Abstract
While genetic determinants strongly influence HDL cholesterol (HDLc) levels, most genetic causes underlying variation in HDLc remain unknown. We aimed to identify novel rare mutations with large effects in candidate genes contributing to extreme HDLc in humans, utilizing family-based Mendelian genetics. We performed next-generation sequencing of 456 candidate HDLc-regulating genes in 200 unrelated probands with extremely low (≤10th percentile) or high (≥90th percentile) HDLc. Probands were excluded if known mutations existed in the established HDLc-regulating genes ABCA1, APOA1, LCAT, cholesteryl ester transfer protein (CETP), endothelial lipase (LIPG), and UDP-N-acetyl-α-D-galactosamine:polypeptide N-acetylgalactosaminyltransferase 2 (GALNT2). We identified 93 novel coding or splice-site variants in 72 candidate genes. Each variant was genotyped in the proband's family. Family-based association analyses were performed for variants with sufficient power to detect significance at P < 0.05 with a total of 627 family members being assessed. Mutations in the genes glucokinase regulatory protein (GCKR), RNase L (RNASEL), leukocyte immunoglobulin-like receptor 3 (LILRA3), and dynein axonemal heavy chain 10 (DNAH10) segregated with elevated HDLc levels in families, while no mutations associated with low HDLc. Taken together, we have identified mutations in four novel genes that may play a role in regulating HDLc levels in humans.
Highlights
While genetic determinants strongly influence HDL cholesterol (HDLc) levels, most genetic causes underlying variation in HDLc remain unknown
We reported that mutations in the known HDLc-regulating genes ABCA1, APOA1, and LCAT were found in 28.7% of unrelated individuals with low HDLc levels (р10th percentile) [6], consistent with
From an initial cohort of 178 unrelated Dutch probands [6], 80 probands with HDLc р10th percentile and no known coding or splicing mutations in ABCA1, APOA1, or LCAT were selected as part of low-HDLc screening cohort (LHDL; Table 1)
Summary
While genetic determinants strongly influence HDL cholesterol (HDLc) levels, most genetic causes underlying variation in HDLc remain unknown. We aimed to identify novel rare mutations with large effects in candidate genes contributing to extreme HDLc in humans, utilizing family-based Mendelian genetics. Despite major advances in family- and population-based association studies [2, 4], most genetic causes of extreme HDLc levels in humans remain unknown. We reported that mutations in the known HDLc-regulating genes ABCA1, APOA1, and LCAT were found in 28.7% of unrelated individuals with low HDLc levels (р10th percentile) [6], consistent with. Assessing the segregation of genetic variations with apparent Mendelian forms of extreme HDLc in families is a useful and well-validated method to examine whether novel rare mutations associate with HDLc phenotypes [6, 9, 12,13,14,15]
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