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HIGHLIGHTED TOPICS
Skeletal and Cardiac Muscle Blood Flow

Nonuniform effects of endurance exercise training on vasodilation in rat skeletal muscle

¹Departments of Anatomy and Physiology and of Kinesiology, Kansas State University, Manhattan, Kansas; ²Department of Sports Medicine, Pepperdine University, Malibu, California; ³Departments of Medical Pharmacology and Physiology and Veterinary Biomedical Sciences, and Dalton Cardiovascular Research Center, University of Missouri, Columbia, Missouri

Submitted 25 November 2003 ; accepted in final form 15 September 2004

Endurance exercise training (Ex) has been shown to increase maximal skeletal muscle blood flow. The purpose of this study was to test the hypothesis that increased endothelium-dependent vasodilation is associated with the Ex-induced increase in muscle blood flow. Furthermore, we hypothesized that enhanced endothelium-dependent dilation is confined to vessels in high-oxidative muscles that are recruited during Ex. To test these hypotheses, sedentary (Sed) and rats that underwent Ex (30 m/min x 10% grade, 60 min/day, 5 days/wk, 8–12 wk) were studied using three experimental approaches. Training effectiveness was evidenced by increased citrate synthase activity in soleus and vastus lateralis (red section) muscles (P < 0.05). Vasodilatory responses to the endothelium-dependent agent acetylcholine (ACh) in situ tended to be augmented by training in the red section of gastrocnemius muscle (RG; Sed: control, 0.69 ± 0.12; ACh, 1.25 ± 0.15; Ex: control, 0.86 ± 0.17; ACh, 1.76 ± 0.27 ml·min^–1·100 g^–1·mmHg^–1; 0.05 < P < 0.10 for Ex vs. Sed during ACh). Responses to ACh in situ did not differ between Sed and Ex for either the soleus muscle or white section of gastrocnemius muscle (WG). Dilatory responses of second-order arterioles from the RG in vitro to flow (4–8 µl/min) and sodium nitroprusside (SNP; 10^–7 through10^–4 M), but not ACh, were augmented in Ex (vs. Sed; P < 0.05). Dilatory responses to ACh, flow, and SNP of arterioles from soleus and WG muscles did not differ between Sed and Ex. Content of the endothelial isoform of nitric oxide synthase (eNOS) was increased in second-order, fourth-order, and fifth-order arterioles from the RG of Ex; eNOS content was similar between Sed and Ex in vessels from the soleus and WG muscles. These findings indicate that Ex induces endothelial adaptations in fast-twitch, oxidative, glycolytic skeletal muscle. These adaptations may contribute to enhanced skeletal muscle blood flow in endurance-trained individuals.

endothelium; acetylcholine; flow; shear stress; nitric oxide synthase

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