A High Affinity HSF-1 Binding Site in the 5′-Untranslated Region of the Murine Tumor Necrosis Factor-α Gene Is a Transcriptional Repressor

Singh, Ishwar; He, Ju‐Ren; Calderwood, Stuart K.; Hasday, Jeffrey D.

doi:10.1074/jbc.m108154200

Cited by 141 publications

(172 citation statements)

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“…We and others have demonstrated that elements of the HS response are activated at febrile-range temperatures and regulate genes involved in inflammation and the innate immune response, including tumor necrosis factor α (Ostberg et al 2000;Singh et al 2002Singh et al , 2000, interleukin (IL)-1β (Cahill et al 1996;Fairchild et al 2000), IL-8, and granulocyte macrophage colony-stimulating factor (Rice et al 2005;Singh et al 2008), as well as HSPs. A computerassisted analysis of CXC chemokine promoters showed that almost every member of this family of neutrophil chemotaxins contains HSEs within their promoter sequences, suggesting these genes may be a newly recognized class of HSF-1-regulated genes (Nagarsekar et al 2005).…”

Section: Discussionmentioning

confidence: 99%

“…To further analyze the relationship between temperature and activation of HSF-1, we analyzed the activation of HSF-1 to its intranuclear DNA-binding state by electrophoretic mobility shift assays (EMSA) using the well-characterized HSE sequence from the human HSP72 promoter as probe (Singh et al 2002. HSF-1-binding activities in nuclear extracts prepared from A549 cells maintained at 37°C or exposed to 42°C for 1 h, 39.5°C or 41°C for 1 or 6 h, or to 38.5°C for 1, 6, or 24 h were compared (Fig.…”

Section: Levels Of Intranuclear Hse-binding Activity Was Comparable Imentioning

confidence: 99%

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Hyperthermia in the febrile range induces HSP72 expression proportional to exposure temperature but not to HSF-1 DNA-binding activity in human lung epithelial A549 cells

Tulapurkar

Asiegbu

Singh

et al. 2009

Cell Stress and Chaperones

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Expression of heat shock proteins (HSPs) is classically activated at temperatures above the physiologic range (≥42°C) via activation of the stress-activated transcription factor, heat shock factor-1 (HSF-1). Several studies suggest that less extreme hyperthermia, especially within the febrile range, as occurs during fever and exertional/environmental hyperthemia, can also activate HSF-1 and enhance HSP expression. We compared HSP72 protein and mRNA expression in human A549 lung epithelial cells continuously exposed to 38.5°C, 39.5°C, or 41°C or exposed to a classic heat shock (42°C for 2 h). We found that expression of HSP72 protein and mRNA increased linearly as incubation temperature was increased from 37°C to 41°C, but increased abruptly when the incubation temperature was raised to 42°C. A similar response in luciferase activity was observed using A549 cells stably transfected with an HSF-1-responsive luciferase reporter plasmid. However, activation of intranuclear HSF-1 DNA-binding activity was comparable at 38.5°C, 39.5°C, and 41°C and only modestly greater at 42°C but the mobility of HSF1 protein on a denaturing gel was altered with increasing exposure temperature and was distinctly different at 42°C. These findings indicate that the proportional changes in HSF-1-dependent HSP72 expression at febrile-range temperatures are dependent upon exposure time and temperature but not on the degree of HSF-1 DNA-binding activity. Instead, HSF-1-mediated HSP expression following hyperthermia and heat shock appears to be mediated, in addition to HSF-1 activation, by posttranslational modifications of HSF-1 protein.

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Section: Discussionmentioning

confidence: 99%

Section: Levels Of Intranuclear Hse-binding Activity Was Comparable Imentioning

confidence: 99%

Hyperthermia in the febrile range induces HSP72 expression proportional to exposure temperature but not to HSF-1 DNA-binding activity in human lung epithelial A549 cells

Tulapurkar

Asiegbu

Singh

et al. 2009

Cell Stress and Chaperones

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“…Several pieces of evidence suggest a suppressive role of HSF1/hsp70 on TNFa-triggered inflammatory responses (Figure 9b, arrow e). Thus, activation of HSF1/hsp70 inhibits NF-kB activation [31][32][33] as well as transcription of the TNFa gene 34 Figure 9 Schematic mechanism of TNFa-mediated inhibition of HSF1/hsp70 and susceptibility to apoptosis. (a) The classical pathway of TNFa-mediated apoptosis involves TNF-R1 activation and signaling through caspase-8, which subsequently activates effector caspases, such as caspase-3.…”

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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“…Electrophoretic Mobility Shift Assay-Nuclear extracts were prepared according to the method of Schreiber et al (38) as described earlier (37,39), and total protein concentration was measured. Double-stranded oligonucleotides containing the consensus HSF1 binding sequence from the human Hsp-70 promoter 5Ј-GATCTCGGCTGGAATATTCCCGACCTG-GCAGCCGA-3Ј and the complementary strands were synthesized, annealed, and radiolabeled with [␥-32 P]ATP using T4 polynucleotide kinase (Promega) according to the manufacturer's protocol (37,39).…”

Section: Methodsmentioning

confidence: 99%

“…Double-stranded oligonucleotides containing the consensus HSF1 binding sequence from the human Hsp-70 promoter 5Ј-GATCTCGGCTGGAATATTCCCGACCTG-GCAGCCGA-3Ј and the complementary strands were synthesized, annealed, and radiolabeled with [␥-32 P]ATP using T4 polynucleotide kinase (Promega) according to the manufacturer's protocol (37,39). Twenty-microliter EMSA reactions containing 5 g of nuclear extract, 0.035 pmol of radiolabeled oligonucleotide, 1 g of poly(IC), 10 mM Tris-HCl, pH 7.8, 10% glycerol, 60 mM NaCl, 1 mM EDTA, and 1 mM dithiothreitol were incubated at room temperature for 30 min.…”

Section: Methodsmentioning

confidence: 99%

Toll-like Receptor Agonists and Febrile Range Hyperthermia Synergize to Induce Heat Shock Protein 70 Expression and Extracellular Release

Gupta¹,

Cooper²,

Tulapurkar³

et al. 2013

Journal of Biological Chemistry

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A High Affinity HSF-1 Binding Site in the 5′-Untranslated Region of the Murine Tumor Necrosis Factor-α Gene Is a Transcriptional Repressor

Cited by 141 publications

References 30 publications

Hyperthermia in the febrile range induces HSP72 expression proportional to exposure temperature but not to HSF-1 DNA-binding activity in human lung epithelial A549 cells

Hyperthermia in the febrile range induces HSP72 expression proportional to exposure temperature but not to HSF-1 DNA-binding activity in human lung epithelial A549 cells

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

Toll-like Receptor Agonists and Febrile Range Hyperthermia Synergize to Induce Heat Shock Protein 70 Expression and Extracellular Release

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