Mechanism of coronary vasodilation to insulin and insulin-like growth factor I is dependent on vessel size

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Mechanism of coronary vasodilation to insulin and insulin-like growth factor I is dependent on vessel size

Christine L. Oltman¹, Neal L. Kane², David D. Gutterman¹^,², Robert S. Bar¹^,², and Kevin C. Dellsperger¹^,²

¹ Department of Veterans Affairs and ² Department of Internal Medicine and the Cardiovascular Center, University of Iowa, Iowa City, Iowa 52246

Insulin and insulin-like growth factor I (IGF-I) influence numerous metabolic and mitogenic processes; these hormones alsohave vasoactive properties. This study examined mechanisms involvedin insulin- and IGF-I-induced dilation in canine conduit and microvascularcoronary segments. Tension of coronary artery segments was measuredafter constriction with PGF₂. Internal diameter of coronarymicrovessels (resting diameter = 112.6 ± 10.1 µm) was measuredafter endothelin constriction. Vessels were incubated in control(Krebs) solution and were treated with N-nitro-L-arginine (L-NA), indomethacin, or K⁺ channel inhibitors. After constriction, cumulative doses of insulinor IGF-I (0.1-100 ng/ml) were administered. In conduit arteries,insulin produced modest maximal relaxation (32 ± 5%) comparedwith IGF-I (66 ± 12%). Vasodilation was attenuated by nitric oxidesynthase (NOS) and cyclooxygenase inhibition and was blocked withKCl constriction. Coronary microvascular relaxation to insulinand IGF-I was not altered by L-NA, indomethacin, tetraethylammoniumchloride, glibenclamide, charybdotoxin, and apamin; however, tetrabutylammoniumchloride attenuated the response. In conclusion, insulin and IGF-Icause vasodilation in canine coronary conduit arteries and microvessels.In conduit vessels, NOS/cyclooxygenase pathways are involved inthe vasodilation. In microvessels, relaxation to insulin and IGF-Iis not mediated by NOS/cyclooxygenase pathways but rather throughK⁺-dependentmechanisms.

diabetes mellitus; coronary circulation; coronary microcirculation; dogs; potassium channels

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