The genetic determinants of circulating C3-epimers of 25-hydroxyvitamin D

• Main Authors: Sirikunya Torugsa, Hataikarn Nimitphong, Daruneewan Warodomwichit, La-or Chailurkit, Kriangsuk Srijaruskul, Suwannee Chanprasertyothin, Boonsong Ongphiphadhanakul
• Format: Article
• Language: English
• Published: Elsevier 2018-06-01
• Series: Journal of Clinical & Translational Endocrinology
• Subjects: C3-epimer; Vitamin D; DHCR7/NADSYN1; CYP2R1; GC
• Online Access: http://www.sciencedirect.com/science/article/pii/S2214623717301266
• ISSN: 2214-6237

Background: The complexity of vitamin D metabolites especially the contribution of C3-epimers of 25-hydroxyvitamin D (C3-epimers) in human sera remains unclear. We hypothesized that genetic polymorphisms in the vitamin D-related gene pathway contribute to variation in C3-epimer levels. Therefore, we investigated candidate single nucleotide polymorphisms (SNPs) concerning C3-epimer levels. Methods: The candidate SNPs, including DHCR7/NADSYN1 (rs12785878), CYP2R1 (rs2060793) and GC (rs2282679), were genotyped in 1727 members of the third project of the Electricity Generating Authority of Thailand 3/1 cohort investigation. Each SNP was tested under three genetic effects (dominant, recessive and additive models) concerning the levels of total serum 25(OH)D [the sum of 25(OH)D2+3 and 3-epi-25(OH)D2+3], non-C3-epimers [25(OH)D2+3] and C3-epimers [3-epi-25(OH)D2+3], using linear regression analysis. Results: Among the participants, the median (range) levels of non-C3-epimers and C3-epimers were 22.7 (6.4–49.2) ng/mL and 1.3 (0.01–14.2) ng/mL, respectively. In regression analysis, we found the genetic variation of two SNPs, the DHCR7/NADSYN1 (rs12785878; G > T) and GC (rs2282679; T > G) under additive genetic models, explained the variation of C3-epimer levels about 1.5% (p = 1.66 × 10−7) and 1.1% (p = 1.10 × 10−5), respectively. Interestingly, participants carrying the minor T-allele of rs12785878 exhibited a trend to increase C3-epimer levels, while those carrying the minor G-allele of rs2282679 exhibited a trend to decrease levels of both non-C3-epimers and C3-epimers. In addition, CYP2R1 (rs2060793; G > A) was clearly associated only with non-C3-epimer levels (p = 2.46 × 10−8). In multivariate analyses, sex, age and BMI were predictors for variation in C3-epimer concentration; sex and age for variation in non-C3-epimers. Conclusion: To the best of our knowledge, this is the first study to demonstrate genetic models concerning the variation in C3-epimer levels. Our results emphasize that genetic determinants and the potential factors of C3-epimers differ from non-C3-epimers. This study contributes fundamental knowledge of the endogenous vitamin D pathway.