}: The proposed research is geared to a near-complete elucidation of the genes, their sequence variants and their biochemical pathways that are mutant and dysregulated In Hirschsprung disease (HSCR); the 'HSCR gene universe.' HSCR is a common neuro-deveiopmental congenital disorder associated with the lack of intramural ganglia along varying lengths of the gastrointestinal tract. The overall goal Is to identify the critical rate-limiting steps in the development of the enteric nervous system (ENS) In humans so that the disease process can be elucidated and, consequently, precise targets for future therapeutic intervention can be. identified. Past research, supported by this grant, has already identified many key molecular genetic features of HSCR. To accomplish the major goals the following aims are being pursued In the next phase: (I) Quantify the mutational burden and effects at the three major signaling pathways (RET, EDNRB, SEMA3) deficient in HSCR; (II) Define the extent, Impact and molecular consequences of large copy number variants In HSCR; (III) Quantify the r6le and impact of common and rare sequence variants in HSCR; (iV) Expand on an existing patient/family collection and maintain a current Information resource for researchers and patients. The general approach being taken Is to use state-of-the-art technologies to screen the genome of HSCR patients, their affected relatives and their parents, using DNA and RNA analyses followed by computational studies, to Identify genes, variants and molecular pathways dysregulated In HSCR. The putative candidate genes are then studied in greater detail in mouse, zebrafish and cell culture models to demonstrate that they indeed contribute to aganglionosis and con-espond to critical rate-limiting steps of the disease. To accomplish these aims, we will also Increase patient and family recruitment from a variety of sources and disseminate our research results in a manner suitable for both the research and HSCR patient communities.

Public Health Relevance

Hirschsprung (HSCR) is a common neuro-deveiopmental congenital defect and a model for understanding the role of multiple genes and pathways In complex human disease. Our goals are to provide a near complete moiecijlar description of genes, sequence variants and molecular processes disrupted in HSCR using genomics approaches. Our genetic discoveries will specify those critical, rate-limiting molecular processes in this disorder where genetic therapies can be targeted to reduce recurrence risk in families.

Agency
National Institute of Health (NIH)
Institute
Eunice Kennedy Shriver National Institute of Child Health & Human Development (NICHD)
Type
Method to Extend Research in Time (MERIT) Award (R37)
Project #
5R37HD028088-24
Application #
9262256
Study Section
Special Emphasis Panel (NSS)
Program Officer
Henken, Deborah B
Project Start
2015-05-15
Project End
2018-04-01
Budget Start
2017-05-01
Budget End
2018-04-01
Support Year
24
Fiscal Year
2017
Total Cost
Indirect Cost
Name
Johns Hopkins University
Department
Genetics
Type
Schools of Medicine
DUNS #
001910777
City
Baltimore
State
MD
Country
United States
Zip Code
21205
Fadista, João; Lund, Marie; Skotte, Line et al. (2018) Genome-wide association study of Hirschsprung disease detects a novel low-frequency variant at the RET locus. Eur J Hum Genet 26:561-569
Gui, Hongsheng; Schriemer, Duco; Cheng, William W et al. (2017) Whole exome sequencing coupled with unbiased functional analysis reveals new Hirschsprung disease genes. Genome Biol 18:48
Chatterjee, Sumantra; Kapoor, Ashish; Akiyama, Jennifer A et al. (2016) Enhancer Variants Synergistically Drive Dysfunction of a Gene Regulatory Network In Hirschsprung Disease. Cell 167:355-368.e10
Tang, Clara Sze-Man; Gui, Hongsheng; Kapoor, Ashish et al. (2016) Trans-ethnic meta-analysis of genome-wide association studies for Hirschsprung disease. Hum Mol Genet 25:5265-5275
Kapoor, Ashish; Jiang, Qian; Chatterjee, Sumantra et al. (2015) Population variation in total genetic risk of Hirschsprung disease from common RET, SEMA3 and NRG1 susceptibility polymorphisms. Hum Mol Genet 24:2997-3003
Swaminathan, Maya; Oron, Assaf P; Chatterjee, Sumantra et al. (2015) Intestinal Neuronal Dysplasia-Like Submucosal Ganglion Cell Hyperplasia at the Proximal Margins of Hirschsprung Disease Resections. Pediatr Dev Pathol 18:466-76
Jiang, Qian; Arnold, Stacey; Heanue, Tiffany et al. (2015) Functional loss of semaphorin 3C and/or semaphorin 3D and their epistatic interaction with ret are critical to Hirschsprung disease liability. Am J Hum Genet 96:581-96
Gunadi; Kapoor, Ashish; Ling, Albee Yun et al. (2014) Effects of RET and NRG1 polymorphisms in Indonesian patients with Hirschsprung disease. J Pediatr Surg 49:1614-8
Jannot, Anne-Sophie; Pelet, Anna; Henrion-Caude, Alexandra et al. (2013) Chromosome 21 scan in Down syndrome reveals DSCAM as a predisposing locus in Hirschsprung disease. PLoS One 8:e62519
Jannot, Anne-Sophie; Amiel, Jeanne; Pelet, Anna et al. (2012) Male and female differential reproductive rate could explain parental transmission asymmetry of mutation origin in Hirschsprung disease. Eur J Hum Genet 20:917-20

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