Elisa Merello scite author profile

Neural-tube defects such as anencephaly and spina bifida constitute a group of common congenital malformations caused by complex genetic and environmental factors. We have identified three mutations in the VANGL1 gene in patients with familial types (V239I and R274Q) and a sporadic type (M328T) of the disease, including a spontaneous mutation (V239I) appearing in a familial setting. In a protein-protein interaction assay V239I abolished interaction of VANGL1 protein with its binding partners, disheveled-1, -2, and -3. These findings implicate VANGL1 as a risk factor in human neural-tube defects.

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Novel mutations inVANGL1in neural tube defects

Kibar

et al. 2009

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Neural tube defects (NTDs) are severe congenital malformations caused by failure of the neural tube to close during neurulation. Their etiology is complex involving both environmental and genetic factors. We have recently reported three mutations in the planar cell polarity gene VANGL1 associated with NTDs. The aim of the present study was to define the role of VANGL1 genetic variants in the development of NTDs in a large cohort of various ethnic origins. We identified five novel missense variants in VANGL1, p.Ser83Leu, p.Phe153Ser, p.Arg181Gln, p.Leu202Phe and p.Ala404Ser, occurring in sporadic and familial cases of spinal dysraphisms. All five variants affect evolutionary conserved residues and are absent from all controls analyzed. This study provides further evidence supporting the role of VANGL1 as a risk factor in the development of spinal NTDs.

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Contribution of VANGL2 mutations to isolated neural tube defects

et al. 2010

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Vangl2 was identified as the gene defective in the Looptail mouse model for neural tube defects (NTDs). This gene forms part of the planar cell polarity pathway, also called the non-canonical Frizzled/Dishevelled pathway, which mediates the morphogenetic process of convergent extension essential for proper gastrulation and neural tube formation in vertebrates. Genetic defects in PCP signaling have strongly been associated with NTDs in mouse models. To assess the role of VANGL2 in the complex etiology of NTDs in humans, we resequenced this gene in a large multiethnic cohort of 673 familial and sporadic NTD patients, including 453 open spina bifida and 202 closed spinal NTD cases. Six novel rare missense mutations were identified in 7 patients, five of which were affected with closed spinal NTDs. This suggests that VANGL2 mutations may predispose to NTDs in approximately 2.5% of closed spinal NTDs (5 in 202), at a frequency that is significantly different from that of 0.4% (2 in 453) detected in open spina bifida patients (P=0.027). Our findings strongly implicate VANGL2 in the genetic causation of spinal NTDs in a subset of patients and provide additional evidence for a pathogenic role of PCP signaling in these malformations.

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Role of the planar cell polarity gene CELSR1 in neural tube defects and caudal agenesis

Allache

Marco

Merello

et al. 2012

Birth Defects Research

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Study of MTHFR and MS polymorphisms as risk factors for NTD in the Italian population

et al. 2002

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Loss-of-function de novo mutations play an important role in severe human neural tube defects

et al. 2015

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Background Neural tube defects (NTDs) are very common and severe birth defects that are caused by failure of neural tube closure and that have a complex aetiology. Anencephaly and spina bifida are severe NTDs that affect reproductive fitness and suggest a role for de novo mutations (DNMs) in their aetiology. Methods We used whole-exome sequencing in 43 sporadic cases affected with myelomeningocele or anencephaly and their unaffected parents to identify DNMs in their exomes. Results We identified 42 coding DNMs in 25 cases, of which 6 were loss of function (LoF) showing a higher rate of LoF DNM in our cohort compared with control cohorts. Notably, we identified two protein-truncating DNMs in two independent cases in SHROOM3, previously associated with NTDs only in animal models. We have demonstrated a significant enrichment of LoF DNMs in this gene in NTDs compared with the gene specific DNM rate and to the DNM rate estimated from control cohorts. We also identified one nonsense DNM in PAX3 and two potentially causative missense DNMs in GRHL3 and PTPRS. Conclusions Our study demonstrates an important role of LoF DNMs in the development of NTDs and strongly implicates SHROOM3 in its aetiology.

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Mutations in the planar cell polarity gene, Fuzzy, are associated with neural tube defects in humans

Seo

Zilber

Babayeva

et al. 2011

Human Molecular Genetics

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Neural tube defects (NTDs) are a heterogeneous group of common severe congenital anomalies which affect 1-2 infants per 1000 births. Most genetic and/or environmental factors that contribute to the pathogenesis of human NTDs are unknown. Recently, however, pathogenic mutations of VANGL1 and VANGL2 genes have been associated with some cases of human NTDs. Vangl genes encode proteins of the planar cell polarity (PCP) pathway that regulates cell behavior during early stages of neural tube formation. Homozygous disruption of PCP genes in mice results in a spectrum of NTDs, including defects that affect the entire neural axis (craniorachischisis), cranial NTDs (exencephaly) and spina bifida. In this paper, we report the dynamic expression of another PCP gene, Fuzzy, during neural tube formation in mice. We also identify non-synonymous Fuzzy amino acid substitutions in some patients with NTDs and demonstrate that several of these Fuzzy mutations affect formation of primary cilia and ciliary length or affect directional cell movement. Since Fuzzy knockout mice exhibit both NTDs and defective primary cilia and Fuzzy is expressed in the emerging neural tube, we propose that mutations in Fuzzy may account for a subset of NTDs in humans.

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Identification and characterization of novel rare mutations in the planar cell polarity genePRICKLE1in human neural tube defects

et al. 2011

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The planar cell polarity (PCP) pathway controls the process of convergent extension (CE) during gastrulation and neural tube closure and has been implicated in the pathogenesis of neural tube defects (NTDs) in animal models and human cohorts. In this study, we analyzed the role of one core PCP gene PRICKLE1 in these malformations. We screened this gene in 810 unrelated NTD patients and identified 7 rare missense heterozygous mutations that were absent in all controls analyzed and predicted to be functionally deleterious using bioinformatics. Functional validation of 5 PRICKLE1 variants in a zebrafish model demonstrated that one variant, p.Arg682Cys, antagonized the CE phenotype induced by the wild-type zebrafish prickle1a in a dominant fashion. Our study demonstrates that PRICKLE1 could act as a predisposing factor to human NTDs and further expands our knowledge of the role of PCP genes in the pathogenesis of these malformations.

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Elisa Merello

Mutations inVANGL1Associated with Neural-Tube Defects

Novel mutations inVANGL1in neural tube defects

Contribution of VANGL2 mutations to isolated neural tube defects

Role of the planar cell polarity gene CELSR1 in neural tube defects and caudal agenesis

Study of MTHFR and MS polymorphisms as risk factors for NTD in the Italian population

Loss-of-function de novo mutations play an important role in severe human neural tube defects

Mutations in the planar cell polarity gene, Fuzzy, are associated with neural tube defects in humans

Identification and characterization of novel rare mutations in the planar cell polarity genePRICKLE1in human neural tube defects

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