Abstract
BackgroundAlu RNAs are present at elevated levels in stress conditions and, consequently, Alu repeats are increasingly being associated with the physiological stress response. Alu repeats are known to harbor transcription factor binding sites that modulate RNA pol II transcription and Alu RNAs act as transcriptional co-repressors through pol II binding in the promoter regions of heat shock responsive genes. An observation of a putative heat shock factor (HSF) binding site in Alu led us to explore whether, through HSF binding, these elements could further contribute to the heat shock response repertoire.ResultsAlu density was significantly enriched in transcripts that are down-regulated following heat shock recovery in HeLa cells. ChIP analysis confirmed HSF binding to a consensus motif exhibiting positional conservation across various Alu subfamilies, and reporter constructs demonstrated a sequence-specific two-fold induction of these sites in response to heat shock. These motifs were over-represented in the genic regions of down-regulated transcripts in antisense oriented Alus. Affymetrix Exon arrays detected antisense signals in a significant fraction of the down-regulated transcripts, 50% of which harbored HSF sites within 5 kb. siRNA knockdown of the selected antisense transcripts led to the over-expression, following heat shock, of their corresponding down-regulated transcripts. The antisense transcripts were significantly enriched in processes related to RNA pol III transcription and the TFIIIC complex.ConclusionsWe demonstrate a non-random presence of Alu repeats harboring HSF sites in heat shock responsive transcripts. This presence underlies an antisense-mediated mechanism that represents a novel component of Alu and HSF involvement in the heat shock response.
Highlights
Alu RNAs are present at elevated levels in stress conditions and, Alu repeats are increasingly being associated with the physiological stress response
heat shock factor (HSF) sites in Alus are positionally conserved and heat shock responsive The previously determined consensus human heat shock element bound by HSF is nTTCnnGAAnnTTCn [31]
We selected a representative set of high score (≥8.7) putative HSF sites within Alus present in the promoter region of up-regulated genes for functional validation
Summary
Alu RNAs are present at elevated levels in stress conditions and, Alu repeats are increasingly being associated with the physiological stress response. Alu repeats, which occupy more than one-tenth of the human genome, have been shown to harbor a large number of transcription factor binding sites (TFBSs) [1,2,3], many of which have been demonstrated to be functionally active. These have been mostly discovered during the course of characterization of regulatory sites in promoter regions of genes [4,5,6,7,8,9,10,11,12,13,14,15]. Since Alu elements have been widely implicated in stress responses [28,29,30], we decided to investigate if HSF, through binding to these sites in Alus, could modulate genome-wide expression in response to heat shock
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