Non-syndromic oral clefts share the main clinical features of Van der Woude Syndrome (VWS), with the exception of the lower lip pit. Thus, about 15% of VWS cases are indistinguishable from cases with non-syndromic oral clefts. IRF6 mutations are the major cause of VWS; however, variants in this gene show strong association with non-syndromic oral clefts, with a higher increased risk among cases with cleft lip only (CLO). A total of 39 individuals, including 16 patients with CLO and 23 patients with a family history of cleft, were examined for IRF6 mutations in the present study. Seven variants, including five known (c.-75-4 A>; G, c.-73T>; C, c.459G>; T 5, c.820G>; A, and c.1060 + 37C>; T) and two novel (c.-75-23G>; C and c.1380G>; T), were found. Both novel variants were inherited from non-affected parents and we did not find also in the 120 control chromosomes. In silico analysis revealed that both c.1380G>; T and c.-75-23G>; C variants may disrupts a putative exonic splicing enhancer and intronic splicing binding site for SC35, respectively. Taken together, the presence of deleterious IRF6 variants in patients with non-syndromic oral clefts could be most likely an evidence for VWS. While, IRF6 variants could, at best, contribute to clefting as part of a complex inheritance pattern, with both additional genes and environmental factors having a role.
Microdeletion of the Van der Woude syndrome (VWS) critical region is a relatively rare event, and only a few cases have been reported in the medical literature. The extent of the deletion and the genotype-phenotype correlation are 2 crucial issues.
Several studies have shown evidence for the contribution of interferon regulatory factor 6 (IRF6) variants to the risk of nonsyndromic oral clefts in Asians; however, this has not included the Malay population. The current study attempts to address this research gap using allele and haplotype transmission disequilibrium analyses. The results showed a strong transmission distortion for multiple haplotypes to patients with nonsyndromic cleft lip with or without cleft palate. Haplotypes carrying the 243 bp allele of D1S2136 and common alleles at the rs861019 and rs2235371 were over-transmitted to patients. By contrast, haplotypes consisting of the 251 bp allele of D1S2136 and the rare allele at rs2235371 were more under-transmitted. Furthermore, several variants and haplotypes showed excess maternal transmission, but none of them attained statistical significance in maternal relative risk analyses. In contrast, a significant child genotype effect was observed for several haplotypes, indicating fetal genotype could be the major genetic contribution rather than maternal genotype. The present study therefore further supports a role for IRF6 variants in clefting in this Southeast Asian population. Overall, Asian genetic backgrounds are most likely more susceptible to the haploinsufficiency of IRF6 variants. These variants may contribute to the condition either themselves, or they may be in linkage disequilibrium with other casual variants.
The study aimed to investigate the association between the interferon regulatory factor 5 (IRF5) gene polymorphisms and the onset of Crohn's disease (CD) in a Malaysian cohort.
The release of DNA into the cytoplasm upon damage to the nucleus or during viral infection triggers an interferon-mediated defense response, inflammation and cell death. In human cells cytoplasmic DNA is sensed by cyclic GMP-AMP Synthase (cGAS) and Absent In Melanoma 2 (AIM2). Here, we report the identification of a "natural knockout" model of cGAS. Comparative genomics of phylogenetically diverse mammalian species showed that cGAS and its interaction partner Stimulator of Interferon Genes (STING) have been inactivated by mutations in the Malayan pangolin whereas other mammals retained intact copies of these genes. The coding sequences of CGAS and STING1 are also disrupted by premature stop codons and frame-shift mutations in Chinese and tree pangolins, suggesting that expression of these genes was lost in a common ancestor of all pangolins that lived more than 20 million years ago. AIM2 is retained in a functional form in pangolins whereas it is inactivated by mutations in carnivorans, the phylogenetic sister group of pangolins. The deficiency of cGAS and STING points to the existence of alternative mechanisms of controlling cytoplasmic DNA-associated cell damage and viral infections in pangolins.