Abstract
Current understanding of the genetic factors contributing to the etiology of non-syndromic craniosynostosis (NSC) remains scarce. The present work investigated the presence of variants in ALX4, EFNA4, and TWIST1 genes in children with NSC to verify if variants within these genes may contribute to the occurrence of these abnormal phenotypes. A total of 101 children (aged 45.07±40.94 months) with NSC participated in this cross-sectional study. Parents and siblings of the probands were invited to participate. Medical and family history of craniosynostosis were documented. Biological samples were collected to obtain genomic DNA. Coding exons of human TWIST1, ALX4, and EFNA4 genes were amplified by polymerase chain reaction and Sanger sequenced. Five missense variants were identified in ALX4 in children with bilateral coronal, sagittal, and metopic synostosis. A de novo ALX4 variant, c.799G>A: p.Ala267Thr, was identified in a proband with sagittal synostosis. Three missense variants were identified in the EFNA4 gene in children with metopic and sagittal synostosis. A TWIST1 variant occurred in a child with unilateral coronal synostosis. Variants were predicted to be among the 0.1% (TWIST1, c.380C>A: p. Ala127Glu) and 1% (ALX4, c.769C>T: p.Arg257Cys, c.799G>A: p.Ala267Thr, c.929G>A: p.Gly310Asp; EFNA4, c.178C>T: p.His60Tyr, C.283A>G: p.Lys95Glu, c.349C>A: Pro117Thr) most deleterious variants in the human genome. With the exception of ALX4, c.799G>A: p.Ala267Thr, all other variants were present in at least one non-affected family member, suggesting incomplete penetrance. Thus, these variants may contribute to the development of craniosynostosis, and should not be discarded as potential candidate genes in the diagnosis of this condition.
Highlights
During early childhood, the fusion of cranial sutures must follow a pre-programmed physiological time table in order to allow adequate growth of the developing brain [1]
We have investigated patient medical histories, and have Sanger DNA-sequenced all coding regions pertaining to ALX homeobox 4 (ALX4), EFNA4, and Twist family bHLH transcription factor 1 (TWIST1) genes in a population of 101 children diagnosed with non-syndromic craniosynostosis (NSC)
While the etiology of non-syndromic forms of craniosynostosis remains unclear, efforts in recent years have increased our basic understanding of several gene variants associated with these malformations
Summary
The fusion of cranial sutures must follow a pre-programmed physiological time table in order to allow adequate growth of the developing brain [1]. Twenty-two of these variants were reported in at least 2 individuals, rendering a total of at least 79 craniosynostosis variants These variants may interfere with essential processes in the preservation of suture patency during growth and development, such as osteogenic differentiation, maintenance of mesoderm-neural crest lineage boundary, and bone remodeling [5]. Specific missense variants in fibroblast growth factor receptor genes (FGFR) 1, 2, and 3 are frequently linked to early suture fusion in various autosomal dominant syndromes that express craniosynostosis, including: Apert, Crouzon, Muenke, Pfeiffer, and Jackson-Weiss syndromes [6]. Variants in these genes have not been associated with non-syndromic craniosynostosis (NSC)
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