Spontaneous combined hyperlipidemia, coronary heart disease and decreased survival in Dahl salt-sensitive hypertensive rats transgenic for human cholesteryl ester transfer protein (original) (raw)
Multiple Risk Factor Intervention Trial Research Group. Relationship between baseline risk factors and coronary heart disease and total mortality in the Multiple Risk Factor Intervention Trial. Prev. Med.15, 254–273 (1986). Article Google Scholar
Borhani, N.O. in Atherosclerosis Beyond Cholesterol 3–16 (Audio Visual Medical Marketing, New York, 1992). Google Scholar
Chobanian, A.V. & Alexander, R.W. Exacerbation of atherosclerosis by hypertension: potential mechanisms and clinical implications. Arch. Int. Med.156, 1952–1956 (1996). ArticleCAS Google Scholar
Chobanian, A.V. 1989 Corcoran Lecture: adaptive and maladaptive responses of the arterial wall to hypertension. Hypertension15, 666–674 (1990). ArticleCAS Google Scholar
Chobanian, A.V. et al. Influence of hypertension on aortic atherosclerosis in the Watanabe rabbit. Hypertension14, 203–209 (1989). ArticleCAS Google Scholar
Brasen, J.H., Harsch, M. & Niendorf, A. Survival and cardiovascular pathology of heterozygous Watanabe heritable hyperlipidemic rabbits treated with pravastatin and probucol on a low-cholesterol (0.03%)-enriched diet. Virchows Arch.432, 557–562 (1998). ArticleCAS Google Scholar
Shiomi, M., Ito, T., Shiraishi, M. & Watanabe, Y. Inheritability of atherosclerosis and the role of lipoproteins as risk factors in the development of atherosclerosis in WHHL rabbits: risk factors related to coronary atherosclerosis are different from those related to aortic atherosclerosis. Atherosclerosis96, 43–52 (1992). ArticleCAS Google Scholar
Guyard-Dangeremont, V., Desrumaux, C., Gambert, P., Lallemant, C. & Lagrost, L. Phospholipid and cholesteryl ester transfer activities in plasma from 14 vertebrate species. Relation to atherogenesis susceptibility. Comp. Biochem. Physiol. B. Biochem. Mol. Biol.120, 517–525 (1998). Article Google Scholar
Moulin, P. Cholesteryl ester transfer protein: an enigmatic protein. Horm. Res.45, 238–244 (1996). ArticleCAS Google Scholar
Inazu, A. et al. Increased high-density lipoprotein levels caused by a common cholesteryl-ester transfer protein gene mutation. N. Engl. J. Med.323, 1234–1238 (1990). ArticleCAS Google Scholar
Yamashita, S. et al. Characterization of plasma lipoproteins in patients heterozygous for human plasma cholesteryl ester transfer protein (CETP) deficiency: plasma CETP regulates high-density lipoprotein concentrations and composition. Metabolism40, 756–763 (1991). ArticleCAS Google Scholar
Zhong, S.B. et al. Increased coronary heart disease in Japanese-American men with mutation in the cholesteryl ester transfer protein gene despite increased HDL levels. J. Clin. Invest.97, 2917–2923 (1996). ArticleCAS Google Scholar
Marotti, K.R. et al. Severe atherosclerosis in transgenic mice expressing simian cholesteryl ester transfer protein. Nature364, 73–75 (1993). ArticleCAS Google Scholar
Plump, A.S. et al. Increased atherosclerosis in ApoE and LDL receptor gene knock-out mice as a result of human cholesteryl ester transfer protein transgene expression. Arterioscler. Thromb. Vasc. Biol.19,1105–110 (1999). ArticleCAS Google Scholar
Hayek, T. et al. Decreased early atherosclerotic lesions in hypertriglyceridemic mice expressing cholesteryl ester transfer protein transgene. J. Clin. Invest.96, 2071–2074 (1995). ArticleCAS Google Scholar
