AI Article Synopsis
- Heat shock factor 1 (HSF1) is crucial for the heat shock response, helping protect cells from stress by binding to and activating heat shock protein (hsp) genes and satellite III sequences.
- During stress, HSF1 forms nuclear stress bodies (nSBs) which enhance transcription sites, showcasing its role in managing cellular responses.
- The study uses advanced microscopy techniques to reveal that HSF1 interacts with DNA in two ways: through specific binding to Heat Shock Elements and satellite sequences, and through more transient interactions, with the trimerization domain being essential for low-affinity chromatin binding.
Article Abstract
Heat shock factor 1 is the key transcription factor of the heat shock response. Its function is to protect the cell against the deleterious effects of stress. Upon stress, HSF1 binds to and transcribes hsp genes and repeated satellite III (sat III) sequences present at the 9q12 locus. HSF1 binding to pericentric sat III sequences forms structures known as nuclear stress bodies (nSBs). nSBs represent a natural amplification of RNA pol II dependent transcription sites. Dynamics of HSF1 and of deletion mutants were studied in living cells using multi-confocal Fluorescence Correlation Spectroscopy (mFCS) and Fluorescence Recovery After Photobleaching (FRAP). In this paper, we show that HSF1 dynamics modifications upon heat shock result from both formation of high molecular weight complexes and increased HSF1 interactions with chromatin. These interactions involve both DNA binding with Heat Shock Element (HSE) and sat III sequences and a more transient sequence-independent binding likely corresponding to a search for more specific targets. We find that the trimerization domain is required for low affinity interactions with chromatin while the DNA binding domain is required for site-specific interactions of HSF1 with DNA.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3704536 | PMC |
| http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0067566 | PLOS |
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