GeneSet Information

Tier II GS135721 • variability in response to cholestrol enriched atherogenic diet (Diet1, Published QTL Chr 2)

DESCRIPTION:

QTL associated with variability in response to cholestrol enriched atherogenic diet. This interval was obtained by using a fixed interval width of 25 Mbp around the peak marker (8665223)

LABEL:

QTL-Diet1-Mouse-Chr 2

SCORE TYPE:

Binary

DATE ADDED:

2012-04-02

DATE UPDATED:

2020-05-06

SPECIES:

URI:

http://www.informatics.jax.org/searches/accession_report.cgi?id=MGI:1928271

AUTHORS:

Phan J, Pesaran T, Davis RC, Reue K

TITLE:

The Diet1 locus confers protection against hypercholesterolemia through enhanced bile acid metabolism.

JOURNAL:

The Journal of biological chemistry Jan 2002, Vol 277, pp. 469-77

ABSTRACT:

The C57BL/6ByJ (B6By) mouse strain is resistant to diet-induced hypercholesterolemia and atherosclerosis, despite its near genetic identity with the atherosclerosis-susceptible C57BL/6J (B6J) strain. We previously identified a genetic locus, Diet1, which is responsible for the resistant phenotype in B6By mice. To investigate the function of Diet1, we compared mRNA expression profiles in the liver of B6By and B6J mice fed an atherogenic diet using a DNA microarray. These studies revealed elevated expression levels in B6By liver for key bile acid synthesis proteins, including cholesterol 7alpha-hydroxylase and sterol-27-hydroxylase, and the oxysterol nuclear receptor liver X receptor alpha. Expression levels for several other genes involved in bile acid metabolism were subsequently found to differ between B6By and B6J mice, including the bile acid receptor farnesoid X receptor, oxysterol 7alpha-hydroxylase, sterol-12alpha-hydroxylase, and hepatic bile acid transporters on both sinusoidal and canalicular membranes. The overall expression profile of the B6By strain suggests a higher rate of bile acid synthesis and transport in these mice. Consistent with this interpretation, fecal bile acid excretion is increased 2-fold in B6By mice, and bile acid levels in blood and urine are elevated 3- and 18-fold, respectively. Genetic analysis of serum bile acid levels revealed co-segregation with Diet1, indicating that this locus is likely responsible for both increased bile acid excretion and resistance to hypercholesterolemia in B6By mice. PUBMED: 11682476
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Annotation Information

No sequence read archive data associated with this GeneSet.


Hypercholesterolemia (D006937)
DNA (D004247)
Serum (D044967)
Mice (D051379)
RNA, Messenger (D012333)
Proteins (D011506)
Liver (D008099)
Overall (D016424)
Cholesterol (D002784)
Genetic Loci (D056426)
Oligonucleotide Array Sequence Analysis (D020411)
Blood (D001769)
Membranes (D008566)
Bile (D001646)
Atherosclerosis (D050197)
Pedigree (D010375)
Cholesterol 7-alpha-Hydroxylase (D002790)
Urine (D014556)
Diet, Atherogenic (D004036)
Diet (D004032)
Metabolism (D008660)
blood (MA:0000059)
bile (MA:0002513)
liver (MA:0000358)
serum (MA:0002502)
urine (MA:0002545)
increased circulating cholesterol level (MP:0005178)
atherosclerotic lesions (MP:0005338)
metabolic process (GO:0008152)
bile acid metabolic process (GO:0008206)
bile acid biosynthetic process (GO:0006699)
biosynthetic process (GO:0009058)
excretion (GO:0007588)
transport (GO:0006810)
QTL map (EDAM_data:1860)

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Supported by NIH R01 AA18776 jointly funded by NIAAA and NIDA, and JAX Center for Precision Genetics NIH U54 OD 020351