BackgroundDespite evidence that genetic factors contribute to gestational length and preterm birth, robust associations with genetic variants have not been identified. We hypothesized that analyzing larger data sets with gestational length information by genomewide association would reveal trait-influencing variants.MethodsWe performed a genomewide association study in a discovery data set of 43,568 women of European ancestry from 23andMe, Inc., for gestational length as a continuous trait and for term or preterm (<37 weeks) birth as a dichotomous outcome. We used three Nordic data sets (8,643 women) for replication of 14 genomic loci achieving either genomewide (P < 5×10-8) or suggestive association (P < 1×10-6).ResultsIn the discovery stage, for gestational length, four loci (EBF1, EEFSEC, AGTR2 and WNT4) achieved genomewide significance, all of which were replicated in the Nordic data sets. Functional analysis of the WNT4 locus indicated the likely causative variant alters the binding of ESR1. ADCY5 and RAP2C, which had suggestive significance in the discovery stage, were significantly replicated and achieved genomewide significance in joint analysis. Common variants in EBF1, EEFSEC and AGTR2 were also associated with preterm birth with genomewide significance. Analysis of mother-infant dyads indicated that these findings likely resulted from maternal genome actions.ConclusionsOur study is the first to identify maternal genetic variants robustly associated with gestational length and preterm birth. Roles of these loci in uterine development, maternal nutrition, and vascular control support their mechanistic involvement and create opportunities to investigate new risk factors for prevention of preterm birth.
BACKGROUNDDespite evidence that genetic factors contribute to the duration of gestation and the risk of preterm birth, robust associations with genetic variants have not been identified. We used large data sets that included the gestational duration to determine possible genetic associations. METHODSWe performed a genomewide association study in a discovery set of samples obtained from 43,568 women of European ancestry using gestational duration as a continuous trait and term or preterm (<37 weeks) birth as a dichotomous outcome. We used samples from three Nordic data sets (involving a total of 8643 women) to test for replication of genomic loci that had significant genomewide association (P<5.0×10 −8 ) or an association with suggestive significance (P<1.0×10 −6 ) in the discovery set. RESULTSIn the discovery and replication data sets, four loci (EBF1, EEFSEC, AGTR2, and WNT4) were significantly associated with gestational duration. Functional analysis showed that an implicated variant in WNT4 alters the binding of the estrogen receptor. The association between variants in ADCY5 and RAP2C and gestational duration had suggestive significance in the discovery set and significant evidence of association in the replication sets; these variants also showed genomewide significance in a joint analysis. Common variants in EBF1, EEFSEC, and AGTR2 showed association with preterm birth with genomewide significance. An analysis of mother-infant dyads suggested that these variants act at the level of the maternal genome. CONCLUSIONSIn this genomewide association study, we found that variants at the EBF1, EEFSEC, AGTR2, WNT4, ADCY5, and RAP2C loci were associated with gestational duration and
The function of von Willebrand factor (VWF) is regulated by proteolysis, which limits its multimeric size and ability to tether platelets. The importance of ADAMTS13 metalloprotease in VWF regulation is demonstrated by the association between severe deficiency of ADAMTS13 and thrombotic thrombocytopenic purpura (TTP). However, ADAMTS13 activity levels do not always correlate with the clinical course of TTP, suggesting that other proteases could be important in regulating VWF. We identified 4 leukocyte IntroductionThe hemostatic activity of von Willebrand factor (VWF) is regulated in blood by the metalloprotease ADAMTS13, which cleaves VWF in the A2 domain. 1 The importance of VWF regulation by ADAMTS13 is demonstrated by the close association between severe deficiency of ADAMTS13 activity and thrombotic thrombocytopenic purpura (TTP). 2,3 However, the association between ADAMTS13 activity and TTP is imperfect. Patients with inhibitor-mediated ADAMTS13 deficiency can achieve clinical remission despite persistent severe deficiency of ADAMTS13 activity, 2,4 and not all patients with congenital deficiency of ADAMTS13 develop TTP. 5 Moreover, VWF proteolysis can be paradoxically increased in TTP patients during acute episodes. 