Low HDL-C is the most frequent dyslipidemia in Mexicans, but few studies have examined the underlying genetic basis. Moreover, few lipid-associated variants have been tested for coronary artery disease (CAD) in Hispanic populations. Here, we performed a GWAS for HDL-C levels in 2,183 Mexican individuals, identifying 7 loci, including three with genome-wide significance and containing the candidate genes CETP, ABCA1 and SIDT2. The SIDT2 missense Val636Ile variant was associated with HDL-C levels for the first time, and this association was replicated in 3 independent cohorts (P=5.5x10-21 in the conjoint analysis). The SIDT2/Val636Ile variant is more frequent in Native American and derived populations than in other ethnic groups. This variant was also associated with increased ApoA1 and glycerophospholipid serum levels, decreased LDL-C and ApoB levels and a lower risk of premature CAD. Because SIDT2 was previously identified as a protein involved in sterol transport, we tested whether the SIDT2/Ile636 protein affected this function using an in vitro site-directed mutagenesis approach. The SIDT2/Ile636 protein showed increased uptake of the cholesterol analog dehydroergosterol, suggesting this variant is functional. Finally, liver transcriptome data from humans and the Hybrid Mouse Diversity Panel (HMDP) are consistent with the involvement of SIDT2 in lipid and lipoprotein metabolism. In conclusion, this is the first study assessing genetic variants contributing to HDL-C levels and coronary artery disease in the Mexican population. Our findings provide new insight into the genetic architecture of HDL-C and highlight SIDT2 as a new player in cholesterol and lipoprotein metabolism in humans.
Lipoprotein lipase –93T/G transition and apo A-I Plattsburgh (Phe 71 → Tyr): two distinct mutations in a family with low HDL-C and premature coronary artery disease
