The Association of Polymorphisms in Circadian Clock and Lipid Metabolism Genes With 2 Trimester Lipid Levels and Preterm Birth.

Deregulation of the circadian system in humans and animals can lead to various adverse reproductive outcomes due to genetic mutations and environmental factors. In addition to the clock, lipid metabolism may also play an important role in influencing reproductive outcomes. Despite the importance of the circadian clock and lipid metabolism in regulating birth timing few studies have examined the relationship between circadian genetics with lipid levels during pregnancy and their relationship with preterm birth (PTB). In this study we aimed to determine if single nucleotide polymorphisms (SNPs) in genes from the circadian clock and lipid metabolism influence 2 trimester maternal lipid levels and if this is associated with an increased risk for PTB. We genotyped 72 SNPs across 40 genes previously associated with various metabolic abnormalities on 930 women with 2 trimester serum lipid measurements. SNPs were analyzed for their relationship to levels of total cholesterol, high density lipoprotein (HDL), low density lipoprotein (LDL) and triglycerides (TG) using linear regression. SNPs were also evaluated for their relationship to PTB using logistic regression. Five SNPs in four genes met statistical significance after Bonferroni correction ( < 1.8 × 10) with one or more lipid levels. Of these, four SNPs were in lipid related metabolism genes: rs7412 in with total cholesterol, HDL and LDL, rs646776 and rs599839 in C gene cluster with total cholesterol, HDL and LDL and rs738409 in with HDL and TG and one was in a circadian clock gene: rs228669 in with TG. Of these SNPs only rs228669 was marginally associated with PTB ( = 0.02). In addition, rs228669 acts as an effect modifier on the relationship between TG and PTB.