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Genome-Wide Meta-Analysis Unravels Interactions between Magnesium Homeostasis and Metabolic Phenotypes.
- Source :
- Journal of the American Society of Nephrology; 335; 348; 1046-6673; 1; 29; ~Journal of the American Society of Nephrology~335~348~~~1046-6673~1~29~~
- Publication Year :
- 2018
-
Abstract
- 1 januari 2018<br />Contains fulltext : 184156.pdf (publisher's version ) (Closed access)<br />Magnesium (Mg(2+)) homeostasis is critical for metabolism. However, the genetic determinants of the renal handling of Mg(2+), which is crucial for Mg(2+) homeostasis, and the potential influence on metabolic traits in the general population are unknown. We obtained plasma and urine parameters from 9099 individuals from seven cohorts, and conducted a genome-wide meta-analysis of Mg(2+) homeostasis. We identified two loci associated with urinary magnesium (uMg), rs3824347 (P=4.4x10(-13)) near TRPM6, which encodes an epithelial Mg(2+) channel, and rs35929 (P=2.1x10(-11)), a variant of ARL15, which encodes a GTP-binding protein. Together, these loci account for 2.3% of the variation in 24-hour uMg excretion. In human kidney cells, ARL15 regulated TRPM6-mediated currents. In zebrafish, dietary Mg(2+) regulated the expression of the highly conserved ARL15 ortholog arl15b, and arl15b knockdown resulted in renal Mg(2+) wasting and metabolic disturbances. Finally, ARL15 rs35929 modified the association of uMg with fasting insulin and fat mass in a general population. In conclusion, this combined observational and experimental approach uncovered a gene-environment interaction linking Mg(2+) deficiency to insulin resistance and obesity.
Details
- Database :
- OAIster
- Journal :
- Journal of the American Society of Nephrology; 335; 348; 1046-6673; 1; 29; ~Journal of the American Society of Nephrology~335~348~~~1046-6673~1~29~~
- Publication Type :
- Electronic Resource
- Accession number :
- edsoai.on1284089060
- Document Type :
- Electronic Resource