Lee, R.T. & Libby, P. The unstable atheroma. Arterios. Throm. Vasc. Biol.17, 1859–1867 (1997). ArticleCAS Google Scholar
Herrera, V.L.M., Xie, H.X., Lopez, L.V., Schork, N.J. & Ruiz-Opazo, N. The α1 Na,K- ATPase gene is a susceptibility hypertension gene in the Dahl salt-sensitive rat. J. Clin. Invest.102, 1102–1111 (1998). ArticleCAS Google Scholar
Lefer, D.J. & Granger, D.N. Monocyte rolling in early atherogenesis: vital role in lesion development. Circ. Res.11, 1353–1355 (1999). Article Google Scholar
Nakashima, Y., Raines, E.W., Plump, A.S., Breslow, J.L. & Ross, R. Upregulation of VCAM-1 and ICAM-1 at atherosclerosis-prone sites on the endothelium in the ApoE-deficient mouse. Arterioscler. Thromb. Vasc. Biol.18, 842–851 (1998). ArticleCAS Google Scholar
Nelken, N., Couglin, S., Gordon, D. & Wilcox J. Monocyte chemoattractant protein-1 in human atheromatous plaques. J. Clin. Invest.88, 1121–1127 (1991). ArticleCAS Google Scholar
Shih, D.M., Welch, C. & Lusis, A.J. New insights into atherosclerosis from studies with mouse models. Mol. Med. Today (Elsevier Science Ltd.) 1, 364–372 (1995). ArticleCAS Google Scholar
Jiang, X.C. et al. Down-regulation of messenger RNA for the low density lipoprotein receptor in transgenic mice containing the gene for human cholesteryl ester transfer protein. Mechanism to explain accumulation of lipoprotein B particles. J. Biol. Chem.268, 27406–27412 (1993). CAS Google Scholar
Grass, D.S. et al. Transgenic mice expressing both human apolipoprotein B and human CETP have a lipoprotein cholesterol distribution similar to that of normolipidemic humans. J. Lipid. Res.36, 1082–1091 (1995). CAS Google Scholar
Hayek, T. et al. An interaction between the human cholesteryl ester transfer protein (CETP) and apolipoprotein A-I genes in transgenic mice results in a profound CETP-mediated depression of high density cholesterol levels. J. Clin. Invest.90, 505–510 (1992). ArticleCAS Google Scholar
Foger, B., Ritsch, A., Doblinger, A., Wessels, H. & Patsch, J.R. Relationship of plasma cholesteryl ester transfer protein to HDL cholesterol: studies in normotriglyceridemia and moderate hypertriglyceridemia. Arterioscler. Thromb. Vasc. Biol.16, 1430–1436 (1996). ArticleCAS Google Scholar
Sechi, L.A. et al. Glucose metabolism and insulin receptor binding and mRNA levels in tissues of Dahl hypertensive rats. Am. J. Hypertens.10, 1223–1230 (1997). ArticleCAS Google Scholar
Kitagawa, S., Yamaguchi, Y., Shinozuka, K, Kwon, Y.M. & Kunitomo, M. Dietary cholesterol enhances impaired endothelium-dependent relaxations in aortas of salt-induced hypertensive Dahl rats. Eur. J. Pharmacol.297, 71–76 (1995). Article Google Scholar
Reddick, R.L., Zhang, S.H. & Maeda, N. Atherosclerosis in mice lacking apoE. Evaluation of lesional development and progression. Arterioscler. Thromb.14, 141–147 (1994). ArticleCAS Google Scholar
Nakashima, Y., Plump, A.S., Raines, E.W., Breslow, J.L. & Ross, R. ApoE-deficient mice develop lesions of all phases of atherosclerosis through the arterial tree. Arterioscler. Thromb.14, 133–140 (1994). ArticleCAS Google Scholar
Ebara, T, Ramakrishnan, R, Steiner, G & Shacter, NS . Chylomicronemia due to apolipoprotein CIII overexpression in apolipoprotein E-null mice. J. Clin. Invest.99, 2672–2681 (1997). ArticleCAS Google Scholar
