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Abstract
Using specific calcium antagonists as experimental tools, both the physiological messenger and current carrying functions of calcium ions as well as their pathogenetic potencies could be elucidated. Notably, excess intracellular calcium signalling and intra-and extracellular calcium overload turned out to be pathogenetic principles of general importance. In this context, progressive calcium overload of arteriosclerotic vascular walls and the antiarteriosclerotic effects of calcium antagonists, deserve particular interest. In fact, with the help of calcium antagonists, arterial calcium overload as decisive component of various types of experimental arteriosclerosis became accessible to a direct therapeutic intervention. According to their responsiveness to calcium antagonists, two pathophysiologically different types of experimental coronary plaques could be characterized: (1) The calcium type, i.e. coronary calcinosis of vitamin D3-intoxicated rats highly sensitive to calcium antagonist treatment, (2) the cholesterol type, represented by coronary atheromata of cholesterol-intoxicated rabbits; this primary coronary cholesterol accumulation could not be inhibited by calcium antagonists. The formation of conventional human coronary artery plaques is characterized from the very early lesion onwards by a progressive local uptake of calcium, finally leading to lethal consequences. Conversely, the analysis of the mural cholesterol does not allow to discriminate arteriosclerotic from normal coronary artery segments. Thereby, conventional human coronary plaques typically represent a calcium-dominated type of human arteriosclerosis and differ widely from plaques produced in cholesterol-fed rabbits. The results indicate the decisive pathophysiological role of calcium and calcium overload in both calcium-dominated types of experimental arteriosclerosis and conventional human coronary artery plaques. Moreover, the antiarteriosclerotic effects of calcium antagonists are demonstrated to be based — in various types of experimental arteriosclerosis — on the inhibition of intra-and extracellular calcium overload of arterial walls evoked by various risk factors (vitamin D3 intoxication, hypertension, nicotine, diabetes).
