Abstract

The link between pollutant exposure and cardiovascular disease (CVD) has prompted mechanistic research with animal models of CVD. We hypothesized that the cardiac gene expression patterns of healthy and genetically compromised, CVD-prone rat models, with or without metabolic impairment, will reveal underlying disease processes that facilitate understanding of the mechanisms of air pollution susceptibility differences. Left ventricular gene expression was examined using Affymetrix rat 230A-gene arrays in male, age-matched (12–14 weeks old) healthy Wistar Kyoto (WKY) and CV-compromised spontaneously hypertensive (SH), stroke-prone SH (SHSP), obese SH heart failure (SHHF) and obese insulin-resistant (JCR) rats. Principle component analysis separated strains in three clusters: (1) WKY, (2) JCR and (3) SH, SHSP and SHHF. Gene expression pattern in JCR differed from all other CVD strains. Both SHHF and JCR strains presented the most differentially expressed genes from WKY, but generally with opposing directional pattern suggesting that the CVD in these strains arise through different mechanisms. Hierarchical clustering of nuclear factor-kappaB target genes indicated varying degrees of, but similar directional changes, in SH, SHSP and SHHF relative to WKY rats, which may relate to the severity of their CVD. The JCR strain had less pronounced expressions of these genes suggesting milder cardiac disease. No unique expression pattern could be identified for genes implicated in stroke and heart failure in SHSP and SHHF rats, respectively. The data show that the CVD pathophysiological mechanisms differ in models with different genetic backgrounds, and therefore, the mechanisms by which air pollutants affect the cardiopulmonary system are likely to vary.

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