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幼虫埃及伊蚊离体和灌流前中肠的碱化作用。

Alkalinization in the isolated and perfused anterior midgut of the larval mosquito, Aedes aegypti.

机构信息

Department of Biological Sciences, Wagner College, Staten Island, NY 10301, USA.

出版信息

J Insect Sci. 2008;8:1-20. doi: 10.1673/031.008.4601.

DOI:10.1673/031.008.4601
PMID:20307229
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2846556/
Abstract

In the present study, isolated midguts of larval Aedes aegypti L. (Diptera: Culicidae) were mounted on perfusion pipettes and bathed in high buffer mosquito saline. With low buffer perfusion saline, containing m-cresol purple, transepithelial voltage was monitored and luminal alkalinization became visible through color changes of m-cresol purple after perfusion stop. Lumen negative voltage and alkalinization depended on metabolic energy and were stimulated in the presence of serotonin (0.2 micromol l(-1)). In some experiments a pH microelectrode in the lumen recorded pH values up to 10 within minutes after perfusion stop. The V-ATPase inhibitor concanamycin (50 micromol l(-1)) on the hemolymph side almost abolished V(te) and inhibited luminal alkalinization. The carbonic anhydrase inhibitor, methazolamide (50 micromol l(-1)), on either the luminal or hemolymph-side, or the inhibitor of anion transport, DIDS (1 mmol l(-1)) on the luminal side, had no effect on V(te) or alkalinization. Cl(-) substitution in the lumen or on both sides of the tissue affected V(te), but the color change of m-cresol purple was unchanged from control conditions. Hemolymph-side Na(+) substitution or addition of the Na(+)/H(+) exchange inhibitor, amiloride (200 micromol l(-1)), reduced V(te) and luminal alkalinization. Luminal amiloride (200 micromol l(-1)) was without effects on V(te) or alkalinization. High K(+) (60 mmol l(-1)) in the lumen reduced V(te) without affecting alkalinization. These results indicate that strong luminal alkalinization in isolated and perfused anterior midgut of larval A. aegypti depends on basolateral V-ATPase, but is apparently independent of carbonic anhydrase, apical Cl(-)/HCO(3)(-) exchange or apical K(+)/2H(+) antiport.

摘要

在本研究中,孤立的幼虫 Aedes aegypti L.(双翅目:蚊科)中肠被安装在灌注吸管上,并在高缓冲蚊盐水中沐浴。用低缓冲液灌流盐溶液,其中含有间甲酚紫,停止灌流后,通过间甲酚紫的颜色变化可以观察到跨上皮电压,并可见到腔内碱化。腔负电压和碱化取决于代谢能量,并在存在 5-羟色胺(0.2μmol l(-1))时受到刺激。在一些实验中,在停止灌流后几分钟内,腔中的 pH 微电极记录到高达 10 的 pH 值。在血淋巴侧的 V-ATP 酶抑制剂康纳霉素(50μmol l(-1))几乎完全消除了 V(te)并抑制了腔内碱化。腔或血淋巴侧的碳酸酐酶抑制剂甲唑胺(50μmol l(-1))或腔侧的阴离子转运抑制剂 DIDS(1mmol l(-1))对 V(te)或碱化均无影响。腔中的 Cl(-)替代或组织两侧的 Cl(-)替代均影响 V(te),但间甲酚紫的颜色变化与对照条件相同。血淋巴侧的 Na(+)替代或添加 Na(+)/H(+)交换抑制剂阿米洛利(200μmol l(-1)),降低了 V(te)和腔内碱化。腔中的阿米洛利(200μmol l(-1))对 V(te)或碱化均无影响。腔中的高 K(+)(60mmol l(-1))降低了 V(te)而不影响碱化。这些结果表明,在幼虫 A. aegypti 的离体灌注前中肠中,强烈的腔内碱化依赖于基底外侧的 V-ATP 酶,但显然与碳酸酐酶、顶端 Cl(-)/HCO(3)(-)交换或顶端 K(+)/2H(+)逆向转运无关。

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