Journal of Lipid Research (Mar 2009)

Identification of three loci affecting HDL-cholesterol levels in a screen for chemically induced recessive mutations in mice[S]

  • Todd Juan,
  • Murielle M. Véniant,
  • Joan Helmering,
  • Philip Babij,
  • Daniel M. Baker,
  • Michael A. Damore,
  • Michael B. Bass,
  • Tibor Gyuris,
  • Mark Chhoa,
  • Chi-Ming Li,
  • Chris Ebeling,
  • Julie Amato,
  • George A. Carlson,
  • David J. Lloyd

Journal volume & issue
Vol. 50, no. 3
pp. 534 – 545

Abstract

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We conducted a genome-wide screen using the mutagen N-ethyl-N-nitrosourea to identify recessive mutations in genes that lead to altered lipid traits in mice. We screened 7,546 G3 mice that were of mixed C57BL/6J (B6)×C3.SW-H2b/SnJ (C3) genomes and identified three pedigrees with differences in plasma HDL-cholesterol. Genome scan analyses mapped three distinct loci to chromosomes 3, 4, and 7. An S1748L missense mutation was identified in ABCA1 in one pedigree with undetectable levels of HDL-cholesterol and resulted in reduced protein levels. This phenotype was completely penetrant, semi-dominant, and cosegregated with high plasma triglycerides. Mice in a second pedigree had very high levels of plasma total cholesterol and HDL-cholesterol (up to 800 mg/dl total cholesterol). Despite a high degree of phenotype lability and reduced penetrance, an I68N missense mutation was identified in the transcription factor CCAAT/enhancer binding protein α (C/EBPα). Finally, a second high HDL-cholesterol pedigree of mice, again with a highly labile phenotype and reduced penetrance, was mapped to a 7 Mb locus on chromosome 3. These results illustrate the use of a hybrid background for simultaneous screening and mapping of mutagenized pedigrees of mice and identification of three novel alleles of HDL-cholesterol phenotypes.

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