褪黑素对抑制应激小鼠离子转运的短期原位作用

A. Khan, M. Peter
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引用次数: 3

摘要

褪黑素是一种多效性激素,参与许多生理功能,包括对抗氧化应激。然而,其在应激反应中离子转运中的作用尚不清楚。在瑞士白化病小鼠体内观察原位褪黑素的剂量依赖性。褪黑素在10 -7 M灌注20分钟后,肾、肝、胃、肠组织中Na +、K + - atp酶活性显著降低。褪黑激素灌注后,这些组织的胞浆和线粒体H + atp酶活性呈剂量反应性降低。同样,肾、肝、胃和肠的胞质和线粒体ca2 + atp酶活性降低。线粒体mg2 + atp酶活性在被试组织中呈剂量反应性下降。抑制应激7 d后,小鼠肾、肝、胃、肠组织中Na +、K + - atp酶、H + atp酶、ca2 + atp酶和Mg 2+ atp酶活性显著升高。相反,应激小鼠在10 -9 M时原位灌注褪黑素可使应激诱导的这些跨膜离子转运体的过度活性降低。这些结果为褪黑激素在离子转运体活性中的作用提供了证据,并指出了褪黑激素在小鼠应激反应中对离子转运的保护作用。
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Short-Term in Situ Action of Melatonin on Ion Transport in Mice Kept at Restraint Stress
Melatonin, a pleiotropic hormone, is involved in many physiological functions including combating oxidative stress. However, its role in ion transport during stress response is not yet understood. The dose-dependent effect of in situ melatonin was examined in Swiss albino mice. Perfusion of melatonin at 10 -7 M for 20 minutes produced a significant decrease in Na + , K + -ATPase activity in the kidney, liver, stomach and intestinal tissues. A dose-responsive decrease in cytosolic and mitochondrial H + ATPase activity was found in these tissues after melatonin perfusion. Likewise, the cytosolic and mitochondrial Ca 2+ ATPase activities decreased in the kidney, liver, stomach and intestine. The mitochondrial Mg 2+ ATPase activity decreased in the tested tissues in a dose-responsive manner. Subjecting mice to restraint stress for seven days increased the Na + , K + -ATPase, H + ATPase, Ca 2+ ATPase and Mg 2+ ATPase activities to significant levels in kidney, liver, stomach and intestinal tissues. On the contrary, in-situ perfusion of melatonin to stressed mice at 10 -9 M caused decrease in the stress-induced hyperactivity of these transmembrane ion transporters. These results provide evidence for a role of melatonin in ion transporter activity and point to a protective role of melatonin in ion transport during stress response in mice.
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