Superoxide-NO interaction decreases flow- and agonist-induced dilations of coronary arterioles in Type 2 diabetes mellitus

doi:10.1152/ajpheart.00235.2003

Superoxide-NO interaction decreases flow- and agonist-induced dilations of coronary arterioles in Type 2 diabetes mellitus

Zsolt Bagi, Akos Koller, and Gabor Kaley

Department of Physiology, New York Medical College, Valhalla, New York 10595

Submitted 18 March 2003 ; accepted in final form 3 June 2003

Type 2 diabetes mellitus (T2-DM) markedly increases the incidenceof ischemic heart disease (IHD) and, consequently, mortality.However, the underlying mechanisms leading to IHD in T2-DM arenot completely understood. We hypothesized that in T2-DM theregulation of coronary microvascular resistance by local mechanismsis altered. Thus, in coronary arterioles (diameter: $~$ 80 µm)isolated from male mice with T2-DM (C57BL/KsJ-db/db) and controllittermates, responses to changes in intraluminal pressure,flow, and agonists with known mechanisms of action were studied.Increases in pressure (from 20 to 120 mmHg) resulted in similarmyogenic responses of coronary arterioles of control and db/dbmice, whereas dilations in response to cumulative concentrationsof ACh and the nitric oxide (NO) donor NONOate were significantlydecreased compared with those of control vessels. On the otherhand, responses to adenosine were not different between vesselsof control and db/db mice. Increases in flow (0–20 µl/min)resulted in dilations of control vessels (maximum: 38 ±4%) that were inhibited by the NO synthase inhibitor N-nitro-L-argininemethyl ester (L-NAME). In contrast, arterioles of db/db miceexhibited greatly reduced dilations to flow (maximum: 4 ±6%) that were unaffected by L-NAME. In carotid arteries of db/dbmice, superoxide dismutase (SOD)-sensitive, enhanced superoxideproduction was detected by dihydroethydine staining and lucigeninenhanced chemiluminescence. Correspondingly, intraluminal administrationof SOD significantly augmented flow-, ACh-, and NONOate-induceddilations of diabetic arterioles, and then flow- and ACh-inducedresponses could be inhibited by L-NAME. Collectively, thesefindings suggest that in T2-DM, due to an enhanced superoxideproduction, NO mediation of agonist- and flow-induced dilationsof coronary arterioles is reduced. This alteration in the regulationof coronary microvascular resistance may contribute to the developmentof IHD in T2-DM.

Type 2 diabetes mellitus; coronary arteriole; flow-induced dilation; nitric oxide; superoxide

Address for reprint requests and other correspondence: G. Kaley, Dept. of Physiology, New York Medical College, Valhalla, NY 10595 (E-mail: gabor_kaley{at}nymc.edu).

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