Abstract
BackgroundRecent epidemiological studies suggest that the maternal genome is an important contributor to spontaneous preterm delivery (PTD). There is also a significant excess of males among preterm born infants, which may imply an X-linked mode of inheritance for a subset of cases. To explore this, we examined the effect of maternal and fetal X-chromosomal single nucleotide polymorphisms (SNPs) on the risk of PTD in two independent genome-wide association studies and one replication study.MethodsParticipants were recruited from the Danish National Birth Cohort and the Norwegian Mother and Child cohort studies. Data from these two populations were first analyzed independently, and then combined in a meta-analysis. Overall, we evaluated 12,211 SNPs in 1,535 case-mother dyads and 1,487 control-mother dyads. Analyses were done using a hybrid design that combines case-mother dyads and control-mother dyads, as implemented in the Haplin statistical software package. A sex-stratified analysis was performed for the fetal SNPs. In the replication study, 10 maternal and 16 fetal SNPs were analyzed using case-parent triads from independent studies of PTD in the United States, Argentina and Denmark.ResultsIn the meta-analysis, the G allele at the maternal SNP rs2747022 in the FERM domain containing 7 gene (FRMD7) increased the risk of spontaneous PTD by 1.2 (95% confidence interval (CI): 1.1, 1.4). Although an association with this SNP was confirmed in the replication study, it was no longer statistically significant after a Bonferroni correction for multiple testing.ConclusionWe did not find strong evidence in our data to implicate X-chromosomal SNPs in the etiology of spontaneous PTD. Although non-significant after correction for multiple testing, the mother’s G allele at rs2747022 in FRMD7 increased the risk of spontaneous PTD across all populations in this study, thus warranting further investigation in other populations.
Highlights
Preterm delivery (PTD), defined as delivery before 37 weeks of gestation, affected 15 million births in 2010 [1]
Ethics Statement All the studies outlined in this paper were approved by the regional ethics committees or institutional review boards (IRB) at each site, and a written informed consent was obtained from each participant
The best result was for rs7892483, with a combined p-value of 9.861026 and a relative risk (RR) of 1.7
Summary
Preterm delivery (PTD), defined as delivery before 37 weeks of gestation, affected 15 million births in 2010 [1]. It is associated with a substantially increased risk of mortality, as well as short- and long-term morbidity [1,2]. Recent generational epidemiological studies suggest that the maternal genome is a key genetic contributor to PTD inheritance [7,8,9], and a personal history of PTD is considered the most important risk factor for PTD in multiparous women [7]. Recent epidemiological studies suggest that the maternal genome is an important contributor to spontaneous preterm delivery (PTD). We examined the effect of maternal and fetal Xchromosomal single nucleotide polymorphisms (SNPs) on the risk of PTD in two independent genome-wide association studies and one replication study
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