Reduced transcription of TCOF1 in adult cells of Treacher Collins syndrome patients

<p>Abstract</p> <p>Background</p> <p>Treacher Collins syndrome (TCS) is an autosomal dominant craniofacial disorder caused by frameshift deletions or duplications in the <it>TCOF1 </it>gene. These mutations cause premature termination codons, which are predicted to lead to mRNA degradation by nonsense mediated mRNA decay (NMD). Haploinsufficiency of the gene product (treacle) during embryonic development is the proposed molecular mechanism underlying TCS. However, it is still unknown if <it>TCOF1 </it>expression levels are decreased in post-embryonic human cells.</p> <p>Methods</p> <p>We have estimated <it>TCOF1 </it>transcript levels through real time PCR in mRNA obtained from leucocytes and mesenchymal cells of TCS patients (n = 23) and controls (n = 18). Mutational screening and analysis of NMD were performed by direct sequencing of gDNA and cDNA, respectively.</p> <p>Results</p> <p>All the 23 patients had typical clinical features of the syndrome and pathogenic mutations were detected in 19 of them. We demonstrated that the expression level of <it>TCOF1 </it>is 18-31% lower in patients than in controls (<it>p < 0.05</it>), even if we exclude the patients in whom we did not detect the pathogenic mutation. We also observed that the mutant allele is usually less abundant than the wild type one in mesenchymal cells.</p> <p>Conclusions</p> <p>This is the first study to report decreased expression levels of <it>TCOF1 </it>in TCS adult human cells, but it is still unknown if this finding is associated to any phenotype in adulthood. In addition, as we demonstrated that alleles harboring the pathogenic mutations have lower expression, we herein corroborate the current hypothesis of NMD of the mutant transcript as the explanation for diminished levels of <it>TCOF1 </it>expression. Further, considering that <it>TCOF1 </it>deficiency in adult cells could be associated to pathologic clinical findings, it will be important to verify if TCS patients have an impairment in adult stem cell properties, as this can reduce the efficiency of plastic surgery results during rehabilitation of these patients.</p

Human Stem Cell Cultures from Cleft Lip/Palate Patients Show Enrichment of Transcripts Involved in Extracellular Matrix Modeling By Comparison to Controls

Nonsyndromic cleft lip and palate (NSCL/P) is a complex disease resulting from failure of fusion of facial primordia, a complex developmental process that includes the epithelial-mesenchymal transition (EMT). Detection of differential gene transcription between NSCL/P patients and control individuals offers an interesting alternative for investigating pathways involved in disease manifestation. Here we compared the transcriptome of 6 dental pulp stem cell (DPSC) cultures from NSCL/P patients and 6 controls. Eighty-seven differentially expressed genes (DEGs) were identified. The most significant putative gene network comprised 13 out of 87 DEGs of which 8 encode extracellular proteins: ACAN, COL4A1, COL4A2, GDF15, IGF2, MMP1, MMP3 and PDGFa. Through clustering analyses we also observed that MMP3, ACAN, COL4A1 and COL4A2 exhibit co-regulated expression. Interestingly, it is known that MMP3 cleavages a wide range of extracellular proteins, including the collagens IV, V, IX, X, proteoglycans, fibronectin and laminin. It is also capable of activating other MMPs. Moreover, MMP3 had previously been associated with NSCL/P. The same general pattern was observed in a further sample, confirming involvement of synchronized gene expression patterns which differed between NSCL/P patients and controls. These results show the robustness of our methodology for the detection of differentially expressed genes using the RankProd method. In conclusion, DPSCs from NSCL/P patients exhibit gene expression signatures involving genes associated with mechanisms of extracellular matrix modeling and palate EMT processes which differ from those observed in controls. This comparative approach should lead to a more rapid identification of gene networks predisposing to this complex malformation syndrome than conventional gene mapping technologies

Mapping and regulatory mechanisms study of genes associated with caraniofacial malformations

