Abstract.
Atherosclerosis is a common disease, primarily of the large arteries, that begins in childhood and progresses with advancing age. Atherosclerosis leads to coronary heart disease, the major cause of death in the United States. Several risk factors affect atherosclerosis, but high LDL cholesterol is the most important risk factor. In addition, high levels of lipoprotein (a) appear to be associated with increased atherosclerosis and myocardial infarction. The level of lipoprotein (a) is genetically determined and is not affected by diet or exercise. Studies on the pathogenesis of atherosclerosis suggest that several steps are involved, including endothelial injury, increased arterial permeability to plasma lipoproteins, smooth muscle cell proliferation, and platelet aggregation. Atherosclerotic plaques are benign neoplasms of the arterial wall that result from the monoclonal proliferation of a single mutated smooth muscle cell. Abnormal proliferation of smooth muscle cells is the key event in the initiation and progression of atherosclerosis. Endothelial injury is another major contributory factor. Many factors associated with an increased risk of cancer are also associated with atherosclerosis. Cancer and atherosclerosis go through the same stages of initiation, promotion, and complication. Both inflammatory and immune reactions play important roles in the progressions of the two diseases. Smooth muscle cells and endothelial cells produce and respond to several cytokines and growth factors, which may influence the initiation, progression, and complication of the atherosclerotic lesions. Many studies have shown that the production of nitric oxide is decreased in atherosclerosis—reduction in the bioavailability of nitric oxide in the arterial wall may lead to leukocyte adhesion and platelet aggregation. It should be noted additionally, nitric oxide is a mutagenic agent involved in the origin of neoplastic diseases. Atherosclerotic plaques express genes for products not found in the normal arterial wall. As with carcinogenesis, there may be more than one mechanism that promotes atherosclerotic lesions and there may be common mechanistic similarities between the two diseases. The purpose of this study is to establish an exploratory scientific hypothesis that will permit the use of standardized toxicological test data to evaluate different chemicals. The companion paper that follows will use a method of relative toxicological potencies to develop tentative risk coefficients based on relative potency. These papers, in combination, provide both a conceptual and a quantitative hypothesis that can be tested with data from forthcoming epidemiological studies or animal test models.
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Received: 27 August 1996/Accepted: 14 November 1997
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Basavaraju, S., Jones, T. Atherosclerotic Risks from Chemicals: Part I. Toxicological Observations and Mechanisms of Atherosclerosis. Arch. Environ. Contam. Toxicol. 35, 152–164 (1998). https://doi.org/10.1007/s002449900363
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DOI: https://doi.org/10.1007/s002449900363