Project description:This SuperSeries is composed of the SubSeries listed below. A valuable approach to understand how individual and population genetic differences can predispose to disease is to assess the impact of genetic variants on cellular functions (e.g., gene expression) of cell and tissue types related to pathological states. To understand the genetic basis of nonsyndromic cleft lip with or without cleft palate (NSCL/P) susceptibility, a complex and highly prevalent congenital malformation, we searched for genetic variants with a regulatory role in a disease-related tissue, the lip muscle (orbicularis oris muscle [OOM]), of affected individuals. From 46 OOM samples, which are frequently discarded during routine corrective surgeries on patients with orofacial clefts, we derived mesenchymal stem cells and correlated the individual genetic variants with gene expression from these cultured cells. Through this strategy, we detected significant cis-eQTLs (i.e., DNA variants affecting gene expression) and selected a few candidates to conduct an association study in a large Brazilian cohort (624 patients and 668 controls). This resulted in the discovery of a novel susceptibility locus for NSCL/P, rs1063588, the best eQTL for the MRPL53 gene, where evidence for association was mostly driven by the Native American ancestry component of our Brazilian sample. MRPL53 (2p13.1) encodes a 39S protein subunit of mitochondrial ribosomes and interacts with MYC, a transcription factor required for normal facial morphogenesis. Our study illustrates not only the importance of sampling admixed populations but also the relevance of measuring the functional effects of genetic variants over gene expression to dissect the complexity of disease phenotypes.

Project description:A valuable approach to understand how individual and population genetic differences can predispose to disease is to assess the impact of genetic variants on cellular functions (e.g., gene expression) of cell and tissue types related to pathological states. To understand the genetic basis of nonsyndromic cleft lip with or without cleft palate (NSCL/P) susceptibility, a complex and highly prevalent congenital malformation, we searched for genetic variants with a regulatory role in a disease-related tissue, the lip muscle (orbicularis oris muscle [OOM]), of affected individuals. From 46 OOM samples, which are frequently discarded during routine corrective surgeries on patients with orofacial clefts, we derived mesenchymal stem cells and correlated the individual genetic variants with gene expression from these cultured cells. Through this strategy, we detected significant cis-eQTLs (i.e., DNA variants affecting gene expression) and selected a few candidates to conduct an association study in a large Brazilian cohort (624 patients and 668 controls). This resulted in the discovery of a novel susceptibility locus for NSCL/P, rs1063588, the best eQTL for the MRPL53 gene, where evidence for association was mostly driven by the Native American ancestry component of our Brazilian sample. MRPL53 (2p13.1) encodes a 39S protein subunit of mitochondrial ribosomes and interacts with MYC, a transcription factor required for normal facial morphogenesis. Our study illustrates not only the importance of sampling admixed populations but also the relevance of measuring the functional effects of genetic variants over gene expression to dissect the complexity of disease phenotypes.

Project description:Non-syndromic cleft lip/palate (NSCL/P) is a complex, frequent congenital malformation, determined by the interplay between genetic and environmental factors during embryonic development. Previous findings have appointed an aetiological overlap between NSCL/P and cancer, and alterations in similar biological pathways may underpin both conditions. Here, using a combination of transcriptomic profiling and functional approaches, we report that NSCL/P dental pulp stem cells exhibit dysregulation of a co-expressed gene network mainly associated with DNA double-strand break repair and cell cycle control (p = 2.88x10-2 M-bM-^@M-^S 5.02x10-9). This network included important genes for these cellular processes, such as BRCA1, RAD51, and MSH2, which are predicted to be regulated by transcription factor E2F1. Functional assays support these findings, revealing that NSCL/P cells accumulate DNA double-strand breaks upon exposure to H2O2. Furthermore, we show that E2f1, Brca1 and Rad51 involved in DNA repair are co-expressed in the developing embryonic orofacial primordia, and may act as a molecular hub playing a role in lip and palate morphogenesis. In conclusion, we show that cellular defences against DNA damage may take part in the pathogenesis of NSCL/P, in accordance with the hypothesis of aetiological overlap between this malformation and cancer. These results provide more information regarding the aetiology of NSCL/P and have the potential tocan potentially assist incontribute to the development of future preventive strategies. In order to analyze differences in gene expression between NSCL/P samples and controls we used 7 NSCL/P RNA samples extracted from dental pulp stem cells cultures and 6 control RNA samples also from dental pulp stem cells cultures, all in the same culture conditions. RNA samples were used in gene expression microarrays (Affymetrix HuGene 1.0 st chips).

