Effects of retinoic acid on proliferation and gene expression of cleft and non-cleft palatal keratinocytes

Retinoic acid (RA) is a key regulator of embryonic development and linked to several birth defects including cleft lip and palate (CLP). The aim was to investigate the effects of RA on proliferation and gene expression of human palatal keratinocytes (KCs) in vitro.status: publishe

Collagenolytic fragments and active gelatinase complexes in periodontitis.

Contains fulltext : 70541.pdf (publisher's version ) (Closed access)BACKGROUND: Periodontal tissues remodel rapidly, which enables quick adaptation to mechanical changes. Matrix metalloproteinases (MMPs) are involved in these remodeling processes under control of tissue inhibitor of metalloproteinases (TIMPs). In periodontitis, overactivity of MMPs results in pathologic tissue degradation. The aim of this study was to analyze MMPs and TIMPs in healthy and diseased gingiva, periodontal ligament (PDL), and gingival crevicular fluid (GCF). METHODS: Samples of gingiva, PDL, and GCF were obtained from healthy controls (gingiva: n = 18; PDL: n = 15; GCF: n = 8) and subjects with periodontitis (gingiva: n = 11; PDL: n = 18; GCF: n = 12). MMPs and TIMPs were analyzed by gelatin-, collagen-, and reverse zymography and by Western blotting. Total MMP activity was analyzed using a fluorogenic substrate. RESULTS: TIMP-1 and -2, active and pro-MMP-2 and -9, and active MMP-1 and -8 were present in all samples. Large amounts of active MMP-2 complexes and collagenolytic fragments were also found. Their levels were higher in PDL and GCF from subjects with periodontitis. In general, TIMP levels were lower in diseased periodontal tissues. Especially diseased GCF contained more MMPs. Surprisingly, some MMPs were more abundant in healthy gingiva and PDL than in diseased tissue. CONCLUSIONS: Unexpected variations in MMP and TIMP levels in gingiva, PDL, and GCF may result from differences in subject characteristics and disease activity. The levels of active MMP-2 complexes and collagenolytic fragments are higher in the periodontium of subjects with periodontitis and might contribute significantly to periodontal destruction

Novel IRF6 Mutations Detected in Orofacial Cleft Patients by Targeted Massively Parallel Sequencing

Common variants in interferon regulatory factor 6 (IRF6) have been associated with nonsyndromic cleft lip with or without cleft palate (NSCL/P) as well as with tooth agenesis (TA). These variants contribute a small risk towards the 2 congenital conditions and explain only a small percentage of heritability. On the other hand, many IRF6 mutations are known to be a monogenic cause of disease for syndromic orofacial clefting (OFC). We hypothesize that IRF6 mutations in some rare instances could also cause nonsyndromic OFC. To find novel rare variants in IRF6 responsible for nonsyndromic OFC and TA, we performed targeted multiplex sequencing using molecular inversion probes (MIPs) in 1,072 OFC patients, 67 TA patients, and 706 controls. We identified 3 potentially pathogenic de novo mutations in OFC patients. In addition, 3 rare missense variants were identified, for which pathogenicity could not unequivocally be shown, as all variants were either inherited from an unaffected parent or the parental DNA was not available. Retrospective investigation of the patients with these variants revealed the presence of lip pits in one of the patients with a de novo mutation suggesting a Van der Woude syndrome (VWS) phenotype, whereas, in other patients, no lip pits were identified.status: publishe

Novel mutations in LRP6 highlight the role of WNT signaling in tooth agenesis

We aimed to identify a novel genetic cause of tooth agenesis (TA) and/or orofacial clefting (OFC) by combining whole-exome sequencing (WES) and targeted resequencing in a large cohort of TA and OFC patients.status: publishe

Novel mutations in LRP6 highlight the role of WNT signaling in tooth agenesis

Purpose:We aimed to identify a novel genetic cause of tooth agenesis (TA) and/or orofacial clefting (OFC) by combining whole-exome sequencing (WES) and targeted resequencing in a large cohort of TA and OFC patients.Methods:WES was performed in two unrelated patients: one with severe TA and OFC and another with severe TA only. After deleterious mutations were identified in a gene encoding low-density lipoprotein receptor-related protein 6 (LRP6), all its exons were resequenced with molecular inversion probes in 67 patients with TA, 1,072 patients with OFC, and 706 controls.Results:We identified a frameshift (c.4594delG, p.Cys1532fs) and a canonical splice-site mutation (c.3398-2A>C, p.?) in LRP6, respectively, in the patient with TA and OFC and in the patient with severe TA only. The targeted resequencing showed significant enrichment of unique LRP6 variants in TA patients but not in nonsyndromic OFC patients. Of the five variants in patients with TA, two affected the canonical splice site and three were missense variants; all variants segregated with the dominant phenotype, and in one case the missense mutation occurred de novo.Conclusion:Mutations in LRP6 cause TA in humans