Formation of nuclear stress granules involves HSF2 and coincides with the nucleolar localization of Hsp70

Alastalo, Tero-Pekka; Hellesuo, Maria; Sandqvist, Anton; Hietakangas, Ville; Kallio, Marko J.; Sistonen, Lea

doi:10.1242/jcs.00671

Cited by 103 publications

(83 citation statements)

References 49 publications

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“…During hemin treatment we observed binding of HSF1 and HSF2 to the hsp70 promoter (Fig. 1B), which is in line with previous studies (23,25,36,(45)(46)(47). To our surprise, HSF2 was found on the hsp70 promoter also upon heat shock (Fig.…”

Section: Both Hsf1 and Hsf2 Are Recruited To The Hsp70 Promoter-supporting

confidence: 92%

“…To our surprise, HSF2 was found on the hsp70 promoter also upon heat shock (Fig. 1B), which is in contrast to previous studies (23,25,36,(45)(46)(47). This finding was consistent in repeated experiments and is quantified in Fig.…”

Section: Both Hsf1 and Hsf2 Are Recruited To The Hsp70 Promoter-supporting

confidence: 83%

“…Similar to HSF1, HSF2 has been shown to translocate to punctuated structures in the nucleus of heat-shocked HeLa cells (35). Subsequently, we observed that during heat shock, HSF1 and HSF2 co-localize in the nuclear stress bodies, and a direct interaction between HSF1 and HSF2 during both control and heat shock treatment has been demonstrated (36,37). Reporter assays have suggested that HSF2 is able to potentiate HSF1-mediated transactivation (37).…”

mentioning

confidence: 57%

“…Another aspect by which HSF1 might regulate HSF2 activity is through localization. In primate cells, HSF1 and HSF2 are found both in nuclear stress bodies (35,36) and on target gene promoters, and the available pool of nuclear HSFs needs to be divided between these structures. Previous studies by Alastalo et al (36) show that expression of a mutant HSF2 lacking the DNA-binding domain prevented the localization of either HSF1 or HSF2 to nuclear stress bodies, suggesting that also in this respect the interplay between these two factors is important.…”

Section: Discussionmentioning

confidence: 99%

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Heat Shock Factor 2 (HSF2) Contributes to Inducible Expression of hsp Genes through Interplay with HSF1

Östling

Björk

Roos-Mattjus

et al. 2007

Journal of Biological Chemistry

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203

191

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The heat shock response is a defense reaction activated by proteotoxic damage induced by physiological or environmental stress. Cells respond to the proteotoxic damage by elevated expression of heat shock proteins (Hsps) that function as molecular chaperones and maintain the vital homeostasis of protein folds. Heat shock factors (HSFs) are the main transcriptional regulators of the stress-induced expression of hsp genes. Mammalian HSF1 was originally identified as the transcriptional regulator of the heat shock response, whereas HSF2 has not been implicated a role in the stress response. Previously, we and others have demonstrated that HSF1 and HSF2 interact through their trimerization domains, but the functional consequence of this interaction remained unclear. We have now demonstrated on chromatin that both HSF1 and HSF2 were able to bind the hsp70 promoter not only in response to heat shock but also during hemin-induced differentiation of K562 erythroleukemia cells. In both cases an intact HSF1 was required in order to reach maximal levels of promoter occupancy, suggesting that HSF1 influences the DNA binding activity of HSF2. The functional consequence of the HSF1-HSF2 interplay was demonstrated by real-time reverse transcription-PCR analyses, which showed that HSF2 was able to modulate the HSF1-mediated expression of major hsp genes. Our results reveal, contrary to the predominant model, that HSF2 indeed participates in the transcriptional regulation of the heat shock response.The heat shock response enables the cell to cope with the deleterious effects of protein-damaging stresses, e.g. heat, heavy metals, and viral and bacterial infections. Characteristic of the heat shock response is a down-regulation of gene transcription and protein synthesis in general, whereas the transcription of a specific subset of genes called the heat shock genes is induced (1, 2). The classical heat shock genes include the hsp genes, but genome-wide analysis has revealed numerous other genes to be activated by heat and other stresses (3). During heat shock, the Hsps 3 function as molecular chaperones that bind to and aid the folding of damaged proteins, thereby preventing protein aggregation under stressful conditions (1, 4, 5). The induction of Hsps is mainly regulated by a family of heat shock transcription factors (HSFs), which bind to the heat shock elements (HSEs) on heat shock genes and other target genes (6 -9).Four HSFs (HSF1-4) exist in vertebrates. HSF1 and HSF2 are the most studied factors because of their co-expression in most tissues and cell lines (9). HSF3 has been found only in avian species, and HSF4 is the most recently identified member in mammals and expressed predominantly in lens and brain (10 -15). Mammalian HSF1 corresponds to the single HSF in yeast, nematode, and fruit fly (16 -19) and is considered the bona fide stress-activated transcription factor. Mice lacking HSF1 and fibroblasts derived from these animals are sensitive to stress and do not develop thermotolerance or display induction of Hsps upo...

