Hirschsprung disease (HSCR), or aganglionic megacolon, is a relatively common, multifactorial birth defect associated with the lack of intrinsic ganglion cells in the myenteric (Auerbach) and submucosal (Meissner) plexuses in the gastrointestinal tract. Clinically, the symptoms range from mild to severe and involve aganglionosis of the transverse colon and beyond (long segment: L-HSCR), the splenic flexure and the descending colon (short segment: S-HSCR), or the sigmoid colon only (classic HSCR). Research supported by this grant has led to the identification and biology of five genes involved in HSCR susceptibility: the receptor tyrosine kinase RET, RET's ligand glial cell-derived neurotrophic factor (GDNF), the endothelin receptor B (EDNRB), EDNRB's ligand endothelin-3 (EDN3) and the transcription factor SOX10. Others have identified rare mutations in the alternative RET ligand neurturin (NTN), ECE1 (endothelin converting enzyme-1) and the SMAD interacting protein 1 (SMADIP1). In the previous funding period we have demonstrated multigenic inheritance in all forms of HSCR; RET mutations are necessary but not sufficient in all forms of HSCR; the existence of a common non-coding RET mutation; tissue-specific genetic interaction between RET and EDNRB; the location of novel major susceptibility factors; and, a likely interaction between RET and SOD1 (superoxide dismutase 1) as an explanation of HSCR in trisomy 21 patients. We postulate that HSCR is oligogenic, always requiring RET and other interacting disease susceptibility alleles with phenotypic expression depending on the pathways compromised. Proving this hypothesis by identifying the major genes and their specific mutations, and identifying the molecular interactions, forms the basis of this proposal. ? ? We focus on using human disease families, mouse models of HSCR gene mutations and functional analyses of mutations to prove our hypotheses. Importantly, sequence-based genomic analysis plays a major role in gene discovery in this project. The long-term objective of this study is to understand the molecular genetic basis of HSCR. More generally, our aim is to develop a paradigm for sequence-based biology in complex, human diseases. ? ?

Agency
National Institute of Health (NIH)
Institute
Eunice Kennedy Shriver National Institute of Child Health & Human Development (NICHD)
Type
Research Project (R01)
Project #
5R01HD028088-13
Application #
6854553
Study Section
Mammalian Genetics Study Section (MGN)
Program Officer
Henken, Deborah B
Project Start
1991-04-01
Project End
2009-03-31
Budget Start
2005-04-01
Budget End
2006-03-31
Support Year
13
Fiscal Year
2005
Total Cost
$438,453
Indirect Cost
Name
Johns Hopkins University
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
001910777
City
Baltimore
State
MD
Country
United States
Zip Code
21218
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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
Khayat, Morad; Tilghman, Joseph Mark; Chervinsky, Ilana et al. (2016) A PIGN mutation responsible for multiple congenital anomalies-hypotonia-seizures syndrome 1 (MCAHS1) in an Israeli-Arab family. Am J Med Genet A 170A:176-82
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
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Jiang, Qian; Turner, Tychele; Sosa, Maria X et al. (2012) Rapid and efficient human mutation detection using a bench-top next-generation DNA sequencer. Hum Mutat 33:281-9
Emison, Eileen Sproat; Garcia-Barcelo, Merce; Grice, Elizabeth A et al. (2010) Differential contributions of rare and common, coding and noncoding Ret mutations to multifactorial Hirschsprung disease liability. Am J Hum Genet 87:60-74

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