Identification of GLI Mutations in Patients with Hirschsprung Disease That Disrupt Enteric Nervous System Development in Mice

Research output: Journal Publications and ReviewsRGC 21 - Publication in refereed journalpeer-review

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Author(s)

  • Frank Pui-Ling Lai
  • Hong-Sheng Gui
  • Mai-Har Sham
  • Paul Kwong-Hang Tam
  • Maria-Mercedes Garcia-Barcelo
  • Chi-Chung Hui
  • Elly Sau-Wai Ngan

Detail(s)

Original languageEnglish
Pages (from-to)1837-1848.e5
Journal / PublicationGastroenterology
Volume149
Issue number7
Publication statusPublished - 1 Dec 2015
Externally publishedYes

Abstract

Background & Aims Hirschsprung disease is characterized by a deficit in enteric neurons, which are derived from neural crest cells (NCCs). Aberrant hedgehog signaling disrupts NCC differentiation and might cause Hirschsprung disease. We performed genetic analyses to determine whether hedgehog signaling is involved in pathogenesis. Methods We performed deep-target sequencing of DNA from 20 patients with Hirschsprung disease (16 men, 4 women), and 20 individuals without (controls), and searched for mutation(s) in GLI1, GLI2, GLI3, SUFU, and SOX10. Biological effects of GLI mutations were tested in luciferase reporter assays using HeLa or neuroblastoma cell lines. Development of the enteric nervous system was studied in Sufu<sup>f/f</sup>, Gli3<sup>Δ699</sup>, Wnt1-Cre, and Sox10<sup>NGFP</sup> mice using immunohistochemical and whole-mount staining procedures to quantify enteric neurons and glia and analyze axon fasciculation, respectively. NCC migration was studied using time-lapse imaging. Results We identified 3 mutations in GLI in 5 patients with Hirschsprung disease but no controls; all lead to increased transcription of SOX10 in cell lines. SUFU, GLI, and SOX10 form a regulatory loop that controls the neuronal vs glial lineages and migration of NCCs. Sufu mutants mice had high Gli activity, due to loss of Sufu, disrupting the regulatory loop and migration of enteric NCCs, leading to defective axonal fasciculation, delayed gut colonization, or intestinal hypoganglionosis. The ratio of enteric neurons to glia correlated inversely with Gli activity. Conclusions We identified mutations that increase GLI activity in patients with Hirschsprung disease. Disruption of the SUFU-GLI-SOX10 regulatory loop disrupts migration of NCCs and development of the enteric nervous system in mice.

Research Area(s)

  • Aganglionic Megacolon, HSCR, Mouse Model, Nervous System Development

Bibliographic Note

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Citation Format(s)

Identification of GLI Mutations in Patients with Hirschsprung Disease That Disrupt Enteric Nervous System Development in Mice. / Liu, Jessica Ai-Jia; Lai, Frank Pui-Ling; Gui, Hong-Sheng et al.
In: Gastroenterology, Vol. 149, No. 7, 01.12.2015, p. 1837-1848.e5.

Research output: Journal Publications and ReviewsRGC 21 - Publication in refereed journalpeer-review