Paigen, B., Morrow, A., Brandon, C., Mitchell, D. & Holmes, P. Variation in susceptibility to atherosclerosis among inbred strains of mice. Atherosclerosis57, 65–73 (1985). ArticleCAS Google Scholar
Ong, G.L. & Mattes, M.J. Mouse strains with typical mammalian levels of complement activity. J. Immunol. Meth.125, 147–158 (1991). Article Google Scholar
Torzewski, K., Bowyer, D.E., Waltenberger, J. & Fizsimmons, C. Processes in atherogenesis: complement activation. Atherosclerosis132, 131–138. (1997). ArticleCAS Google Scholar
Krauss, R.M. Triglycerides and atherogenic lipoproteins: Rational for lipid management. Am. J. Med.105, 58S–62S (1998). ArticleCAS Google Scholar
Tropea, B.I. et al. Hypertension-enhanced monocyte adhesion in experimental atherosclerosis. J. Vasc. Surg.23, 596–605 (1996). ArticleCAS Google Scholar
Capers, Q. et al. Monocyte chemoattractant protein-1 expression in aortic tissues of hypertensive rats. Hypertension30, 1397–1402 (1997). ArticleCAS Google Scholar
Shioi, T. et al. Increased expression of interleukin-1 beta and monocyte chemotactic and activating factor/monocyte chemoattractant protein-1 in the hypertrophied and failing heart with pressure overload. Circ. Res.81, 664–671 (1997). ArticleCAS Google Scholar
O'Brien, K.D. et al. Vascular cell adhesion molecule-1 is expressed in human coronary atherosclerotic plaques: implications for the mode of progression of advanced coronary atherosclerosis. J. Clin. Invest.92, 945–951 (1993). ArticleCAS Google Scholar
Schecter, A.D. et al. Tissue factor is induced by monocyte chemoattractant protein-1 in human aortic smooth muscle and THP-1 cells. J. Biol. Chem.272, 28568–28573 (1997). ArticleCAS Google Scholar
Buja, L.M. & Willerson, J.T. Role of inflammation in coronary plaque disruption. Circulation89, 503–505 (1994). ArticleCAS Google Scholar
Boyle, J.J. Association of coronary plaque rupture and atherosclerotic inflammation. J. Pathol.181, 93–99 (1997). ArticleCAS Google Scholar
Davies, H. & al-Tikriti, S. Coronary arterial pathology in the transplanted heart. Int. J. Cardiol.25, 99–117 (1989). ArticleCAS Google Scholar
Russell, P.S., Chase, C.M., Winn, H.J. & Colvin, R.B. Coronary atherosclerosis in transplanted mouse hearts. I. Time course and immunogenetic and immunopathological considerations. Am. J. Pathol.144, 260–274 (1994). CAS Google Scholar
Atkinson, J.B. Accelerated arteriosclerosis after transplantation: the possible role of calcium channel blockers. Int. J. Cardiol.62, S125–134 (1997). Article Google Scholar
Drayna, D. et al. Cloning and sequencing of human cholesteryl ester transfer protein cDNA. Nature327, 632–634 (1987). ArticleCAS Google Scholar
Zannis, V.I., Cole, S.F., Jackson, C., Kurnit, D.M. & Karathanasis, S.K. Distribution of apoA-I, apoC-II, apoC-III and apoE mRNA in human tissues. Time dependent induction of apoE mRNA by cultures of human monocyte-macrophages. Biochemistry24, 4450–4455 (1985). ArticleCAS Google Scholar
Adari, H., Xiang, X.H., Ruiz-Opazo, N., Herrera, V.L.M. & Makrides, S.C. in Vascular Endothelium: Pharmacologic and Genetic Manipulations (eds. Catravas, J.D., Callow, A.D. & Ryan, U.S.) 235–236 (NATO ASI Series, Plenum, New York, 1998). Book Google Scholar
Krauss, R.M., Grunfeld, C., Doerrler, W.T. & Feingold, K.R. Tumor necrosis factor acutely increases plasma levels of very low density lipoproteins of normal size and composition. Endocrinology127, 1016–1021 (1990). ArticleCAS Google Scholar