Neste trabalho, estudamos duas malformações craniofaciais mendelianas, decorrentes de um distúrbio do desenvolvimento dos primeiro e segundo arcos faríngeos: a síndrome de Treacher Collins (STC) e a síndrome Aurículo-condilar (SAC). A identificação de genes e de mecanismos moleculares associados a essas condições, além de contribuir para a compreensão do desenvolvimento das estruturas derivadas desses arcos faríngeos, é fundamental para o desenvolvimento do diagnóstico molecular, uma ferramenta importante para diagnóstico diferencial e aconselhamento genético. Contribuímos para uma melhor caracterização clínica da SAC com a descrição de uma nova família com 11 afetados. Após excluirmos quatro genes/regiões candidatas para síndromes de 1º e 2º arcos faríngeos, realizamos estudos de ligação usando marcadores polimórficos ao longo do genoma. Mapeamos o primeiro lócus associado à SAC, 1p21.1-q23.3 (lod score=3.0), e nossos dados sugerem que há heterogeneidade genética para essa patologia. Com relação ao estudo da STC, realizamos uma extensa revisão da nomenclatura das mutações patogênicas descritas na literatura, além de investigar mecanismos mutacionais atípicos na STC, corroborando a hipótese de que mutações nos exons que sofrem splicing alternativo são capazes de gerar o fenótipo da síndrome. Demos continuidade à caracterização do espectro de mutações no gene TCOF1 e investigamos a correlação genótipo-fenótipo numa amostra de 58 pacientes com STC. A análise dos dados de polimorfismos da região codificadora do gene permitiu que fizéssemos inferências sobre o regime de seleção ao qual o TCOF1 está submetido, e os resultados sugeriram que o gene TCOF1 está sob seleção purificadora, que atua sobre mutações fracamente deletérias. Também inferimos a fase para um conjunto de polimorfismos da região codificadora, verificando se havia associação de algum haplótipo à gravidade do quadro clínico ou à predisposição para a doença. Dada a observação de ausência de correlação haplótipo/genótipo-fenótipo, testamos a hipótese de que variações nos níveis de expressão do alelo normal poderiam ser responsáveis pela variabilidade clínica observada nos pacientes portadores da STC. Para tanto, iniciamos o estudo funcional das regiões regulatórias do gene TCOF1 , inclusive, de regiões distantes do promotor mínimo, preditas como enhancers. Identificamos polimorfismos em sua região promotora, sendo um deles capaz de diminuir os níveis de transcrição e de afetar a ligação do fator de transcrição YY1 ao promotor do TCOF1 . Caracterizamos a ação de YY1 como repressora in vitro. Testamos também a hipótese de haploinsuficiência como mecanismo associado à STC. Quantificamos os níveis de transcritos do TCOF1 em indivíduos afetados e normais e observamos uma diferença significativa. Nosso trabalho corrobora a hipótese de haploinsuficiência e mostra pela primeira vez que pacientes têm degradação de transcritos. Também investigamos a possibilidade de os níveis de transcritos estarem correlacionados à variabilidade fenotípica. Comparamos os dados de expressão de cada paciente à freqüência de nove sinais clínicos principais da STC, mas nenhuma correlação foi observada. Investigamos o padrão de metilação da ilha CpG do gene TCOF1 em pacientes e em controles, com o intuito de verificar se diferentes níveis de metilação inter-individual estariam associados à grande variação na expressão gênica. Demonstramos que a metilação da ilha CpG não é o mecanismo regulatório por trás dessa ampla variação de expressão do TCOF1In the present study, we investigate two craniofacial mendelian disorders, resulting from abnormalities in the development of the first and second pharyngeal arches: the Treacher Collins Syndrome (TCS ) and the auriculo condylar syndrome (ACS). The identification of genes and molecular mechanisms associated to these conditions, in addition to contributing to the understanding of the development of structures derived from these pharyngeal arches, is fundamental for the development of molecular diagnostics, an important tool for differential diagnosis and genetic counseling. We contributed to a better clinical characterization of ACS with a description of a new family with 11 affected individuals. After excluding four candidate genes/regions for syndromes of the 1st and 2nd pharyngeal arches, we carried out linkage studies using polymorphic markers throughout the genome. We mapped the first locus associated to ACS, 1p21.1-q23.3 (lod score=3.0), and our data suggest genetic heterogeneity exists for this pathology. With respect to the study of TCS , we carried out an extensive review of the nomenclature for the pathogenic mutations described in the literature, in addition to investigating atypical mutation mechanisms in TCS , corroborating the hypothesis that mutations in the exons that undergo alternative splicing can result in the TCS phenotype. We continued the characterization of the mutation spectrum for TCOF1 and we investigated the genotype-phenotype correlation in a sample of 58 patients with TCS . The analysis of polymorphisms in the coding region allowed us to make inferences about the selective regime experienced by TCOF1 , and our results suggested that TCOF1 is under purifying selection, which acts upon weakly deleterious mutations. We also inferred the phase for a set of polymorphisms in the coding region, testing whether there was association between any haplotype and the severity of the phenotype or the susceptibility to the disease. Given the observation of no correlation between haplotype/genotype and phenotype, we tested the hypothesis that variation in the levels of expression of the normal allele could be responsible for the clinical variability observed in TCS patients. To do this, we started a functional study of the TCOF1 regulatory regions, including regions distant from the minimal promoter, predicted to be enhancers. We identified polymorphisms in the promoter region, one of which reduced the levels of transcription and affected the binding of the YY1 transcription factor to the TCOF1 promoter. Using an in vitro assay we characterized YY1 as a repressor. We also tested the hypothesis of haploinsufficiency as a mechanism associated to TCS . We quantified the levels of TCOF1 transcripts in normal and affected individuals and found a significant difference. Our study corroborates the haploinsufficiency hypothesis and for the first time shows that patients have transcript degradation. We also investigated the possibility that transcripts levels are correlated to phenotypic variability. We compared the expression data for each patient with the frequency of nine clinical signs of TCS , but no correlation was found. We investigated the pattern of methylation on the CpG island of TCOF1 in patients and controls, in order to test whether different levels of methylation among individuals were associated to the great variation in gene expression. We demonstrated that methylation of the CpG island is not the regulatory mechanisms underlying the broad variation in TCOF1 expression

