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Items: 1 to 20 of 96


Heat stress induces epithelial plasticity and cell migration independent of heat shock factor 1.

Lang BJ, Nguyen L, Nguyen HC, Vieusseux JL, Chai RC, Christophi C, Fifis T, Kouspou MM, Price JT.

Cell Stress Chaperones. 2012 Nov;17(6):765-78. doi: 10.1007/s12192-012-0349-z. Epub 2012 Jul 13.


Active heat shock transcription factor 1 supports migration of the melanoma cells via vinculin down-regulation.

Toma-Jonik A, Widlak W, Korfanty J, Cichon T, Smolarczyk R, Gogler-Piglowska A, Widlak P, Vydra N.

Cell Signal. 2015 Feb;27(2):394-401. doi: 10.1016/j.cellsig.2014.11.029. Epub 2014 Nov 27.


HSF1 promotes the inhibition of EMT-associated migration by low glucose via directly regulating Snail1 expression in HCC cells.

Liu D, Sun L, Qin X, Liu T, Zhang S, Liu Y, Li S, Guo K.

Discov Med. 2016 Sep;22(120):87-96.


Heterogeneous nuclear ribonucleoprotein K inhibits heat shock-induced transcriptional activity of heat shock factor 1.

Kim HJ, Lee JJ, Cho JH, Jeong J, Park AY, Kang W, Lee KJ.

J Biol Chem. 2017 Aug 4;292(31):12801-12812. doi: 10.1074/jbc.M117.774992. Epub 2017 Jun 7.


A delayed antioxidant response in heat-stressed cells expressing a non-DNA binding HSF1 mutant.

Hensen SM, Heldens L, van Genesen ST, Pruijn GJ, Lubsen NH.

Cell Stress Chaperones. 2013 Jul;18(4):455-73. doi: 10.1007/s12192-012-0400-0. Epub 2013 Jan 16.


Targeting the heat shock factor 1 by RNA interference: a potent tool to enhance hyperthermochemotherapy efficacy in cervical cancer.

Rossi A, Ciafrè S, Balsamo M, Pierimarchi P, Santoro MG.

Cancer Res. 2006 Aug 1;66(15):7678-85.


Heat shock transcription factor 1 promotes the proliferation, migration and invasion of osteosarcoma cells.

Zhou Z, Li Y, Jia Q, Wang Z, Wang X, Hu J, Xiao J.

Cell Prolif. 2017 Aug;50(4). doi: 10.1111/cpr.12346. Epub 2017 Apr 1.


Heat shock instructs hESCs to exit from the self-renewal program through negative regulation of OCT4 by SAPK/JNK and HSF1 pathway.

Byun K, Kim TK, Oh J, Bayarsaikhan E, Kim D, Lee MY, Pack CG, Hwang D, Lee B.

Stem Cell Res. 2013 Nov;11(3):1323-34. doi: 10.1016/j.scr.2013.08.014. Epub 2013 Sep 8.


The maximal cytoprotective function of the heat shock protein 27 is dependent on heat shock protein 70.

Sreedharan R, Riordan M, Thullin G, Van Why S, Siegel NJ, Kashgarian M.

Biochim Biophys Acta. 2011 Jan;1813(1):129-35. doi: 10.1016/j.bbamcr.2010.08.012. Epub 2010 Oct 8.


Heavy metal response of the heat shock protein 70 gene is mediated by duplicated heat shock elements and heat shock factor 1.

Koizumi S, Suzuki K, Yamaguchi S.

Gene. 2013 Jun 15;522(2):184-91. doi: 10.1016/j.gene.2013.03.090. Epub 2013 Mar 29.


Fisetin, a dietary flavonoid, induces apoptosis of cancer cells by inhibiting HSF1 activity through blocking its binding to the hsp70 promoter.

Kim JA, Lee S, Kim DE, Kim M, Kwon BM, Han DC.

Carcinogenesis. 2015 Jun;36(6):696-706. doi: 10.1093/carcin/bgv045. Epub 2015 Apr 3.


A novel association between the human heat shock transcription factor 1 (HSF1) and prostate adenocarcinoma.

Hoang AT, Huang J, Rudra-Ganguly N, Zheng J, Powell WC, Rabindran SK, Wu C, Roy-Burman P.

Am J Pathol. 2000 Mar;156(3):857-64.


The Heat Shock Transcription Factor HSF1 Induces Ovarian Cancer Epithelial-Mesenchymal Transition in a 3D Spheroid Growth Model.

Powell CD, Paullin TR, Aoisa C, Menzie CJ, Ubaldini A, Westerheide SD.

PLoS One. 2016 Dec 20;11(12):e0168389. doi: 10.1371/journal.pone.0168389. eCollection 2016.


KRIBB11 inhibits HSP70 synthesis through inhibition of heat shock factor 1 function by impairing the recruitment of positive transcription elongation factor b to the hsp70 promoter.

Yoon YJ, Kim JA, Shin KD, Shin DS, Han YM, Lee YJ, Lee JS, Kwon BM, Han DC.

J Biol Chem. 2011 Jan 21;286(3):1737-47. doi: 10.1074/jbc.M110.179440. Epub 2010 Nov 15.


Nucleoside analog inhibits microRNA-214 through targeting heat-shock factor 1 in human epithelial ovarian cancer.

Chen YF, Dong Z, Xia Y, Tang J, Peng L, Wang S, Lai D.

Cancer Sci. 2013 Dec;104(12):1683-9. doi: 10.1111/cas.12277. Epub 2013 Oct 22.


Sensitizing tumor cells to radiation by targeting the heat shock response.

Schilling D, Kühnel A, Konrad S, Tetzlaff F, Bayer C, Yaglom J, Multhoff G.

Cancer Lett. 2015 May 1;360(2):294-301. doi: 10.1016/j.canlet.2015.02.033. Epub 2015 Feb 23.


Human esophageal microvascular endothelial cells respond to acidic pH stress by PI3K/AKT and p38 MAPK-regulated induction of Hsp70 and Hsp27.

Rafiee P, Theriot ME, Nelson VM, Heidemann J, Kanaa Y, Horowitz SA, Rogaczewski A, Johnson CP, Ali I, Shaker R, Binion DG.

Am J Physiol Cell Physiol. 2006 Nov;291(5):C931-45. Epub 2006 Jun 21.


Induction of heat shock proteins by hyperthermia and noise overstimulation in hsf1 -/- mice.

Gong TW, Fairfield DA, Fullarton L, Dolan DF, Altschuler RA, Kohrman DC, Lomax MI.

J Assoc Res Otolaryngol. 2012 Feb;13(1):29-37. doi: 10.1007/s10162-011-0289-9. Epub 2011 Sep 20.


Inhibition of heat shock protein response enhances PS-341-mediated glioma cell death.

Liu Y, Zheng T, Zhao S, Liu H, Han D, Zhen Y, Xu D, Wang Y, Yang H, Zhang G, Wang C, Wu J, Ye Y.

Ann Surg Oncol. 2012 Jul;19 Suppl 3:S421-9. doi: 10.1245/s10434-011-1881-2. Epub 2011 Jul 6.


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