DIRECT EFFECT OF TESTOSTERONE ON ISOLATED CORONARY STRIPS

Document Type : Original Article

Authors

Physiology &Biochemistry Departements - Faculty of Medicine, Al-Fateh University for Medical Sciences

Abstract

Background: Although estrogens have been to be vasoactive hormones, the vascular effects of testosterone are not well defined. Also, administration of testosterone to men with angina has been shown to reduce myocardial ischemia. The mechanism of this effect is not clear but could be via an influence on coronary artery tone.
Objectives: We therefore planned this study to examine the vascular effects of testosterone invitro on the coronary artery strips and the potential mechanisms of its action.
Material & methods: Strips of coronary artery were obtained from Adult male Newzea land white rabbits and mounted in Krebs solution in 50 ml organ chambers at 37 oC.  These strips are exposed to PGF2α as a vasoconstrictive substance then testosterone is added alone and these experiments are repeated in strips preincubated with different agents.
Results: Testosterone induces a significant relaxation of rabbit coronary artery strips precontracted by PGF2α.  Incubation of coronary strips with N-nitro-L-arginine methyl ester (L-NAME) inhibits partially the relaxing effect of T. However, incubation of these strips with indomethacin did not affect the relaxing effect of T. Moreover, incubation with barium chloride, the relaxing response of T was significantly attenuated.
Conclusion: In conclusion, testosterone causes vasodilatation in coronary artery and the mechanism of this response involved the release of nitric oxide from endothelium and the stimulation of voltage dependent K channels is responsible, at least in part, for the testosterone-induced relaxation of rabbit coronary arteries.  This effect may be one of the explanations as to why testosterone has previously been shown to demonstrate beneficial effects on anginal symptoms.

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