Prenatal and postnatal manifestations of WBP11-related disorder in Chinese patients: expanding the phenotypic and mutational spectrum
摘要
Heterozygous pathogenic variants in WBP11, a spliceosome-associated gene, have recently been linked to VACTERL syndrome, yet prenatal manifestations and genotype–phenotype correlations remain poorly characterized.
MethodsGenomic DNA was extracted from fetal tissues, amniotic fluid cells, or peripheral blood samples for trio-based whole-exome sequencing (WES) to identify potential genetic etiologies. The structural stability of the WBP11 protein associated with missense variants was characterized using 3D protein structural modeling. The impact of splicing variant was further evaluated through TA cloning coupled with Sanger sequencing.
ResultsHere, we report the first case series of WBP11-related disorder in Chinese patients, comprising four fetuses and one postnatal child from five unrelated families. Whole-exome sequencing identified five previously unreported heterozygous WBP11 variants (NM_016312.3), including three nonsense (p.Arg55*, p.Lys83*, p.Ser279*), one canonical splice-site (c.1310-1G > A), and one missense (p.Arg91Cys). Three occurred de novo, while two were paternally inherited from clinically unaffected or mildly affected carriers, supporting incomplete penetrance. Crucially, RNA analysis of amniocytes carrying the c.1310-1G > A variant revealed only 4% aberrant splicing (c.1310del, p.Gly437Glufs*6), explaining the mild fetal phenotype of isolated femoral shortening and challenging conventional assumptions about the pathogenicity of canonical splice-site variants. The postnatal patient primarily presents with retinal pigmentary degeneration, hearing impairment, bilateral cryptorchidism, short stature, and global developmental delay. Most of these features have been reported in WBP11-related cases but are not considered classic diagnostic criteria for VACTERL. Notably, prenatal cases predominantly presented with cardiac malformations, whereas vertebral anomalies, common postnatally, were absent prenatally, suggesting age-dependent phenotypic evolution.
ConclusionsWe have documented the retinal pigment phenotype in WBP11 mutant patients for the first time. Our findings expand the mutational and clinical spectrum of WBP11-related disease, highlight the limitations of sequence-based variant interpretation without functional or transcriptomic validation, and underscore the necessity of integrating detailed phenotypic correlation into prenatal genetic counseling.