 28, 2017 Accepted: July 25, 2017 Published: August 24, 2017
ABSTRACT
The actual strategy to improve current therapies in advanced prostate cancer involves targeting genes activated by androgen withdrawal, either to delay or prevent the emergence of the castration-refractory phenotype. However, these genes are often implicated in several physiological processes, and long-term inhibition of survival proteins might be accompanied with cytotoxic effects. To avoid this problem, an alternative therapeutic strategy relies on the identification and use of compounds that disrupt specific protein-protein interactions involved in androgen withdrawal. Specifically, the interaction of the chaperone protein Hsp27 with the initiation factor eIF4E leads to the protection of protein synthesis initiation process and enhances cell survival during cell stress induced by castration or chemotherapy. Thus, in this work we aimed at i) identifying the interaction site of the Hsp27/eIF4E complex and ii) interfere with the relevant protein/protein association mechanism involved in castration-resistant progression of prostate cancer. By a combination of experimental and modeling techniques, we proved that eIF4E interacts with the C-terminal part of Hsp27, preferentially when Hsp27 is phosphorylated. We also observed that the loss of this interaction increased cell chemo-and hormone-sensitivity. In order to find a potential inhibitor of Hsp27/eIF4E interaction, BRET assays in combination with molecular simulations identified the phenazine derivative 14 as the compound able to efficiently interfere with this protein/protein interaction, thereby inhibiting cell viability and increasing cell death in chemo- and castration-resistant prostate cancer models in vitro and in vivo.
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