Project description:The etiology and pathogenesis of non-syndromic cleft lip and palate (NSCL/P) are largely unknown. Long non-coding RNAs (lncRNA) are thought to play important roles in NSCL/P, but reports on the underlying processes are currently unavailable. Our study focused on children diagnosed with NSCL/P alone. Based on the morphology, patients were categorized as either cleft lip with or without cleft palate (CL/P) or cleft palate-only (CPO). When patients received surgery for NSCL/P, tissue excised from the trimmed wound edge was reserved to serve as experimental samples; adjacent normal tissue was used as a positive control. Target lncRNAs in the collected tissues were identified using microarray and quantitative reverse transcription PCR (RT-qPCR). Immunohistochemical (IHC) staining and RT-qPCR were used to verify the target mRNAs. Pathway, gene ontology (GO) enrichment, and TargetScan prediction were employed to construct endogenous RNA networks (ceRNA networks) and explore their potential functions. RNA-Seq analysis revealed 24 upregulated and 43 downregulated lncRNAs in the CL/P and CPO groups compared with those in the control group; of these, MALAT1and NEAT1 were screened and validated using RT-qPCR. Common NSCL/P risk factors positively correlated with MALAT1 and NEAT1 expression (ORMALAT1 = 28.111, 95% CI: 4.054-194.923; ORNEAT1 = 30.556, 95% CI: 4.422-211.142; P < 0.05). Bioinformatics predicted four ceRNA networks: MALAT1-hsa-miR-1224-3p-SP1, MALAT1-hsa-miR-6734-5p/hsa-miR-1224-3p-WNT10A, NEAT1-hsa-miR-140-3p.1-CXCR4, and NEAT1-hsa-miR-3129-5p/hsa-miR-199a-3p/hsa-miR-199b-3p-ZEB1. GO enrichment focused on the potential functions of ceRNA networks, including biosynthesis of organic cyclic compounds, formation of membrane-enclosed and organelle lumens, and Wnt-protein binding. The results of RT-qPCR were consistent with those of IHC staining with regard to expression of related mRNAs. MALAT1 and NEAT1, which are upregulated in NSCL/P, are associated with the severity of NSCL/P. This study provides a new insight into NSCL/P pathogenesis and suggests that MALAT1 and NEAT1 act as potential therapeutic targets and prognostic biomarkers for NSCL/P.

Project description:Non-syndromic cleft lip/palate (NSCL/P) is a complex, frequent congenital malformation, determined by the interplay between genetic and environmental factors during embryonic development. Previous findings have appointed an aetiological overlap between NSCL/P and cancer, and alterations in similar biological pathways may underpin both conditions. Here, using a combination of transcriptomic profiling and functional approaches, we report that NSCL/P dental pulp stem cells exhibit dysregulation of a co-expressed gene network mainly associated with DNA double-strand break repair and cell cycle control (p = 2.88x10-2 – 5.02x10-9). This network included important genes for these cellular processes, such as BRCA1, RAD51, and MSH2, which are predicted to be regulated by transcription factor E2F1. Functional assays support these findings, revealing that NSCL/P cells accumulate DNA double-strand breaks upon exposure to H2O2. Furthermore, we show that E2f1, Brca1 and Rad51 involved in DNA repair are co-expressed in the developing embryonic orofacial primordia, and may act as a molecular hub playing a role in lip and palate morphogenesis. In conclusion, we show that cellular defences against DNA damage may take part in the pathogenesis of NSCL/P, in accordance with the hypothesis of aetiological overlap between this malformation and cancer. These results provide more information regarding the aetiology of NSCL/P and have the potential tocan potentially assist incontribute to the development of future preventive strategies.

Project description:Nonsyndromic cleft lip with or without palate (NSCL/P) are common birth defects of complex etiology. Multiple interacting loci with possible additional environment factors influence the risk for NSCL/P. 12 single nucleotide polymorphisms (SNPs) in 7 candidate genes were tested using an allele-specific primer extension for both case-control and case-parents analyses in northeast China (236 unrelated patients, 185 mothers and 154 fathers, including 128 complete trios, 400 control individuals). TGFA and IRF6 genes showed a significant associations with NSCL/P. For IRF6, statistical evidence of association between rs2235371 (P=0.003), rs2013162 (P=0.000) and NSCL/P was found in case-control analyses. The Family Based Association Tests (FBAT) showed an over-transmission for C allele of rs2235371 polymorphic (p=0.007). For TGFA, associations between rs3771494, rs3771523 (G3822A), rs11466285 (T3851C) and NSCL/P could be observed both in case-control and FBAT analyses. However, we found no associations between other genes (BCL3, TGFB3, MTHFR1, PVRL1 and SUMO1) and NSCL/P. In the study present, 236 unrelated patient with NSCL/P addition with 185 mothers and 154 fathers and 400 control individuals were tested with the allele special primer extension microarray.

Project description:Nonsyndromic cleft lip with or without palate (NSCL/P) are common birth defects of complex etiology. Multiple interacting loci with possible additional environment factors influence the risk for NSCL/P. 12 single nucleotide polymorphisms (SNPs) in 7 candidate genes were tested using an allele-specific primer extension for both case-control and case-parents analyses in northeast China (236 unrelated patients, 185 mothers and 154 fathers, including 128 complete trios, 400 control individuals). TGFA and IRF6 genes showed a significant associations with NSCL/P. For IRF6, statistical evidence of association between rs2235371 (P=0.003), rs2013162 (P=0.000) and NSCL/P was found in case-control analyses. The Family Based Association Tests (FBAT) showed an over-transmission for C allele of rs2235371 polymorphic (p=0.007). For TGFA, associations between rs3771494, rs3771523 (G3822A), rs11466285 (T3851C) and NSCL/P could be observed both in case-control and FBAT analyses. However, we found no associations between other genes (BCL3, TGFB3, MTHFR1, PVRL1 and SUMO1) and NSCL/P.

Project description: Not available

Project description:We sought to identify Hedgehog-regulated genes in the frontonasal process (FNP) and ventral prosencephalon at GD9.25 in mice, during the initial pathogenesis of cleft lip with or without cleft palate.

Project description:this study analyzes the WGBS of twins discordant for non syndromic cleft lip and palate