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New Approaches to Assess Mechanisms of Action of Selective Vitamin D Analogues

Journal

Publisher

MDPI
DOI: 10.3390/ijms222212352

Keywords

vitamin D biology and action; transcription; ChIP-chip analysis; distal enhancers; histone H3 acetylation; RNA polymerase II; analogue actions at genes; vitamin D hormone (1,25(OH)(2)D-3)

Funding

  1. National Institutes of Health [DK-072281, DK-073995, DK-074993, AR-045173]

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Recent studies have identified key principles governing vitamin D transcription, including the rapid binding of the VDR-ligand complex to enhancer elements at open chromatin sites. This initial action triggers downstream molecular events, such as histone acetylation and recruitment of additional modifiers, leading to gene expression. These sequential events provide insights into the activation of genes both in vitro and in vivo, suggesting potential applications for studying vitamin D analogs and synthetic compounds.
Recent studies of transcription have revealed an advanced set of overarching principles that govern vitamin D action on a genome-wide scale. These tenets of vitamin D transcription have emerged as a result of the application of now well-established techniques of chromatin immunoprecipitation coupled to next-generation DNA sequencing that have now been linked directly to CRISPR-Cas9 genomic editing in culture cells and in mouse tissues in vivo. Accordingly, these techniques have established that the vitamin D hormone modulates sets of cell-type specific genes via an initial action that involves rapid binding of the VDR-ligand complex to multiple enhancer elements at open chromatin sites that drive the expression of individual genes. Importantly, a sequential set of downstream events follows this initial binding that results in rapid histone acetylation at these sites, the recruitment of additional histone modifiers across the gene locus, and in many cases, the appearance of H3K36me3 and RNA polymerase II across gene bodies. The measured recruitment of these factors and/or activities and their presence at specific regions in the gene locus correlate with the emerging presence of cognate transcripts, thereby highlighting sequential molecular events that occur during activation of most genes both in vitro and in vivo. These features provide a novel approach to the study of vitamin D analogs and their actions in vivo and suggest that they can be used for synthetic compound evaluation and to select for novel tissue- and gene-specific features. This may be particularly useful for ligand activation of nuclear receptors given the targeting of these factors directly to genetic sites in the nucleus.

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