Ciclamato de sódio, sacarina e xilitol : açúcares livres de genotoxicidade

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Avaliação das potencialidades genotóxicas do digluconato de clorexidine em células somáticas de Drosophila melanogaster

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Avaliação das potencialidades genotóxicas do digluconato de clorexidine em células somáticas de Drosophila melanogaster

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New locus underlying auriculocondylar syndrome (ARCND): 430 kb duplication involving TWIST1 regulatory elements.

Funder: VTCT Foundation FellowshipBACKGROUND: Auriculocondylar syndrome (ARCND) is a rare genetic disease that affects structures derived from the first and second pharyngeal arches, mainly resulting in micrognathia and auricular malformations. To date, pathogenic variants have been identified in three genes involved in the EDN1-DLX5/6 pathway (PLCB4, GNAI3 and EDN1) and some cases remain unsolved. Here we studied a large unsolved four-generation family. METHODS: We performed linkage analysis, resequencing and Capture-C to investigate the causative variant of this family. To test the pathogenicity of the CNV found, we modelled the disease in patient craniofacial progenitor cells, including induced pluripotent cell (iPSC)-derived neural crest and mesenchymal cells. RESULTS: This study highlights a fourth locus causative of ARCND, represented by a tandem duplication of 430 kb in a candidate region on chromosome 7 defined by linkage analysis. This duplication segregates with the disease in the family (LOD score=2.88) and includes HDAC9, which is located over 200 kb telomeric to the top candidate gene TWIST1. Notably, Capture-C analysis revealed multiple cis interactions between the TWIST1 promoter and possible regulatory elements within the duplicated region. Modelling of the disease revealed an increased expression of HDAC9 and its neighbouring gene, TWIST1, in neural crest cells. We also identified decreased migration of iPSC-derived neural crest cells together with dysregulation of osteogenic differentiation in iPSC-affected mesenchymal stem cells. CONCLUSION: Our findings support the hypothesis that the 430 kb duplication is causative of the ARCND phenotype in this family and that deregulation of TWIST1 expression during craniofacial development can contribute to the phenotype