Abstract. Rodents do not develop spontaneous atherosclerosis. Currently, there is no good animal model to study the effect of uremia on atherosclerosis. This study evaluated whether apolipoprotein E knockout (ApoeϪ/Ϫ) mice are useful to study the effect of renal dysfunction on cardiovascular risk. ApoeϪ/Ϫ mice have decreased serum apolipoprotein E and exhibit lipid abnormalities and atherosclerosis even on a lowcholesterol diet. Ten-wk-old ApoeϪ/Ϫ mice were subtotally nephrectomised (SNX ApoeϪ/Ϫ; n ϭ 8), uninephrectomised (UNX ApoeϪ/Ϫ; n ϭ 5), or sham-operated (sham ApoeϪ/Ϫ; n ϭ 5) and compared with their genetic controls (SNX C57/ BL6; UNX C57/BL6; sham C57/BL6). After 12 wk, BP was measured intraarterially, blood samples were taken, and the experiment was terminated by perfusion fixation. The heart weight was determined, and quantitative morphologic analysis of intramyocardial arteries and aortic changes was performed. At the end of the experiment, heart weight and relative left ventricular weight were comparable in all groups. Intraarterial BP was somewhat higher in ApoeϪ/Ϫ mice compared with controls. Baseline serum cholesterol and triglyceride levels were higher in ApoeϪ/Ϫ mice than in C57/BL6. Atherosclerotic plaques were not present in sham or UNX C57/BL6, but minor plaque formation was noted in some SNX control animals. In contrast, beginning plaques were seen even in untouched ApoeϪ/Ϫ mice, and strikingly increased plaque formation was noted in UNX and SNX ApoeϪ/Ϫ mice. Maximal plaque diameter (cross-section) was 37 Ϯ 74 m in SNX C57/BL6, 191 Ϯ 90 m in sham ApoeϪ/Ϫ, 323 Ϯ 66 m in UNX ApoeϪ/Ϫ, and 457 Ϯ 17 m in SNX ApoeϪ/Ϫ. The plaque morphology corresponded with that of early plaques characterized by foam cells and virtual absence of lymphocytes or smooth muscle cell infiltration. In conclusion, even mild renal dysfunction, i.e., after uninephrectomy, causes a dramatic increase in plaque size and aggressive morphology (foam cell rich soft plaques) in the animal model of the ApoeϪ/Ϫ mouse.After the seminal communication of Lindner et al. (1), the high prevalence and possibly accelerated development of atherosclerosis have been well documented in patients with renal failure. Because of the multitude of classical and non-classical atherosclerosis risk factors, e.g., hypertension, dyslipidemia, hyperhomocysteinemia, increased oxidative stress, it has remained controversial whether the high burden of atherosclerosis in uremia can be explained by classical risk factors or whether uremia per se aggravates or accelerates atherosclerosis.With the exception of diabetic patients with renal failure (2), there has been little documentation that atherosclerotic complications evolve more rapidly in patients with renal failure, and it has generally been difficult to reproduce atherosclerosis in animal models of renal failure.The apolipoprotein E knockout mouse (ApoeϪ/Ϫ) is a wellestablished model to study atherogenesis (3,4). We reasoned that it might also constitute a suitable model to address the issue whether athero...
