Temporal and spatial changes in transcription factor binding and histone modifications at the steroidogenic acute regulatory protein (stAR) locus associated with stAR transcription - PubMed (original) (raw)
. 2004 Apr;18(4):791-806.
doi: 10.1210/me.2003-0305. Epub 2004 Jan 15.
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- PMID: 14726488
- DOI: 10.1210/me.2003-0305
Temporal and spatial changes in transcription factor binding and histone modifications at the steroidogenic acute regulatory protein (stAR) locus associated with stAR transcription
Hisahiko Hiroi et al. Mol Endocrinol. 2004 Apr.
Abstract
We investigated the binding of transcription factors and histone modifications associated with expression of the steroidogenic acute regulatory protein (StAR) gene in cultured MA-10 Leydig cells and in granulosa cells isolated from mouse periovulatory follicles before and after in vivo human chorionic gonadotropin administration. Quantitative chromatin immunoprecipitation assays were employed to prove association of specific transcription factors (GATA-4, steroidogenic factor 1/adrenal-4 binding protein, CCAAT/enhancer-binding protein beta, cAMP response element binding protein/cAMP response element modulator) and a coactivator (cAMP response element binding protein-binding protein) with the promoter, to define patterns of binding to test hypotheses regarding interactions among these factors, and to correlate changes in histone modification at the StAR locus with transcription. Although each of the transcription factors bound to the StAR proximal promoter, we observed cell-specific binding patterns for individual factors. From these findings we infer that associations among some of the factors can be more complex than can be explained by simple models of stable protein-protein interactions. Histone modifications were also found to exhibit cell-specific, temporal and spatial differences across the StAR locus. In MA-10 cells, these modifications included increased acetylation of histone H3, increased dimethylation of lysine 4 on histone H3 in exonic/intronic sequences (a modification that marks transcriptionally permissive chromatin), and reduced dimethylation of lysine 9 on histone H3 (a modification linked with gene silencing). In mouse granulosa cells, we observed no change in histone H3 or H4 acetylation, but a rapid loss of the dimethyl K9 histone H3 mark. Our findings demonstrate that increased StAR transcription can occur in the context of different patterns of transcription factor binding and histone modification.
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