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Section: Both Hsf1 and Hsf2 Are Recruited To The Hsp70 Promoter-supporting

confidence: 92%

Section: Both Hsf1 and Hsf2 Are Recruited To The Hsp70 Promoter-supporting

confidence: 83%

mentioning

confidence: 57%

Section: Discussionmentioning

confidence: 99%

See 2 more Smart Citations

Heat Shock Factor 2 (HSF2) Contributes to Inducible Expression of hsp Genes through Interplay with HSF1

Östling

Björk

Roos-Mattjus

et al. 2007

Journal of Biological Chemistry

Self Cite

203

191

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“…No such effect was observed with the expression of the SUMO4*M55V variant. HSF1 and HSF2 are known to regulate the expression of heat shock protein (HSP) genes [20,21], and enhanced production of HSPs has been observed in pancreatic β-cells exposed to proinflammatory cytokines [6]. It is therefore possible that SUMO4*M conjugated HSF1 and HSF2 are ineffective in mediating downregulation of HSP generation during insulitis to protect pancreatic islet cells from undergoing apoptosis.…”

Section: From Sumoylation To Nf-κb Alterationmentioning

confidence: 99%

Is a New Immune Response Mediator in the NF-κB pathway - SUMO-4 - Related to Type 1 Diabetes?

Sia¹

2005

Rev Diab Stud

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Is there a role for HSF1 in viral infections?

et al. 2022

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Cells undergo numerous processes to adapt to new challenging conditions and stressors. Heat stress is regulated by a family of heat shock factors (HSFs) that initiate a heat shock response by upregulating the expression of heat shock proteins (HSPs) intended to counteract cellular damage elicited by increased environmental temperature. Heat shock factor 1 (HSF1) is known as the master regulator of the heat shock response and upon its activation induces the transcription of genes that encode for molecular chaperones, such as HSP40, HSP70, and HSP90. Importantly, an accumulating body of studies relates HSF1 with viral infections; the induction of fever during viral infection may activate HSF1 and trigger a consequent heat shock response. Here, we review the role of HSF1 in different viral infections and its impact on the health outcome for the host. Studying the relationship between HSF1 and viruses could open new potential therapeutic strategies given the availability of drugs that regulate the activation of this transcription factor.

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Formation of nuclear stress granules involves HSF2 and coincides with the nucleolar localization of Hsp70

Cited by 103 publications

References 49 publications

Heat Shock Factor 2 (HSF2) Contributes to Inducible Expression of hsp Genes through Interplay with HSF1

Heat Shock Factor 2 (HSF2) Contributes to Inducible Expression of hsp Genes through Interplay with HSF1

Is a New Immune Response Mediator in the NF-κB pathway - SUMO-4 - Related to Type 1 Diabetes?

Is there a role for HSF1 in viral infections?

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