SCOPE: Vitamin D₃, its biologically most active metabolite 1α,25-dihydroxyvitamin D₃ (1,25(OH)₂D₃), and the vitamin D receptor (VDR) are important for adipose tissue biology. METHODS AND RESULTS: We extrapolated genomic VDR association loci in adipocytes from 55 conserved genome-wide VDR-binding sites in nonfat tissues. Taking the genes DUSP10, TRAK1, NRIP1, and THBD as examples, we confirmed the predicted VDR binding sites upstream of their transcription start sites and showed rapid mRNA up-regulation of all four genes in SGBS human pre-adipocytes. Using adipose tissue biopsy samples from 47 participants of a 5-month vitamin D₃ intervention study, we demonstrated that all four primary VDR target genes can serve as biomarkers for the vitamin D₃ responsiveness of human individuals. Changes in DUSP10 gene expression appear to be the most comprehensive marker, while THBD mRNA changes characterized a rather different group of study participants. CONCLUSION: We present a new approach to predict vitamin D target genes based on conserved genomic VDR-binding sites. Using human adipocytes as examples, we show that such ubiquitous VDR target genes can be used as markers for the individual's response to a supplementation with vitamin D₃.
RCT Entities:
SCOPE: Vitamin D₃, its biologically most active metabolite 1α,25-dihydroxyvitamin D₃ (1,25(OH)₂D₃), and the vitamin D receptor (VDR) are important for adipose tissue biology. METHODS AND RESULTS: We extrapolated genomic VDR association loci in adipocytes from 55 conserved genome-wide VDR-binding sites in nonfat tissues. Taking the genes DUSP10, TRAK1, NRIP1, and THBD as examples, we confirmed the predicted VDR binding sites upstream of their transcription start sites and showed rapid mRNA up-regulation of all four genes in SGBShuman pre-adipocytes. Using adipose tissue biopsy samples from 47 participants of a 5-month vitamin D₃ intervention study, we demonstrated that all four primary VDR target genes can serve as biomarkers for the vitamin D₃ responsiveness of human individuals. Changes in DUSP10 gene expression appear to be the most comprehensive marker, while THBD mRNA changes characterized a rather different group of study participants. CONCLUSION: We present a new approach to predict vitamin D target genes based on conserved genomic VDR-binding sites. Using human adipocytes as examples, we show that such ubiquitous VDR target genes can be used as markers for the individual's response to a supplementation with vitamin D₃.
Authors: Nadia Boutaoui; Sandeep Puranik; Rong Zhang; Ting Wang; Daniel H Hui; John Brehm; Erick Forno; Wei Chen; Juan C Celedón Journal: Epigenetics Date: 2019-06-03 Impact factor: 4.528
Authors: A Pramono; J W E Jocken; M E Adriaens; M F Hjorth; A Astrup; W H M Saris; E E Blaak Journal: Int J Obes (Lond) Date: 2021-01-20 Impact factor: 5.095
Authors: P G Vaughan-Shaw; G Grimes; J P Blackmur; M Timofeeva; M Walker; L Y Ooi; Victoria Svinti; Kevin Donnelly; F V N Din; S M Farrington; M G Dunlop Journal: BMC Med Date: 2021-08-03 Impact factor: 8.775