Recent studies have established that testosterone (Tes) produces acute (nongenomic) vasorelaxation. This study examined the structural specificity of Tes-induced vasorelaxation and the role of vascular smooth muscle (VSM) K+ channels in rat thoracic aorta. Aortic rings from male Sprague-Dawley rats with (Endo+) and without endothelium (Endo-) were prepared for isometric tension recording. In Endo- aortas precontracted with phenylephrine, 5-300 microM Tes produced dose-dependent relaxation from 10 microM (4 +/- 1%) to 300 microM (100 +/- 1%). In paired Endo+ and Endo- aortas, Tes-induced vasorelaxation was slightly but significantly greater in Endo+ aortas (at 5-150 microM Tes); sensitivity (EC(50)) of the aorta to Tes was reduced by nearly one-half in Endo- vessels. Based on the sensitivity (EC(50)) of Endo- aortas, Tes, the active metabolite 5alpha-dihydrotestosterone, the major excretory metabolites androsterone and etiocholanolone, the nonpolar esters Tes-enanthate and Tes-hemisuccinate (THS), and THS conjugates to BSA (THS-BSA) exhibited relative potencies for vasorelaxation dramatically different from androgen receptor-mediated effects observed in reproductive tissues, with a rank order of THS-BSA > Tes > androsterone = THS = etiocholanolone > dihydrotestosterone >> Tes-enanthate. Pretreatment of aortas with 5 mM 4-aminopyridine attenuated Tes-induced vasorelaxation by an average of 44 +/- 2% (25-300 microM Tes). In contrast, pretreatment of aortas with other K+ channel inhibitors had no effect. These data reveal that Tes-induced vasorelaxation is a structurally specific effect of the androgen molecule, which is enhanced in more polar analogs that have a lower permeability to the VSM cell membrane, and that the effect of Tes involves activation of K+ efflux through K+ channels in VSM, perhaps via the voltage-dependent (delayed-rectifier) K+ channel.
We describe a method for selectively permeabilizing endothelial cells, using the membrane pore forming exoprotein Staphylococcus aureus alpha-toxin. Experiments were performed in rabbit central ear artery or its main side branch under isometric conditions, on the isolated perfused kidney, or in cannulated pressurized renal arteries. In presence of alpha-toxin, endothelial-dependent vasodilator responses elicited by acetylcholine or A23187 were abolished, whereas the sensitivity of smooth muscle cells to constrictors (norepinephrine, phenylephrine, or KCl) or dilators (sodium nitroprusside) was not affected. The results indicate that restricting the alpha-toxin to the luminal surface induces selective impairment of vascular endothelial function. This method of eliminating endothelium-dependent vasodilator responses may prove to be useful in the study of endothelial-smooth muscle interactions of isolated small arteries and intact vascular beds.
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