Circulating KC levels are under genetic regulation and correlate with atherosclerosis in the Ath-HMDP.

<p>Plasma levels of KC (keratinocyte-derived chemokine)(pg/ml), a homolog of human Il-8 were quantitated for 676 female mice. Strain-average levels of KC (± SEM) are arranged by decreasing rank order (<b>A</b>). Association mapping identified a single strong locus on Chr 1 for plasma KC (<b>B</b>). X-axis is genomic position and Y-axis is −log10 of the p-value for association following correction for population structure, as described in Methods. The horizontal red line indicates the HMDP cutoff for genome-wide significance; p = 4.2 X 10⁻⁶. [<a href="http://www.plosgenetics.org/article/info:doi/10.1371/journal.pgen.1005711#pgen.1005711.ref012" target="_blank">12</a>] Correlation between atherosclerosis and plasma KC levels (<b>C</b>). Individual points indicate strain averages for atherosclerotic lesion area (μm²/section) and KC (pg/ml).</p

Plasma lipids in the Ath-HMDP.

<p>Genome wide association plots for very low-density lipoproteins, VLDL, and low-density lipoproteins, LDL (<b>A</b>). High density lipoproteins, HDL (<b>B</b>), and Triglycerides (<b>C</b>).</p

High resolution regional plots of plasma lipid loci in Ath-HMDP.

<p>Locus Zoom plots [<a href="http://www.plosgenetics.org/article/info:doi/10.1371/journal.pgen.1005711#pgen.1005711.ref118" target="_blank">118</a>] are shown for the VLDL+LDL locus on Chr 18 (<b>A</b>), the HDL locus on Chr 5 (<b>B</b>) and the triglycerides locus on Chr 1 (<b>C</b>). Physical locations of genes are denoted by blue horizontal bars. The linkage disequilibrium (LD) of the SNPs with the lead SNP at the locus is denoted by the color of the SNP. Red indicates SNPs that are highly correlated (in strong LD with each other) and defines the critical region for candidate gene selection.</p

Lesion morphology in 5 progenitor inbred strains.

<p>CD68+ cells but not smooth muscle actin cells differ among strains comprising the HMDP. Representative results from immunostained lesions for sm-α actin are shown in Panels <b>A-E</b> and CD68 in panels. C57BL/6J (<b>A,F</b>), A/J (<b>B,G)</b>, BALB/cJ (<b>C, H</b>), C3H/HeJ (<b>D, I</b>), DBA/2J (<b>E, J</b>). (<b>K, L</b>) Impact of genetic background on lesion morphology in C57BL/6, A/J, C3H/HeJ, BALB/c and DBA/2, 5 progenitor strains for the HMDP recombinant inbred strains. Immunohistological staining for macrophages (CD68) (<b>K</b>) or smooth muscle cells (smooth muscle α-actin) (<b>L</b>) was measured as percent of total atherosclerotic lesion area ± SEM.</p

Strategy for construction and analysis of Ath-HMDP mice.

<p>(<b>A</b>) Flow diagram for construction and analysis of Ath-HDMP mice. Male C57BL/6 mice carrying the dominant human transgenes for ApoE*3 Leiden and CETP were mated with 105 inbred strains from the hybrid mouse diversity panel (HMDP). Beginning at 8 weeks of age, F1 progeny carrying both transgenes were placed on a high-fat diet containing either 1.0% or 0.25% cholesterol for 16 weeks and then measured for a panel of atherosclerosis-related traits. Association and correlative analysis was used to map genetic variation underlying these traits and to identify associated pathways. (<b>B</b>) Impact on atherosclerotic lesion area (μm²/section) of dietary cholesterol, sex and hAPOE*3Leiden and combined hAPOE*3Leiden/hCETP transgenes on mice (C57BL/6J background) Note scale break at 50,000 μm²/section. The diet containing 1.0% cholesterol was associated with a significant increase in atherosclerotic lesion area in females (*, p < 0.05) but not in males.</p

Genetic regulation of atherosclerotic lesion area in HMDP mice.

<p>Loci detected for aortic sinus lesion area are shown for (<b>A</b>) female mice, (<b>B</b>) male mice. The X-axis shows genomic position while the Y-axis indicates −log10 of the p-value following correction for population structure, as described in Methods. The horizontal red line indicates the HMDP cutoff for genome-wide significance; p = 4.2 X 10⁻⁶. [<a href="http://www.plosgenetics.org/article/info:doi/10.1371/journal.pgen.1005711#pgen.1005711.ref012" target="_blank">12</a>] (<b>C, D</b>) LocusZoom plots [<a href="http://www.plosgenetics.org/article/info:doi/10.1371/journal.pgen.1005711#pgen.1005711.ref118" target="_blank">118</a>] of the genetic association results are shown for (<b>C</b>) female mice and (<b>D</b>) male mice. Physical locations of genes are denoted by blue horizontal bars. The linkage disequilibrium (LD) of the SNPs with the lead SNP at the locus is denoted by the color of the SNP. Red indicates SNPs that are highly correlated (in strong LD with each other) and defines the critical region for candidate gene selection.</p

Overview of the systems genetic resource.

<p>The database comprises mouse genomic, transcriptomic, metabolomic, proteomic, and clinical trait data from the HMDP as well as selected traditional mouse crosses and several human studies. A hierarchical model of the data and its relationships (<b>A</b>). Novel Candidate genes identified in human studies, such as <i>Pvrl2</i>, can be interrogated using a variety of data including gene expression in the Aorta (<b>B</b>) and liver (<b>C</b>) as well as metabolomics and phenotypic traits.</p

Relationships of plasma polar metabolite concentrations with atherosclerosis in Ath-HMDP.

<p>Correlations of atherosclerosis with plasma concentrations of choline (r = -0.285, p = 0.00645) (<b>A</b>), butyryl-carnitine (r = -0.281, p = 0.0309) (<b>B</b>), TMAO (r = 0.289, p = 0.00578) (<b>C</b>), arginine (r = 0.316, p = 0.0146) (<b>D</b>), citrulline (r = 0.304, p = 0.0192) (<b>E</b>), and ornithine (r = -0.402, p = 0.0016) (<b>F</b>). Individual points indicate strain averages for atherosclerotic lesion areas (μm²/section) and metabolite concentrations (μM).</p

Network analysis of hepatic and aortic gene expression.

<p>Gene coexpression networks were generated using Weighted Gene Coexpression Network Analysis (WGCNA) applied to aorta and liver gene expression profiles. The networks were partitioned into modules based on their topological overlap and the correlation of each module with lesion size was determined by calculating the average significance for all genes in the module. (<b>(A)</b> aorta and <b>(C)</b> liver). The most significantly correlated module were darkorange2 (<b>B</b>) for aorta and orange (<b>D</b>) for The most connected gene for each module (“hub gene”, shown in pink) was Wdr73 for aorta and Mx1 for liver.</p

Atherosclerosis in Ath-HMDP mice.

<p>Atherosclerotic lesion size (μm² ± SEM) in the proximal aorta and aortic sinus were quantitated for 697 female mice (<b>A</b>) and 281 male mice (<b>B</b>) using oil red—O staining. In each panel, strains are arranged in rank order by strain-average lesion area. (<b>C</b>) Correlation between strain-average lesion areas in male and female Ath-HMDP mice.</p