Aims and methods: Hirschsprung's disease is a frequent congenital malformation regarded as a multigenic neurocristopathy. Three susceptibility genes have been identified in Hirschsprung's disease, namely the RET proto-oncogene, the Glial cell line-Derived Neurotrophic Factor and the endothelin B receptor. A total of 174 probands with isolated Hirschsprung's disease (59 familial, 117 sporadic cases), and 4 patients with associated Waardenburg's syndrome and Hirschsprung's disease (1 familial, 3 sporadic cases) were screened for mutations in the coding sequence of the endothelin 3 gene. The coding sequence of the endothelin 3 gene was analyzed for point mutations, using a combination of SSCP analysis and direct DNA sequencing.
Results: Two heterozygous mutations (A17T and A224T) were identified in two patients with isolated Hirschsprung's disease. Two homozygous truncations mutations (E55X and GC262->T) were identified in patients with the Waardenburg's syndrome/Hirschsprung's disease association.
Conclusion: The present data give further support to the role of the endothelin-signaling pathway in the development of neural crest-derived enteric neurons. They also suggest that either recessive and weakly penetrant dominant alleles could occur at the EDN3 locus, depending on the nature of the mutation.