Inhibitors of tyrosine and ser/thr phosphatases modulate the heat shock response

Mivechi, Nahid F.; Murai, Toshimi; Hahn, George M.

doi:10.1002/jcb.240540207

Cited by 36 publications

(18 citation statements)

References 34 publications

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“…In most human cell lines, HSF-1 appears as punctate granules throughout the nucleus upon heat shock (11,29,41,55). The appearance and distribution of HSF-1 foci are similar when different fixatives (paraformaldehyde, methanol, or glutaraldehyde), or different antibodies to HSF-1 (11,29,41,55) are used, indicating that HSF-1 granule appearance after heat shock is not an artifact of sample preparation.…”

Section: Resultsmentioning

confidence: 99%

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Glycogen Synthase Kinase 3β and Extracellular Signal-Regulated Kinase Inactivate Heat Shock Transcription Factor 1 by Facilitating the Disappearance of Transcriptionally Active Granules after Heat Shock

Meng

Mivechi

1998

Molecular and Cellular Biology

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158

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Heat shock transcription factor 1 (HSF-1) activates the transcription of heat shock genes in eukaryotes. Under normal physiological growth conditions, HSF-1 is a monomer. Its transcriptional activity is repressed by constitutive phosphorylation. Upon activation, HSF-1 forms trimers, acquires DNA binding activity, increases transcriptional activity, and appears as punctate granules in the nucleus. In this study, using bromouridine incorporation and confocal laser microscopy, we demonstrated that newly synthesized pre-mRNAs colocalize to the HSF-1 punctate granules after heat shock, suggesting that these granules are sites of transcription. We further present evidence that glycogen synthase kinase 3␤ (GSK-3␤) and extracellular signal-regulated kinase mitogen-activated protein kinase (ERK MAPK) participate in the down regulation of HSF-1 transcriptional activity. Transient increases in the expression of GSK-3␤ facilitate the disappearance of HSF-1 punctate granules and reduce hsp-70 transcription after heat shock. We have also shown that ERK is the priming kinase for GSK-3␤. Taken together, these results indicate that GSK-3␤ and ERK MAPK facilitate the inactivation of activated HSF-1 after heat shock by dispersing HSF-1 from the sites of transcription.The nuclear translocation, DNA binding, and transcriptional activities of most mammalian transcription factors are regulated by phosphorylation. In many cases, multiple protein kinases can act on a single transcription factor (reviewed in reference 27). Heat shock transcription factor 1 (HSF-1) is subject to complex regulation by phosphorylation. HSF-1 binds to conserved regulatory sequences known as heat shock elements (HSEs) and controls the expression of heat shock proteins in response to chemical, environmental, and physiological stresses (1,36,42,61,68,74).Under normal physiological growth conditions, mammalian HSF-1 exists in a latent, monomeric form (4,55,66,69); is constitutively phosphorylated (4, 10, 43, 55); and is distributed in both the cytoplasm and nucleus. The functional role of phosphorylation in HSF-1 regulation is unclear. Strong evidence suggests that constitutive phosphorylation of HSF-1 negatively regulates HSF-1 activity (9, 31, 32, 43). Upon heat shock, the latent form of HSF-1 is translocated into the nucleus, forms trimers, is hyperphosphorylated, and appears as punctate granules (4,44,51,55). The function of hyperphosphorylation (4,10,46,55) or the role of HSF-1 punctate granules is not known. Punctate granules have been suggested to be important for some activity of HSF-1, perhaps its DNA binding activity (58).Phosphorylated forms of HSF-1 have been extensively studied by phosphopeptide mapping as well as mutational analysis (30)(31)(32)71). The data suggest that HSF-1 is phosphorylated on multiple serine residues and, perhaps, a threonine residue. Constitutive phosphorylation of serine 307, which is located distal to the transcriptional activation domain, negatively regulates HSF-1 function, since mutation of serine 307 to alanine (31, 71)...

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Section: Resultsmentioning

confidence: 99%

“…Electrophoretic mobility shift analysis with whole-cell extracts has been described in detail previously (41,43,74). Briefly, after each treatment, cells were rinsed with PBS and lysed in 100 l of extraction buffer (10 mM HEPES [pH 7.9], 0.4 mM NaCl, 0.1 mM EDTA, 0.5 mM DTT, 5% glycerol, 0.5 mM PMSF).…”

Section: Methodsmentioning

confidence: 99%

Glycogen Synthase Kinase 3β and Extracellular Signal-Regulated Kinase Inactivate Heat Shock Transcription Factor 1 by Facilitating the Disappearance of Transcriptionally Active Granules after Heat Shock