6 These observations suggest the existence of other important disease-modifying factors in TTP, in addition to ADAMTS13.Disease-modifying factors in TTP may include other VWFcleaving proteases. Before the discovery of ADAMTS13, the proteases calpain, neutrophil elastase, and cathepsin G were known to cleave VWF. [7][8][9][10][11][12] However, the exact cleavage sites were not determined, and the physiologic relevance of these proteases was unknown. It was known that normal plasma contained proteolytic fragments of VWF having masses of approximately 176 kDa and 140 kDa. The primary cleavage site that gave rise to these fragments was identified as the Y1605-M1606 peptide bond. 13 In studies seeking to identify the responsible protease, Tsai et al 8,9,14 observed that neutrophil proteases cleaved high-molecular-weight VWF into a series of multimers indistinguishable from those found in normal plasma. By contrast, Berkowitz et al 10 concluded that VWF cleavage fragments generated by neutrophil elastase were different from the 176-kDa and 140-kDa fragments found in plasma. The role of leukocyte proteases in VWF regulation remained unresolved, and was later overshadowed by the discovery of ADAMTS13.In this study, we demonstrate that under denaturing and fluid shear stress conditions multiple leukocyte proteases cleave VWF predominantly in the central A2 domain. We also show that activated neutrophils, but not normal neutrophils, retain VWF cleaving activity in the presence of plasma inhibitors, suggesting that leukocyte proteases may regulate VWF function under physiologic conditions. Methods Patients and plasmaBlood samples were obtained from volunteer subjects after informed consent, in accordance with the Declaration of Helsinki, sanctioned by the institutional human research subject committees o...
Non-syndromic cleft lip with or without cleft palate (NS-CL/P) is one of the most common human birth defects and is generally considered a complex trait. Despite numerous loci identified by genome-wide association studies, the effect sizes of common variants are relatively small, with much of the presumed genetic contribution remaining elusive. We report exome-sequencing results in 209 people from 72 multi-affected families with pedigree structures consistent with autosomal-dominant inheritance and variable penetrance. Herein, pathogenic variants are described in four genes encoding components of the p120-catenin complex (CTNND1, PLEKHA7, PLEKHA5) and an epithelial splicing regulator (ESRP2), in addition to the known CL/P-associated gene, CDH1, which encodes E-cadherin. The findings were also validated in a second cohort of 497 people with NS-CL/P, comprising small families and singletons with pathogenic variants in these genes identified in 14% of multi-affected families and 2% of the replication cohort of smaller families. Enriched expression of each gene/protein in human and mouse embryonic oro-palatal epithelia, demonstration of functional impact of CTNND1 and ESRP2 variants, and recapitulation of the CL/P spectrum in Ctnnd1 knockout mice support a causative role in CL/P pathogenesis. These data show that primary defects in regulators of epithelial cell adhesion are the most significant contributors to NS-CL/P identified to date and that inherited and de novo single gene variants explain a substantial proportion of NS-CL/P.
The duration of pregnancy is influenced by fetal and maternal genetic and non-genetic factors. Here we report a fetal genome-wide association meta-analysis of gestational duration, and early preterm, preterm, and postterm birth in 84,689 infants. One locus on chromosome 2q13 is associated with gestational duration; the association is replicated in 9,291 additional infants (combined P = 3.96 × 10 −14 ). Analysis of 15,588 mother-child pairs shows that the association is driven by fetal rather than maternal genotype. Functional experiments show that the lead SNP, rs7594852, alters the binding of the HIC1 transcriptional repressor. Genes at the locus include several interleukin 1 family members with roles in pro-inflammatory pathways that are central to the process of parturition. Further understanding of the underlying mechanisms will be of great public health importance, since giving birth either before or after the window of term gestation is associated with increased morbidity and mortality.
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