Abstract
Van der Woude syndrome (VWS) is a genetic syndrome that leads to typical phenotypic traits, including lower lip pits and cleft lip/palate (CLP). The majority of VWS-affected patients harbor a pathogenic variant in the gene encoding for the transcription factor interferon regulatory factor 6 (IRF6), a crucial regulator of orofacial development, epidermal differentiation and tissue repair. However, most of the underlying mechanisms leading from pathogenic IRF6 gene variants to phenotypes observed in VWS remain poorly understood and elusive. The availability of one VWS individual within our cohort of CLP patients allowed us to identify a novel VWS-causing IRF6 variant and to functionally characterize it. Using VWS patient-derived keratinocytes, we reveal that most of the mutated IRF6_VWS transcripts are subject to a non-sense-mediated mRNA decay mechanism, resulting in IRF6 haploinsufficiency. While moderate levels of IRF6_VWS remain detectable in the VWS keratinocytes, our data illustrate that the IRF6_VWS protein, which lacks part of its protein-binding domain and its whole C-terminus, is noticeably less stable than its wild-type counterpart. Still, it maintains transcription factor function. As we report and characterize a so far undescribed VWS-causing IRF6 variant, our results shed light on the physiological as well as pathological role of IRF6 in keratinocytes. This acquired knowledge is essential for a better understanding of the molecular mechanisms leading to VWS and CLP.
Highlights
Craniofacial morphogenesis represents one of the most intricate developmental processes of our body
While there were no obvious differences visible in hematoxylin and eosin (H&E) stainings of the 3D skin models among the cultures tested, we detected a significantly reduced area of LOR-positive keratinocytes in the suprabasal layers in the Van der Woude syndrome (VWS) culture compared to CLP1 and CLP2 (Figures 1C, D)
According to HGMD R (Stenson et al, 2017), there are currently 351 described pathogenic interferon regulatory factor 6 (IRF6) variants that either cause non-syndromic cleft lip/palate (CLP), or the rare diseases Pierre Robin Sequence (OMIM # 261800), VWS or the related Popliteal Pterygium syndrome (PPS). These pathogenic variants are nonrandomly distributed among the nine exons of IRF6 as most of them are localized within its two conserved functional domains, the DBD and the SMIR/interferon association domain (IAD)
Summary
Craniofacial morphogenesis represents one of the most intricate developmental processes of our body It involves several spatiotemporally regulated gene regulatory networks (GRN) that control cellular mechanisms, such as differentiation, migration, proliferation, and apoptosis, driving outgrowth, patterning, and fusion of facial structures. This immense complexity makes the formation of the craniofacial components highly susceptible to dysregulations that can lead to anomalies, such as cleft lip/palate (CLP) (Wilkie and Morriss-Kay, 2001). Even after the need for the young CLP patients to endure several corrective surgeries, they may still experience complications and consequences of their anomalies, including problems with speech, hearing, wound healing, scar and tissue contractures, and facial asymmetries (Van Beurden et al, 2005; Hortis-Dzierzbicka et al, 2012)
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