期刊
DRUGS OF TODAY
卷 36, 期 2-3, 页码 147-154出版社
PROUS SCIENCE, SA
DOI: 10.1358/dot.2000.36.2-3.568788
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Decreased penile vascular resistance induced by corporal smooth muscle relaxation is the most important step in penile erection. The heightened tone of the corporal smooth muscles is considered a major cause in impotence. Modulation of corporal smooth muscle tone is a complex process requiring the integration of a host of intracellular events and extracellular signals. In intracellular events of corporal smooth muscle cell, the potassium channels and calcium channels play a major role. Functionally, potassium channels are important regulators of smooth muscle membrane potential in response to depolarizing stimuli and they counteract calcium channels. Potassium channels have been shown to play a fundamental role in both the physiologic and pathophysiologic regulation of smooth muscle tone in diverse tissues. Among the several subtypes of potassium channels, the calcium-sensitive (K-Ca) or maxi-K potassium channel subtypes are thought to be the most physiologically relevant in human corporal smooth muscle. Because of the physiological role of maxi-K channels in human corporal smooth muscles, we investigated the maxi-K channels for the genetic therapy of erectile dysfunction. These data indicate that naked hSIo DNA of maxi-K channels is quite easily incorporated into corporal smooth muscle and expression of the maxi-K hSlo cDNA appeared to be sustained for 1-4 months postinjection. These results show the possibility of a similar genetic strategy of potassium channels in humans. (C) 2000 Prous Science. All rights reserved.
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