CADMIUM-INDUCED ARTERIOLAR CONSTRICTION IN SKELETAL-MUSCLE MICROCIRCULATION

被引：5

作者：

ZHANG, C ^{[1
]}

THIND, GS ^{[1
]}

JOSHUA, IG ^{[1
]}

FLEMING, JT ^{[1
]}

机构：

[1] UNIV LOUISVILLE,DEPT PHARMACOL & TOXICOL,LOUISVILLE,KY 40292

来源：

AMERICAN JOURNAL OF HYPERTENSION | 1993年 / 6卷 / 04期

关键词：

CADMIUM; CALCIUM; MICROCIRCULATION; HYPERTENSION; SKELETAL MUSCLE; ADRENERGIC RECEPTORS;

D O I：

10.1093/ajh/6.4.325

中图分类号：

R6 [外科学];

学科分类号：

1002 ; 100210 ;

摘要：

Cadmium, an environmental pollutant, is known to induce hypertension in animal models, in part via an increase in peripheral vascular resistance. Since prior studies have investigated the vascular effects of cadmium using large, nonresistance arteries, we directly assessed cadmium's action on resistance size arterioles in skeletal muscle using the intact rat cremaster muscle preparation. Cadmium evoked a concentration-dependent constriction of the large arterioles (120 to 50 mum in diameter) but elicited no change in the diameter of smaller arterioles (30 to 15 mum). Blockade of alpha-adrenergic receptors did not diminish the constrictor response of the larger arterioles to cadmium, but bathing the cremaster muscles with a solution containing low calcium attenuated the arteriolar constriction to cadmium. Calcium repletion caused the arterioles to constrict further. These observations provide the first direct evidence that cadmium constricts resistance arterioles in skeletal muscle. The cadmium constriction: (1) is selective for the large arterioles, (2) is not mediated by alpha-adrenergic receptors, and (3) is influenced by the extracellular level of calcium. We conclude that arteriolar constriction in skeletal muscle tissue may play a role in the hypertensive actions of cadmium.

引用

页码：325 / 329

页数：5

共 15 条

[1]

Morselt A., Environmental Pollutants and Disease. Chapter II. Cadmium: Introduction, toxicology and public health aspects. Chapter III. Effects of cadmium at the organ level, Toxicology, 70, pp. 5-92, (1991)

[2]

Schroeder H.A., Cadmium, chromium and cardiovascular disease, Circulation, 35, pp. 570-582, (1967)

[3]

Kopp S.J., Prentice R.C., Perry H.M., Et al., Effects of low level cadmium exposure on blood pressure and myocardial function and metabolism, Adv Modern Environ Toxicol, 9, pp. 173-195, (1985)

[4]

Perry H.M., Erlanger M., Yunice A., Perry E., Mechanisms of the acute hypertensive effect of intra-arterial cadmium and mercury in anesthetized rats, J Lab Clin Med, 70, pp. 963-972, (1967)

[5]

Thind G.S., Karreman G., Stephen K.F., Blakemore W.S., Vascular reactivity and mechanical properties of normal and cadmium hypertensive rabbits, J Lab Clin Med, 76, pp. 560-568, (1970)

[6]

Carmignani M., Boscolo P., Long-term exposure to cadmium and cardiovascular alterations in the rabbit, Arch Toxicol, 8, pp. 322-326, (1985)

[7]

Balaramann R., Gulati O.D., Bhatt J.D., Et al., Cadmium- induced hypertension in rats, Pharmacology, 38, pp. 226-234, (1989)

[8]

Niwa A., Suzuki A., Effects of cadmium on the tension of isolated rat aorta (A possible mechanism for cadmium- induced hypertension), J Toxicol Sci, 7, pp. 51-60, (1982)

[9]

Nechay B.R., Williams B.J., Steinsland O.S., Hall C.E., Increased vascular response to adrenergic stimulation in rats exposed to cadmium, J Toxicol Environ Health, 4, pp. 559-567, (1978)

[10]

Thind G.S., Stephen K.F., Blakemore W.S., Inhibition of vasopressor responses by cadmium, Am J Physiol, 219, pp. 577-583, (1970)

← 1 2 →