dc.description.abstract | Low birth weight and intrauterine growth restriction (IUGR) increase the risk of mortality and
morbidity during the perinatal period as well as in adulthood. Environmental and genetic factors contribute to IUGR, but the influence of maternal genetic variation on birth weight is largely unknown. We
implemented a gene-by-environment study wherein we utilized the
growth restrictive effects of high altitude. Multigenerational highaltitude residents (Andeans) are protected from altitude-associated
IUGR compared with recent migrants (Europeans). Using a combined
cohort of low- and high-altitude European and Andean women, we
tested 63 single nucleotide polymorphisms (SNPs) from 16 natural
selection-nominated candidate gene regions for associations with
infant birth weight. We identified significant SNP associations with
birth weight near coding regions for two genes involved in oxygen
sensing and vascular control, PRKAA1 and EDNRA, respectively.
Next, we identified a significant association for the PRKAA1 SNP with
an intermediate phenotype, uterine artery diameter, which has been
shown to be related to Andean protection from altitude-associated reductions in fetal growth. To explore potential functional relationships for the
effect of maternal SNP genotype on birth weight, we evaluated the
relationship between maternal PRKAA1 SNP genotype and gene expression patterns in general and, in particular, of key pathways involved in
metabolic homeostasis that have been proposed to play a role in the
pathophysiology of IUGR. Our observations suggest that maternal genetic variation within genes that regulate oxygen sensing, metabolic
homeostasis, and vascular control influence fetal growth and birth weight
outcomes and hence Andean adaptation to high altitude. | es_ES |