Diminished Ret expression compromises neuronal survival in the colon and causes intestinal aganglionosis in mice
Toshihiro Uesaka, … , Shigenobu Yonemura, Hideki Enomoto
Toshihiro Uesaka, … , Shigenobu Yonemura, Hideki Enomoto
Published April 15, 2008
Citation Information: J Clin Invest. 2008;118(5):1890-1898. https://doi.org/10.1172/JCI34425.
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Research Article Gastroenterology

Diminished Ret expression compromises neuronal survival in the colon and causes intestinal aganglionosis in mice

Abstract

Mutations in the RET gene are the primary cause of Hirschsprung disease (HSCR), or congenital intestinal aganglionosis. However, how RET malfunction leads to HSCR is not known. It has recently been shown that glial cell line–derived neurotrophic factor (GDNF) family receptor α1 (GFRα1), which binds to GDNF and activates RET, is essential for the survival of enteric neurons. In this study, we investigated Ret regulation of enteric neuron survival and its potential involvement in HSCR. Conditional ablation of Ret in postmigratory enteric neurons caused widespread neuronal death in the colon, which led to colonic aganglionosis. To further examine this finding, we generated a mouse model for HSCR by reducing Ret expression levels. These mice recapitulated the genetic and phenotypic features of HSCR and developed colonic aganglionosis due to impaired migration and successive death of enteric neural crest–derived cells. Death of enteric neurons was also induced in the colon, where reduction of Ret expression was induced after the period of enteric neural crest cell migration, indicating that diminished Ret expression directly affected the survival of colonic neurons. Thus, enteric neuron survival is sensitive to RET dosage, and cell death is potentially involved in the etiology of HSCR.

Authors

Toshihiro Uesaka, Mayumi Nagashimada, Shigenobu Yonemura, Hideki Enomoto

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Figure 7

Conditional reduction of Ret depletes enteric neurons in the colon.

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Conditional reduction of Ret depletes enteric neurons in the colon. ...
(A) E14.5 and E15.5 Ret9/floxCAGGCre-ERTM distal colon before injection of 4-OHT. At E14.5, the entire colon was furnished with Phox2b+ cells (red), indicating that the entire gut is completely colonized by ENCDCs by this time period. The ENS formation in Ret9/flox was indistinguishable from that in wild-type. (B) Whole-mount preparation of the colon from E18.5 Ret9/floxCAGGCre-ERTM fetuses 3 days after administration of 4-OHT. Conditional reduction of Ret resulted in varying ENS phenotype ranging from apparently normal ENS formation (left) to colonic aganglionosis (right). (C) Neurons (blue arrowheads) and their neurites with signs of neurite degeneration (white arrowheads) in the aganglionic colon of Ret9/floxCAGGCre-ERTM mice. (D) Schematic showing the extent of aganglionosis observed in E18.5 Ret9/flox fetuses. The beginning of the aganglionic segment (indicated by blue and red pentagons) was determined as the point where disruption of PGP9.5 staining was observed. Each blue and red pentagon represents 1 Ret9/flox mouse after injection of 4-OHT at E15.5 and E14.5, respectively. The numbers above the schematic indicate the percentage of gut colonization by neurons, where fully colonized hindgut was assigned as 100. Scale bar: 100 μm in A and B; 20 μm in C.