Meng

Mivechi

1998

Molecular and Cellular Biology

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158

151

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“…Thus, PPs appear as key linker molecules between the cellular effects of TNFa, the activation of HSF1/hsp70 stress responses and cellular susceptibility to apoptosis. Several points of evidence support this concept: (i) PPs PP1/PP2a and PP2b can be activated by TNFa, 29,39 (ii) activation of these PPs increases susceptibility to apoptotic cell death, 28,29 (iii) activation of PP1/PP2a and PP2b (calcineurin) as well as elevated intracellular calcium levels inhibit phosphorylation of HSF1 and thus activation of the HSF1/hsp70 stress response, [40][41][42] (iv) hsp70, which acts in a negative-feedback loop on HSF1 activation, 18 induces PP1/PP2a as well as PP2b and thus blocks continuing activation of HSF1 43,44 and (v) ERK and NF-kB signaling, which maintained a certain responsiveness of HSF1/hsp70 and also protected cells from apoptotic death, is a concurring mechanism to PPs, since their mutual inhibition has been repeatedly demonstrated. 45,46 In summary, the data presented provide insights into the interplay of signals essential for cell survival, stress resistance and apoptosis.…”

Section: Discussionmentioning

confidence: 99%

TNFα mediates susceptibility to heat-induced apoptosis by protein phosphatase-mediated inhibition of the HSF1/hsp70 stress response

Schett

et al. 2003

Cell Death Differ

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TNFa uniquely combines proinflammatory features with a proapoptotic potential. Activation of HSF1 followed by induction of hsp70 is part of a stress response, which protects cells from apoptosis. Herein, the effects of TNFa on the hsp70 stress response were investigated. TNFa caused transient downregulation of HSF1 activation and hsp70 synthesis, leading to increased sensitivity to heat-induced apoptosis. Blockade of TNF-R1, but not TNF-R2, as well as inhibition of protein phosphatases PP1/PP2a and PP2b completely blocked this effect. In contrast, blockade of MAPK/SAPK-, NF-jB (NF-kappaB)-, and PKC-pathways as well as the caspase cascade did not prevent downregulation of HSF1/hsp70. These data demonstrate that TNFa transiently inhibits the hsp70 stress response via TNF-R1 and activation of protein phosphatases. The price of inhibition of an essential cellular stress response is increased sensitivity to apoptotic cell death.

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“…Upon stress, HSF1 is converted to a trimer which binds to multiple copies of a consensus nucleotide sequence in the promoter region of heat shock genes termed the heat shock element (16,17). Increased expression of hsp70 is associated with phosphorylation of HSF1 and is more pronounced in the presence of okadaic acid but diminished in the presence of a tyrosine phosphatase inhibitor (18)(19)(20). Thiol reducing agents have been shown to inhibit heat-induced synthesis of heat shock proteins, abundance of hsp70 mRNA, hsp70 gene promoter activity, and HSF DNA binding activity, suggesting involvement of a redox mechanism in the heat shock signal transduction pathway (21,22).…”

Section: Discussionmentioning

confidence: 99%

Activation of heat shock protein (hsp)70 and proto-oncogene expression by alpha1 adrenergic agonist in rat aorta with age.

Chin¹,

Okazaki²,

Hu³

et al. 1996

J. Clin. Invest.

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Induction of heat shock proteins (hsp) most likely is a homeostatic mechanism in response to metabolic and environmental insults. We have investigated signal transduction mechanisms involved in ␣ 1 adrenergic receptor stimulation of hsp70 gene expression in isolated aortas with age. We found that ␣ 1 adrenergic agonists directly induced hsp70 mRNA in rat aorta in vitro; the ␣ 1 selective antagonist prazosin blocked this effect whereas chloroethylclonidine, an antagonist which has some selectivity for ␣ 1B receptors, was ineffective. This response was insensitive to pertussis toxin and was partially blocked by the protein kinase C inhibitor

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Inhibitors of tyrosine and ser/thr phosphatases modulate the heat shock response

Cited by 36 publications

References 34 publications

Glycogen Synthase Kinase 3β and Extracellular Signal-Regulated Kinase Inactivate Heat Shock Transcription Factor 1 by Facilitating the Disappearance of Transcriptionally Active Granules after Heat Shock

Glycogen Synthase Kinase 3β and Extracellular Signal-Regulated Kinase Inactivate Heat Shock Transcription Factor 1 by Facilitating the Disappearance of Transcriptionally Active Granules after Heat Shock

TNFα mediates susceptibility to heat-induced apoptosis by protein phosphatase-mediated inhibition of the HSF1/hsp70 stress response

Activation of heat shock protein (hsp)70 and proto-oncogene expression by alpha1 adrenergic agonist in rat aorta with age.

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