水流出的肾上腺素能调节。

K Erickson, L Liang, P Shum, J A Nathanson
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引用次数: 17

摘要

肾上腺素增加体外灌注的人前段的流出设施和环AMP,在大约2 × 10(-5) M时,最大设施增加44%,在10(-5)M肾上腺素后,前段灌注物中的环AMP增加了12-14倍。β -2选择性拮抗剂ICI118,551可抑制细胞内腺苷酸的增加和环腺苷酸的升高。虽然设施增加与环AMP水平升高之间存在相关性,但环AMP的升高比设施增加早约1小时,这表明肾上腺素的最终作用涉及一个相当缓慢的事件,如前列腺素的合成和释放或蛋白质合成。随后的灌注研究表明,需要非常高浓度的吲哚美辛来阻断肾上腺素的流出设施效应,这表明前列腺素的合成并不是该系统中设施效应的基础。然而,5 × 10(-5) M环己胺阻断了肾上腺素和福斯克林对流出设施的影响,但没有阻断环AMP的升高。这些研究表明,蛋白质合成可能在肾上腺素诱导的流出设施的增加中发挥作用,超过第二信使水平。
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Adrenergic regulation of aqueous outflow.

Epinephrine increased outflow facility and cyclic AMP in the in vitro perfused human anterior segment with a maximal facility increase of 44% occurring at approximately 2 x 10(-5) M. Cyclic AMP measured in the perfusate from anterior segments increased by 12-14 fold after administration of 10(-5) M epinephrine. Both the facility increase and cyclic AMP rise were blocked by the beta-2 selective antagonist, ICI118,551. While there was a correlation between the facility increase and elevation in cyclic AMP levels, the rise in cyclic AMP preceded the facility increase by about 1 hour, suggesting that the ultimate effect of epinephrine involved a rather slow event such as synthesis and release of prostaglandins or protein synthesis. Subsequent perfusion studies showed that very large concentrations of indomethacin were necessary to block the outflow facility effect of epinephrine, suggesting that prostaglandin synthesis did not underlie the facility effect in this system. However, 5 x 10(-5) M cyclohexamide blocked the effect on outflow facility of both epinephrine and forskolin, but did not block the rise in cyclic AMP. These studies suggest that protein synthesis may play a role in the epinephrine-induced facility increase at some point beyond the second messenger level.

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