Project description:To address the role of miRNAs in Hirschsprund disease (HSCR), we carried out microRNA (miRNA) array analysis by using human intestinal samples obtained from HSCR patients and controls, and identified dysregulated miRNAs involved in the pathogenesis of HSCR.
Project description:This study was undertaken to identify gene expression changes in enteric neurons of Hirschsprung disease mice. Methods: We performed single-cell RNA sequencing of enteric nervous system cells isolated from the small intestine of Ednrb-knockout mice at age P14. Results: Through comparisons with published datasets of WT small intestine enteric neurons, we identify a missing neuronal population in the ganglionated small intestine of Hirschsprung disease mice. Conclusion: Single-cell RNA sequencing permits identification of cellular perturbations in Hirschsprung disease models.
Project description:<p>Hirschsprung disease (HSCR) is a birth defect resulting from the absence of nerve (ganglion) cells in the gastrointestinal tract. Hirschsprung disease has a population incidence of 1/5,000 live births and most often occurs as an isolated condition. However, approximately 30% of HSCR cases are associated with other birth defects such as Down syndrome, deafness, hypopigmentation, and Congenital Central Hypoventilation syndrome (CCHS). Hirschsprung disease is a genetic condition with autosomal dominant, autosomal recessive, and multigenic patterns of inheritance described. The goal of the research study is to identify genes harboring causative HSCR mutations and to better understand the complex inheritance of HSCR in families using whole genome mapping and sequencing studies with functional follow-up of candidate genes and variants. We intend to ascertain the frequency with which mutations in any human gene lead to familial and isolated forms of HSCR. Clinical information is collected to allow investigation of possible genotype - phenotype correlations.</p> <p>The subject population consists of individuals diagnosed with HSCR and their unaffected relatives. Individuals/families are ascertained through support groups, web-based listings of research studies and genetic testing services, an educational study website, and referrals from genetic counselors and physicians. Blood, or tissue, samples are requested from affected individuals and their unaffected relatives.</p>
Project description:Hirschsprung disease (HSCR) is a neurocristopathy characterized by absence of intramural ganglion cells along variable lengths of the gastrointestinal tract. The HSCR phenotype is highly variable with respect to gender, segment length of aganglionosis, familiality and the presence of additional anomalies. By molecular genetic analysis, a minimum of 11 neuro-developmental genes (RET, GDNF, NRTN, SOX10, EDNRB, EDN3, ECE1, ZFHX1B, PHOX2B, KIAA1279, TCF4) are known to harbor rare high-penetrance mutations that confer a large risk to the bearer. In addition, two other genes (RET, NRG1) harbor common low-penetrance polymorphisms that contribute only partially to risk and act as genetic modifiers. To broaden this search, we examined whether a set of 67 proven and candidate HSCR genes harbored additional modifier alleles. In this pilot study, we utilized a custom-designed array CGH with ~33,000 test probes at an average resolution of ~185bp to detect gene-sized or smaller copy number variants (CNVs) within these 67 genes in 18 heterogeneous HSCR patients. Using stringent criteria, we identified CNVs at three loci (MAPK10, ZFHX1B, SOX2) that are novel, involve regulatory and coding sequences of these neuro-developmental genes and show association with HSCR in combination with other congenital anomalies.
Project description:Hirschsprung disease (HSCR) is a neurocristopathy characterized by absence of intramural ganglion cells along variable lengths of the gastrointestinal tract. The HSCR phenotype is highly variable with respect to gender, segment length of aganglionosis, familiality and the presence of additional anomalies. By molecular genetic analysis, a minimum of 11 neuro-developmental genes (RET, GDNF, NRTN, SOX10, EDNRB, EDN3, ECE1, ZFHX1B, PHOX2B, KIAA1279, TCF4) are known to harbor rare high-penetrance mutations that confer a large risk to the bearer. In addition, two other genes (RET, NRG1) harbor common low-penetrance polymorphisms that contribute only partially to risk and act as genetic modifiers. To broaden this search, we examined whether a set of 67 proven and candidate HSCR genes harbored additional modifier alleles. In this pilot study, we utilized a custom-designed array CGH with ~33,000 test probes at an average resolution of ~185bp to detect gene-sized or smaller copy number variants (CNVs) within these 67 genes in 18 heterogeneous HSCR patients. Using stringent criteria, we identified CNVs at three loci (MAPK10, ZFHX1B, SOX2) that are novel, involve regulatory and coding sequences of these neuro-developmental genes and show association with HSCR in combination with other congenital anomalies. Two-condition experiment: Patient vs. Control. Sex-matched controls. Technical replicates: 4 were examined twice and 3 were studied in triplicate. Technical replicates: 408.3.1, 408.3.2 Technical replicates: 300.3.1, 300.3.2 Technical replicates: 354.3.1, 354.3.2 Technical replicates: 355.3.1, 355.3.2 Technical replicates: 63.3.1, 63.3.2, 63.3.3 Technical replicates: 122.7.1, 122.7.2, 122.7.3 Technical replicates: 413.3.1, 413.3.2, 413.3.3
Project description:<p>Hirschsprung disease (HSCR) is a birth defect resulting from the absence of nerve (ganglion) cells in the gastrointestinal tract. Hirschsprung disease has a population incidence of 1/5,000 live births and most often occurs as an isolated condition. However, approximately 30% of HSCR cases are associated with other birth defects such as Down syndrome, deafness, hypopigmentation, and Congenital Central Hypoventilation syndrome (CCHS). Hirschsprung disease is a genetic condition with autosomal dominant, autosomal recessive, and multigenic patterns of inheritance described. The goal of the research study is to identify genes harboring causative HSCR mutations and to better understand the complex inheritance of HSCR in families using whole genome mapping and sequencing studies with functional follow-up of candidate genes and variants. We intend to ascertain the frequency with which mutations in any human gene lead to familial and isolated forms of HSCR. Clinical information is collected to allow investigation of possible genotype - phenotype correlations.</p> <p>The subject population consists of individuals diagnosed with HSCR and their unaffected relatives. Individuals/families are ascertained through support groups, web-based listings of research studies and genetic testing services, an educational study website, and referrals from genetic counselors and physicians. Blood, or tissue, samples are requested from affected individuals and their unaffected relatives.</p>
Project description:Previous studies indicate that host phagocytes are regulated by a complex combination of pattern recognition receptors-signaling and miRNA inductions. We performed microRNA array to determine whether S. pneumoniae PfbA suppresses phagocytosis via miRNA inductions.