Genomic Determinants of Vitamin D-Regulated Gene Expression
Autor: | Hillary C. St. John, Seong Min Lee, J. Wesley Pike, Mark B. Meyer, Alex H. Carlson, Melda Onal, Nancy A. Benkusky, Sohel Shamsuzzaman |
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Jazyk: | angličtina |
Rok vydání: | 2015 |
Předmět: |
0301 basic medicine
Regulation of gene expression Therapeutic gene modulation Genetics Osteoblasts Cellular differentiation Genomics Biology Calcitriol receptor Article Chromatin 03 medical and health sciences 030104 developmental biology Calcitriol Gene Expression Regulation Gene family Humans Receptors Calcitriol Epigenetics Vitamin D Epigenomics |
Popis: | Insight into mechanisms that link the actions of 1,25-dihydroxyvitamin D3 (1,25(OH)2D3) to the regulation of gene expression has evolved extensively since the initial discovery of a nuclear protein known as the vitamin D receptor (VDR). Perhaps most important was the molecular cloning of this receptor which enabled its inclusion within the nuclear receptor gene family and further studies of both its structure and regulatory function. Current studies are now refocused on the vitamin D hormone's action at the genome, where VDR together with other transcription factors coordinates the recruitment of chromatin active coregulatory complexes that participate directly in the modification of gene output. These studies highlight the role of chromatin in the expression of genes and the dynamic impact of the epigenetic landscape that contextualizes individual gene loci thus influencing the VDR's transcriptional actions. In this chapter, we summarize advances made over the past few years in understanding vitamin D action on a genome-wide scale, focusing on overarching principles that have emerged at this level. Of particular significance is the finding that dynamic changes that occur to the genome during cellular differentiation at both genetic and epigenetic levels profoundly alter the ability of 1,25(OH)2D3 and its receptor to regulate gene expression. We address the broad impact of differentiation on specific epigenetic histone modifications that occur across the genome and the ability of the VDR to influence this activity at selected gene loci as well. These studies advance our understanding of not only vitamin D action but also of the complex and dynamic role played by the genome itself as a major determinant of VDR activity. |
Databáze: | OpenAIRE |
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