Enhanced atherosclerosis and kidney dysfunction in eNOS–/–Apoe–/– mice are ameliorated by enalapril treatment
Joshua W. Knowles, … , Oliver Smithies, Nobuyo Maeda
Joshua W. Knowles, … , Oliver Smithies, Nobuyo Maeda
Published February 15, 2000
Citation Information: J Clin Invest. 2000;105(4):451-458. https://doi.org/10.1172/JCI8376.
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Article

Enhanced atherosclerosis and kidney dysfunction in eNOS–/–Apoe–/– mice are ameliorated by enalapril treatment

Abstract

Hypertension and atherosclerosis are each important causes of morbidity and mortality in the developed world. We have investigated the interaction between these conditions by breeding mice that are atherosclerotic due to lack of apolipoprotein (apo) E with mice that are hypertensive due to lack of endothelial nitric oxide synthase (eNOS). The doubly deficient mice (nnee) have higher blood pressure (BP) and increased atherosclerotic lesion size but no change in plasma lipoprotein profiles compared with normotensive but atherosclerotic (NNee) mice. The nnee mice also develop kidney damage, evidenced by increased plasma creatinine, decreased kidney weight/body weight ratio, and glomerular lipid deposition and calcification. Enalapril treatment abolishes the deleterious effects of eNOS deficiency on BP, atherosclerosis, and kidney dysfunction in nnee mice. In striking contrast, a genetic lack of inducible NOS, which does not affect BP, has no effect on the development of atherosclerotic lesions in Apoe–/– mice. We also observed a positive relationship between BP and size of atherosclerotic lesions These results suggest that the atherogenic effects of eNOS deficiency can be partially explained by an increase in BP and reemphasize the importance of controlling hypertension in preventing atherosclerosis.

Authors

Joshua W. Knowles, Robert L. Reddick, J. Charles Jennette, Edward G. Shesely, Oliver Smithies, Nobuyo Maeda

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Representative histological sections from 4-month-old nnee animals. (a) ...
Representative histological sections from 4-month-old nnee animals. (a) Proximal aorta section showing atherosclerotic lesions. Sudan IVB with hematoxylin counterstain; ×40. Arrows indicate microaneurysms. (b) A plaque in a small vessel in myocardium. Sudan IVB with hematoxylin counterstain; ×200 (initial magnification). Arrow indicates lumen. (c) Aneurysms in an abdominal aortic section. Sudan IVB with hematoxylin counterstain; ×40 (original magnification). Arrows indicate sites of dissection. (d) Foam cells in glomerulus. Hematoxylin and eosin; ×165. Arrow indicates small area of calcification. (e) Four glomeruli demonstrating the transition from heavy lipid deposition (which appears orange) to dystrophic calcification (which appears dark blue). Sudan IVB with hematoxylin counterstain; ×82.5. (f) Glomerulus of enalapril-treated nnee mouse. Lipid deposition is light (arrow) and is confined to extraglomerular mesangial cells. Sudan IVB and hematoxylin; ×165. This pattern of lipid staining is similar to that seen in NNee mice.