1. Heat-Shock Protein 90 Controls the Expression of Cell-Cycle Genes by Stabilizing Metazoan-Specific Host-Cell Factor HCFC1
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Aneliya Antonova, Barbara Hummel, Ashkan Khavaran, Desiree M. Redhaber, Fernando Aprile-Garcia, Prashant Rawat, Kathrin Gundel, Megan Schneck, Erik C. Hansen, Jan Mitschke, Gerhard Mittler, Cornelius Miething, and Ritwick Sawarkar
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Biology (General) ,QH301-705.5 - Abstract
Summary: Molecular chaperones such as heat-shock proteins (HSPs) help in protein folding. Their function in the cytosol has been well studied. Notably, chaperones are also present in the nucleus, a compartment where proteins enter after completing de novo folding in the cytosol, and this raises an important question about chaperone function in the nucleus. We performed a systematic analysis of the nuclear pool of heat-shock protein 90. Three orthogonal and independent analyses led us to the core functional interactome of HSP90. Computational and biochemical analyses identify host cell factor C1 (HCFC1) as a transcriptional regulator that depends on HSP90 for its stability. HSP90 was required to maintain the expression of HCFC1-targeted cell-cycle genes. The regulatory nexus between HSP90 and the HCFC1 module identified in this study sheds light on the relevance of chaperones in the transcription of cell-cycle genes. Our study also suggests a therapeutic avenue of combining chaperone and transcription inhibitors for cancer treatment. : What do chaperones do in the nucleus? Antonova et al. perform a comprehensive genetic and physical interactome analysis of nuclear HSP90 in human cells. HSP90 stabilizes the HCFC1 complex at chromatin, contributing to the expression of HCFC1-targeted cell-cycle genes. The simultaneous inhibition of HSP90 and transcription is synergistic in killing cancer cells. Keywords: chaperone, HSP90, HCFC1, chromatin, cancer, synergistic inhibition
- Published
- 2019
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