Literature DB >> 9011567

Heat shock factor-1 protein in heat shock factor-1 gene-transfected human epidermoid A431 cells requires phosphorylation before inducing heat shock protein-70 production.

X Z Ding1, G C Tsokos, J G Kiang.   

Abstract

Heat shock factor-1 (HSF1) is a transcriptional factor that binds to heat shock elements located on the promoter region of heat shock protein genes. The purpose of this study was to further investigate the regulation of the expression of the heat shock protein-70 (HSP-70) gene. The HSF1 gene was inserted into pCDNA3 plasmid and then transfected into human epidermoid A431 cells using the CaOP3 method. Control cells were transfected with vector alone. Expression of HSP-70, HSF1, and HSF2 genes and protein were determined. We found a significant increase in the expression of the HSF1 gene, but not HSP-70 and HSF2 genes, in the HSF1 gene-transfected cells. The amount of HSF1-heat shock element complex was significantly increased in both the nucleus and cytosol in HSF1 gene-transfected cells, indicating increased synthesis of HSF1. The amount of HSP-72 in these cells did not change. Therefore, overexpression of HSF1 protein failed to initiate transcription of the HSP-70 gene. Subsequently, we treated the cells with 1 microM PMA (a protein kinase C stimulator), and HSP-70 mRNA and protein were measured at 1 or 4 h of the treatment, respectively. The levels of both HSP-70 mRNA and HSP-72 protein were significantly increased in nontransfected and transfected cells; the levels of HSP-72 in HSF1 gene-transfected cells were greater than that found in the vector-transfected cells. The PMA-induced increase in HSP-72 protein peaked 8 h after treatment with PMA and returned to baseline levels at 72 h. This increase was blocked by a PKC inhibitor, staurosporine. After treatment with PMA, HSF1 translocated quickly from cytosol to nucleus. The results suggest that phosphorylation of newly synthesized HSF1 and possibly of other factors are necessary for the induction of HSP-72. Activation of PKC can cause phosphorylation of HSF1, which leads to an enhanced but transient increase in HSP-70 production.

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Year:  1997        PMID: 9011567      PMCID: PMC507777          DOI: 10.1172/JCI119124

Source DB:  PubMed          Journal:  J Clin Invest        ISSN: 0021-9738            Impact factor:   14.808


  38 in total

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Authors:  J G Kiang; X D Wang; X Z Ding; I D Gist; R C Smallridge
Journal:  Thyroid       Date:  1996-10       Impact factor: 6.568

2.  Rapid assay of HSF1 and HSF2 gene expression by RT-PCR.

Authors:  X Z Ding; R C Smallridge; R J Galloway; J G Kiang
Journal:  Mol Cell Biochem       Date:  1996-05-24       Impact factor: 3.396

Review 3.  Heat shock proteins and the immune response.

Authors:  S H Kaufmann
Journal:  Immunol Today       Date:  1990-04

Review 4.  Heat shock proteins.

Authors:  M J Schlesinger
Journal:  J Biol Chem       Date:  1990-07-25       Impact factor: 5.157

5.  Heat shock protects pig kidneys against warm ischemic injury.

Authors:  G A Perdrizet; H Kaneko; T M Buckley; M A Fishman; R T Schweizer
Journal:  Transplant Proc       Date:  1990-04       Impact factor: 1.066

6.  Heat-shock response is associated with enhanced postischemic ventricular recovery.

Authors:  R W Currie; M Karmazyn; M Kloc; K Mailer
Journal:  Circ Res       Date:  1988-09       Impact factor: 17.367

7.  Complex modes of heat shock factor activation.

Authors:  V Zimarino; C Tsai; C Wu
Journal:  Mol Cell Biol       Date:  1990-02       Impact factor: 4.272

8.  In vitro activation of heat shock transcription factor DNA-binding by calcium and biochemical conditions that affect protein conformation.

Authors:  D D Mosser; P T Kotzbauer; K D Sarge; R I Morimoto
Journal:  Proc Natl Acad Sci U S A       Date:  1990-05       Impact factor: 11.205

9.  Hyperthermia protects against light damage in the rat retina.

Authors:  M F Barbe; M Tytell; D J Gower; W J Welch
Journal:  Science       Date:  1988-09-30       Impact factor: 47.728

10.  Decreased expression of heat shock protein 70 mRNA and protein after heat treatment in cells of aged rats.

Authors:  J Fargnoli; T Kunisada; A J Fornace; E L Schneider; N J Holbrook
Journal:  Proc Natl Acad Sci U S A       Date:  1990-01       Impact factor: 11.205
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  6 in total

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Authors:  J G Kiang; I D Gist; G C Tsokos
Journal:  Mol Cell Biochem       Date:  1999-09       Impact factor: 3.396

2.  Age and energy intake interact to modify cell stress pathways and stroke outcome.

Authors:  Thiruma V Arumugam; Terry M Phillips; Aiwu Cheng; Christopher H Morrell; Mark P Mattson; Ruiqian Wan
Journal:  Ann Neurol       Date:  2010-01       Impact factor: 10.422

3.  The identification of protein kinase C iota as a regulator of the Mammalian heat shock response using functional genomic screens.

Authors:  Frank Boellmann; Russell S Thomas
Journal:  PLoS One       Date:  2010-07-29       Impact factor: 3.240

4.  Regulation of heat shock protein 72 kDa and 90 kDa in human breast cancer MDA-MB-231 cells.

Authors:  J G Kiang; I D Gist; G C Tsokos
Journal:  Mol Cell Biochem       Date:  2000-01       Impact factor: 3.396

5.  Genetic variations of HSBP1 gene and its effect on thermal performance traits in Chinese Holstein cattle.

Authors:  YanJiu Wang; Jingmin Huang; Peng Xia; JianBin He; Changfa Wang; Zhihua Ju; Jianbin Li; Rongling Li; Jifeng Zhong; Qiuling Li
Journal:  Mol Biol Rep       Date:  2013-04-10       Impact factor: 2.316

Review 6.  Sprinkler Technology Improves Broiler Production Sustainability: From Stress Alleviation to Water Usage Conservation: A Mini Review.

Authors:  Yi Liang; George T Tabler; Sami Dridi
Journal:  Front Vet Sci       Date:  2020-09-22
  6 in total

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