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Literature DB >> 26597576

HSF1: Guardian of Proteostasis in Cancer.

Abstract

Proteomic instability is causally related to human diseases. In guarding proteome stability, the heat shock factor 1 (HSF1)-mediated proteotoxic stress response plays a pivotal role. Contrasting with its beneficial role of enhancing cell survival, recent findings have revealed a compelling pro-oncogenic role for HSF1. However, the mechanisms underlying the persistent activation and function of HSF1 within malignancy remain poorly understood. Emerging evidence reveals that oncogenic signaling mobilizes HSF1 and that cancer cells rely on HSF1 to avert proteomic instability and repress tumor-suppressive amyloidogenesis. In aggregate, these new developments suggest that cancer cells endure chronic proteotoxic stress and that proteomic instability is intrinsically associated with the malignant state, a characteristic that could be exploited to combat cancer.

Entities: CellLine Chemical Disease Gene Species

Keywords: HSF1; amyloidogenesis; proteome homeostasis; proteotoxic stress; tumor suppression

Mesh：

Substances：

Year: 2015 PMID： 26597576 PMCID： PMC4722819 DOI： 10.1016/j.tcb.2015.10.011

Source DB: PubMed Journal: Trends Cell Biol ISSN： 0962-8924 Impact factor: 20.808

103 in total

Review 1. The heat shock factor family and adaptation to proteotoxic stress.

Authors: Mitsuaki Fujimoto; Akira Nakai
Journal: FEBS J Date: 2010-10 Impact factor: 5.542

Review 2. AMPK: positive and negative regulation, and its role in whole-body energy homeostasis.

Authors: D Grahame Hardie
Journal: Curr Opin Cell Biol Date: 2014-09-26 Impact factor: 8.382

Review 3. The Ras-ERK pathway: understanding site-specific signaling provides hope of new anti-tumor therapies.

Authors: Fernando Calvo; Lorena Agudo-Ibáñez; Piero Crespo
Journal: Bioessays Date: 2010-05 Impact factor: 4.345

4. MEK guards proteome stability and inhibits tumor-suppressive amyloidogenesis via HSF1.

Authors: Zijian Tang; Siyuan Dai; Yishu He; Rosalinda A Doty; Leonard D Shultz; Stephen Byers Sampson; Chengkai Dai
Journal: Cell Date: 2015-02-12 Impact factor: 41.582

5. Quercetin suppresses heat shock response by down regulation of HSF1.

Authors: N Nagai; A Nakai; K Nagata
Journal: Biochem Biophys Res Commun Date: 1995-03-28 Impact factor: 3.575

6. The heat shock transcription factor 1 as a potential new therapeutic target in multiple myeloma.

Authors: Tanja Heimberger; Mindaugas Andrulis; Simone Riedel; Thorsten Stühmer; Heike Schraud; Andreas Beilhack; Thomas Bumm; Bjarne Bogen; Hermann Einsele; Ralf C Bargou; Manik Chatterjee
Journal: Br J Haematol Date: 2012-12-18 Impact factor: 6.998

7. Heat shock factor 1 is required for migration and invasion of human melanoma in vitro and in vivo.

Authors: Yoshitaka Nakamura; Mitsuaki Fujimoto; Sonoko Fukushima; Akiko Nakamura; Naoki Hayashida; Ryosuke Takii; Eiichi Takaki; Akira Nakai; Masahiko Muto
Journal: Cancer Lett Date: 2014-09-03 Impact factor: 8.679

Review 8. Ecology meets cancer biology: the cancer swamp promotes the lethal cancer phenotype.

Authors: Sarah R Amend; Kenneth J Pienta
Journal: Oncotarget Date: 2015

9. HSF1 drives a transcriptional program distinct from heat shock to support highly malignant human cancers.

Authors: Marc L Mendillo; Sandro Santagata; Martina Koeva; George W Bell; Rong Hu; Rulla M Tamimi; Ernest Fraenkel; Tan A Ince; Luke Whitesell; Susan Lindquist
Journal: Cell Date: 2012-08-03 Impact factor: 41.582

10. Heat shock factor 1 is a powerful multifaceted modifier of carcinogenesis.

Authors: Chengkai Dai; Luke Whitesell; Arlin B Rogers; Susan Lindquist
Journal: Cell Date: 2007-09-21 Impact factor: 41.582

71 in total

1. The Molecular Chaperone Heat Shock Protein 70 Controls Liver Cancer Initiation and Progression by Regulating Adaptive DNA Damage and Mitogen-Activated Protein Kinase/Extracellular Signal-Regulated Kinase Signaling Pathways.

Authors: Wonkyoung Cho; Xiongjie Jin; Junfeng Pang; Yan Wang; Nahid F Mivechi; Demetrius Moskophidis
Journal: Mol Cell Biol Date: 2019-04-16 Impact factor: 4.272

2. TRIM11 cooperates with HSF1 to suppress the anti-tumor effect of proteotoxic stress drugs.

Authors: Liang Chen; Xiaolu Yang
Journal: Cell Cycle Date: 2018-12-26 Impact factor: 4.534

3. Emerging Cancer Therapeutic Targets in Protein Homeostasis.

Authors: Prabhakar Bastola; Derek B Oien; Megan Cooley; Jeremy Chien
Journal: AAPS J Date: 2018-08-27 Impact factor: 4.009

4. Heat Shock Factor 1 Is a Direct Antagonist of AMP-Activated Protein Kinase.

Authors: Kuo-Hui Su; Siyuan Dai; Zijian Tang; Meng Xu; Chengkai Dai
Journal: Mol Cell Date: 2019-09-24 Impact factor: 17.970

Review 5. The heat-shock, or HSF1-mediated proteotoxic stress, response in cancer: from proteomic stability to oncogenesis.

Authors: Chengkai Dai
Journal: Philos Trans R Soc Lond B Biol Sci Date: 2018-01-19 Impact factor: 6.237