AMP 激活的蛋白激酶（AMPK）依赖性和非依赖性通路调节人呼吸道上皮细胞跨上皮的 Na+转运的低氧抑制。

AMP-activated protein kinase (AMPK)-dependent and -independent pathways regulate hypoxic inhibition of transepithelial Na+ transport across human airway epithelial cells.

机构信息

Pharmacology and Cell Physiology Research Group, Division of Biomedical Sciences, St George's University of London, Cranmer Terrace, London, UK.

出版信息

Br J Pharmacol. 2012 Sep;167(2):368-82. doi: 10.1111/j.1476-5381.2012.01993.x.

DOI:10.1111/j.1476-5381.2012.01993.x

PMID:22509822

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3481044/

Abstract

BACKGROUND AND PURPOSE

Pulmonary transepithelial Na(+) transport is reduced by hypoxia, but in the airway the regulatory mechanisms remain unclear. We investigated the role of AMPK and ROS in the hypoxic regulation of apical amiloride-sensitive Na(+) channels and basolateral Na(+) K(+) ATPase activity.

EXPERIMENTAL APPROACH

H441 human airway epithelial cells were used to examine the effects of hypoxia on Na(+) transport, AMP : ATP ratio and AMPK activity. Lentiviral constructs were used to modify cellular AMPK abundance and activity; pharmacological agents were used to modify cellular ROS.

KEY RESULTS

AMPK was activated by exposure to 3% or 0.2% O(2) for 60 min in cells grown in submerged culture or when fluid (0.1 mL·cm(-2) ) was added to the apical surface of cells grown at the air-liquid interface. Only 0.2% O(2) activated AMPK in cells grown at the air-liquid interface. AMPK activation was associated with elevation of cellular AMP:ATP ratio and activity of the upstream kinase LKB1. Hypoxia inhibited basolateral ouabain-sensitive I(sc) (I(ouabain) ) and apical amiloride-sensitive Na(+) conductance (G(Na+) ). Modification of AMPK activity prevented the effect of hypoxia on I(ouabain) (Na(+) K(+) ATPase) but not apical G(Na+) . Scavenging of superoxide and inhibition of NADPH oxidase prevented the effect of hypoxia on apical G(Na+) (epithelial Na(+) channels).

CONCLUSIONS AND IMPLICATIONS

Hypoxia activates AMPK-dependent and -independent pathways in airway epithelial cells. Importantly, these pathways differentially regulate apical Na(+) channels and basolateral Na(+) K(+) ATPase activity to decrease transepithelial Na(+) transport. Luminal fluid potentiated the effect of hypoxia and activated AMPK, which could have important consequences in lung disease conditions.

摘要

背景与目的

低氧会降低肺上皮细胞的跨上皮钠离子转运，但气道中的调节机制尚不清楚。本研究旨在探讨 AMPK 和 ROS 在低氧调节顶端部位氨甲酰吡咯烷酮敏感的钠离子通道和基底外侧钠离子-钾离子 ATP 酶活性中的作用。

实验方法

使用 H441 人气道上皮细胞来检测低氧对钠离子转运、AMP：ATP 比值和 AMPK 活性的影响。采用慢病毒构建物来调节细胞内 AMPK 的丰度和活性；采用药理学试剂来调节细胞内 ROS。

主要结果

在细胞处于贴壁培养状态下，或当液体（0.1ml·cm(-2)）被添加到在气-液界面生长的细胞的顶端表面时，用 3%或 0.2%的 O(2) 处理 60 分钟，可使 AMPK 被激活。只有 0.2%的 O(2) 能激活在气-液界面生长的细胞中的 AMPK。AMPK 的激活与细胞内 AMP：ATP 比值的升高和上游激酶 LKB1 的活性增加有关。低氧抑制基底外侧哇巴因敏感的 I(sc)（I(ouabain)）和顶端氨甲酰吡咯烷酮敏感的钠离子电导（G(Na+)）。调节 AMPK 活性可防止低氧对 I(ouabain)（钠离子-钾离子 ATP 酶）的作用，但不能防止顶端 G(Na+)（上皮钠离子通道）的作用。超氧化物的清除和 NADPH 氧化酶的抑制可防止低氧对顶端 G(Na+)（上皮钠离子通道）的作用。

结论和意义

低氧在气道上皮细胞中激活了 AMPK 依赖和非依赖途径。重要的是，这些途径可差异调节顶端钠离子通道和基底外侧钠离子-钾离子 ATP 酶活性，从而降低跨上皮钠离子转运。管腔内液体增强了低氧的作用，并激活了 AMPK，这在肺部疾病状态下可能具有重要意义。

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