气体递质不能阻止缺氧后复氧引起的经上皮离子转运的变化。

Q3 Pharmacology, Toxicology and Pharmaceutics
Rebecca Claßen, Martin Diener, Ervice Pouokam
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引用次数: 0

摘要

目的:气体信号分子如何影响缺氧条件下有助于胃肠道生理功能的离子转运过程仍有待明确。本研究的目的是确定气体信号分子在缺氧/复氧循环期间对结肠离子转运参数的影响,以及在此循环后上皮细胞剩余分泌能力的特征:方法:使用 CORM-2(假定的 CO 供体;35 和 350 µM)、硝普钠(NO 供体;100 µM)、NaHS(快速 H2S 供体;10 - 1,000 µM)、GYY 4137(慢速 H2S 供体;50 µM)和安吉利盐(HNO 供体;100 µM)作为气体递质的供体,在乌星室实验中对大鼠结肠样本进行短路电流(Isc)和组织电导(Gt)记录。胱硫醚-γ-裂解酶抑制剂,即 dl-丙炔甘氨酸(1 毫摩尔)或 β-氰基-l-丙氨酸(5 毫摩尔),以及胱硫醚-β-合成酶抑制剂氨基氧乙酸(5 毫摩尔)抑制了 H2S 的内源性合成:结果:在缺氧开始前 5 分钟给予快速气体递质供体 NaHS、硝普钠和安吉利盐可诱导 Isc 增加。对随后的缺氧反应的特点是 Isc 下降,只有在测试的最低浓度 NaHS(10 µM)存在的情况下,Isc 才有下降的趋势。复氧后,Isc 缓慢增加,不受所有供体或抑制剂的影响。在每个缺氧/复氧周期结束时,给予稳定的乙酰胆碱衍生物卡巴胆碱(50 µM),以测试上皮细胞的分泌能力。用假定的 CO 供体 CORM-2 对组织进行预处理可抑制卡巴胆碱诱导的分泌反应。同时抑制胱硫醚-γ-赖氨酸酶和胱硫醚-γ-合成酶时也观察到同样的情况。在这两种情况下,Gt 都急剧增加,表明组织完整性受损:本研究结果表明,没有一种外源性气体递质释放药物能明显改善体内缺氧/复氧循环过程中上皮离子转运的变化。相反,假定的 CO 供体 CORM-2 对上皮细胞产生了毒性作用。然而,内源性 H2S 的产生似乎对粘膜的完整性和上皮细胞的转运功能具有保护作用,当这种作用受到抑制时,会导致粘膜分泌能力的丧失。这一观察结果以及低浓度 H2S 供体 NaHS 的改善趋势表明,低浓度 H2S 在缺氧条件下具有适度的保护作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Gasotransmitters do not prevent changes in transepithelial ion transport induced by hypoxia followed by reoxygenation.

Objectives: How gaseous signalling molecules affect ion transport processes contributing to the physiological functions of the gastrointestinal tract under hypoxic conditions still needs to be clarified. The objective of the present study was to characterize the impact of gaseous signalling molecules on parameters of colonic ion transport during a hypoxia/reoxygenation cycle and the remaining secretory capacity of the epithelium after such a cycle.

Methods: Short-circuit current (Isc) and tissue conductance (Gt) recordings in Ussing chamber experiments were performed on rat colon samples using CORM-2 (putative CO donor; 35 and 350 µM), sodium nitroprusside (NO donor; 100 µM), NaHS (fast H2S donor; 10 - 1,000 µM), GYY 4137 (slow H2S donor; 50 µM) and Angeli's salt (HNO donor; 100 µM) as donors for gasotransmitters. Inhibition of endogenous synthesis of H2S was operated by inhibitors of cystathionin-γ-lyase, i.e. dl-propargylglycine (1 mM) or β-cyano-l-alanine (5 mM), and the inhibitor of cystathionine-β-synthase, amino-oxyacetate (5 mM).

Results: The fast gasotransmitter donors NaHS, sodium nitroprusside and Angeli's salt, administered 5 min before the onset of hypoxia, induced an increase in Isc. The response to the subsequently applied hypoxia was characterized by a decrease in Isc, which tended to be reduced only in the presence of the lowest concentration of NaHS (10 µM) tested. Reoxygenation resulted in a slow increase in Isc, which was unaffected by all donors or inhibitors tested. The stable acetylcholine derivative carbachol (50 µM) was administered at the end of each hypoxia/reoxygenation cycle to test the secretory capacity of the epithelium. Pretreatment of the tissue with the putative CO donor CORM-2 suppressed the secretory response induced by carbachol. The same was observed when cystathionin-γ-lyase and cystathionin-γ-synthase were inhibited simultaneously. Under both conditions, Gt drastically increased suggesting an impaired tissue integrity.

Conclusions: The present results demonstrate that none of the exogenous gasotransmitter releasing drugs significantly ameliorated the changes in epithelial ion transport during the hypoxia/reoxygenation cycle ex vivo. In contrast, the putative CO donor CORM-2 exerted a toxic effect on the epithelium. The endogenous production of H2S, however, seems to have a protective effect on the mucosal integrity and the epithelial transport functions, which - when inhibited - leads to a loss of the secretory ability of the mucosa. This observation together with the trend for improvement observed with a low concentration of the H2S donor NaHS suggests a moderate protective role of low concentrations of H2S under hypoxic conditions.

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来源期刊
Journal of Basic and Clinical Physiology and Pharmacology
Journal of Basic and Clinical Physiology and Pharmacology Pharmacology, Toxicology and Pharmaceutics-Pharmacology
CiteScore
3.90
自引率
0.00%
发文量
53
期刊介绍: The Journal of Basic and Clinical Physiology and Pharmacology (JBCPP) is a peer-reviewed bi-monthly published journal in experimental medicine. JBCPP publishes novel research in the physiological and pharmacological sciences, including brain research; cardiovascular-pulmonary interactions; exercise; thermal control; haematology; immune response; inflammation; metabolism; oxidative stress; and phytotherapy. As the borders between physiology, pharmacology and biochemistry become increasingly blurred, we also welcome papers using cutting-edge techniques in cellular and/or molecular biology to link descriptive or behavioral studies with cellular and molecular mechanisms underlying the integrative processes. Topics: Behavior and Neuroprotection, Reproduction, Genotoxicity and Cytotoxicity, Vascular Conditions, Cardiovascular Function, Cardiovascular-Pulmonary Interactions, Oxidative Stress, Metabolism, Immune Response, Hematological Profile, Inflammation, Infection, Phytotherapy.
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