New quantitative trait loci that contribute to cholesterol gallstone formation detected in an intercross of CAST/Ei and 129S1/SvImJ inbred mice

doi:10.1152/physiolgenomics.00073.2003

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Physiol. Genomics 14: 225-239, 2003. First published July 1, 2003; doi:10.1152/physiolgenomics.00073.2003
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Received 28 April 2003; accepted in final form 25 June 2003.
Physiological Genomics 14:225-239 (2003)
1094-8341/03 $5.00 © 2003 American Physiological Society

New quantitative trait loci that contribute to cholesterol gallstone formation detected in an intercross of CAST/Ei and 129S1/SvImJ inbred mice

Malcolm A. Lyons ¹, Henning Wittenburg ¹^,2, Renhua Li ¹, Kenneth A. Walsh ¹, Monika R. Leonard ², Gary A. Churchill ¹, Martin C. Carey ² and Beverly Paigen ¹

¹ Jackson Laboratory, Bar Harbor, Maine 04609
² Department of Medicine, Harvard Medical School, Division of Gastroenterology, Brigham and Women’s Hospital, Harvard Digestive Diseases Center, Boston, Massachusetts, 02115

Cholesterol gallstone formation is a response to interactionsbetween multiple genes and environmental stimuli. To determinethe subset of cholesterol gallstone susceptibility (Lith) genespossessed by strains CAST/Ei (susceptible) and 129S1/SvImJ (resistant),we conducted quantitative trait locus (QTL) analyses of an intercrossbetween these strains. Parental strains and F₁ mice of bothgenders were evaluated for gallstone formation after consumptionof a lithogenic diet for 8 wk. Gallstone susceptibility of strainCAST was predominantly due to cholesterol hypersecretion. Maleintercross offspring were genotyped and phenotyped for cholesterolgallstone formation after consumption of the lithogenic dietfor 10 wk. Linkage analysis was performed using PSEUDOMARKERsoftware. One significant, new QTL was detected and named Lith13[chromosome (Chr) 5, 30 cM]. Statistical analyses and QTL finemapping suggest this QTL may comprise two closely linked loci.We confirmed the presence of Lith6 (Chr 6). Suggestive QTL weredetected on Chrs 1, 2, 5, 14, and 16. The QTL on Chrs 2 and16 confirmed previously identified, suggestive QTL. Therefore,they were named Lith12 (101 cM) and Lith14 (42 cM), respectively.We identified candidate genes based on known function and locationand performed mRNA expression analyses using both parental strainsand intercross progeny for preliminary evaluation of their contributionsto gallstone formation. Cebpb (Lith12), Pparg (Lith6), and Slc21a1(Lith6) displayed expression differences. Our work continuesto demonstrate the genetic complexity and to elucidate the pathophysiologyof cholesterol gallstone formation. It should facilitate thedevelopment of new approaches for treating this common humandisorder.

cholelithiasis; genetics; Castaneus; mouse; Lith genes; Slc21a1; Pparg; Cebpb

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