Interactions between Sox10 and EdnrB modulate penetrance and severity of aganglionosis in the Sox10Dom mouse model of Hirschsprung disease

doi:10.1093/hmg/ddh243

Human Molecular Genetics Advance Access originally published online on August 4, 2004
Human Molecular Genetics 2004 13(19):2289-2301; doi:10.1093/hmg/ddh243

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Interactions between Sox10 and EdnrB modulate penetrance and severity of aganglionosis in the Sox10^Dom mouse model of Hirschsprung disease

V. Ashley Cantrell¹^,, Sarah E. Owens¹^,, Ronald L. Chandler¹^,, David C. Airey², Kevin M. Bradley¹, Jeffrey R. Smith¹ and E. Michelle Southard-Smith¹^,*

¹Division of Genetic Medicine, Department of Medicine, Vanderbilt University School of Medicine, 529 Light Hall, 2215 Garland Avenue, Nashville, TN, 37232-0275, USA and ²Department of Pharmacology, Vanderbilt University School of Medicine, 8148-A Medical Research Building III, 465 21st Avenue South, Nashville, TN 37232-8548, USA

Received May 16, 2004; Accepted July 20, 2004

Cumulative evidence suggests that Hirschsprung disease (HSCR)is the consequence of multiple gene interactions that modulatethe ability of enteric neural crest (NC) cells to populate thedeveloping gut. One of the essential genes for this processis the NC transcription factor Sox10. Sox10^Dom mice on a mixedgenetic background show variation in penetrance and expressivityof enteric aganglionosis that are analogous to the variableaganglionosis seen in human HSCR families. The phenotype ofSox10^Dom mice in congenic lines indicates this variation arisesfrom modifiers in the genetic background. To determine whetherknown HSCR susceptibility loci are acting as modifiers of Sox10,we tested for association between genes in the endothelin signalingpathway (EdnrB, Edn3, Ece1) and severity of aganglionosis inan extended pedigree of B6C3FeLe.Sox10^Dom mice. Single locusassociation analysis in this pedigree identifies interactionbetween EdnrB and Sox10. Additional analysis of F2 intercrossprogeny confirms a highly significant effect of EdnrB alleleson the Sox10^Dom/+ phenotype. The presence of C57BL/6J allelesat EdnrB is associated with increased penetrance and more severeaganglionosis in Sox10^Dom mutants. Crosses between EdnrB andSox10 mutants corroborate this gene interaction with doublemutant progeny exhibiting significantly more severe aganglionosis.The background strain of the EdnrB mutant further influencesthe phenotype of Sox10/EdnrB double mutant progeny implyingthe action of additional modifiers on this phenotype. Our datademonstrates that Sox10–EdnrB interactions can influencedevelopment of the enteric nervous system in mouse models andsuggests that this interaction could contribute to the epistaticnetwork producing variation between patients with aganglionosis.

^* To whom correspondence should be addressed. Tel: +1 6159362172; Fax: +1 6159362661; Email: michelle.southard-smith{at}vanderbilt.edu

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