Ouabain promotes claudin-1, -2, and -4 autophagic degradation through oxidative stress and AMPK activation in MDCK cells

Jessica P. Campos-Blázquez, Catalina Flores-Maldonado, Juan M. Gallardo, José Bonilla-Delgado, Alan A. Pedraza-Ramírez, Octavio López-Méndez, Enoc M. Cortés-Malagón, Rubén G. Contreras
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Abstract

Epithelial cells transport substances through the cellular and paracellular pathways. The last one depends on tight junctions, particularly on claudins, the family of integral membrane proteins responsible for the permeability and selectivity of these junctions. 300 nM ouabain (OUA) induces endocytosis and lysosomal degradation of claudin-2 and -4 in an Src and ERK1/2 kinases-dependent manner. Here we investigate whether OUA-induced lysosomal degradation of claudins implicates autophagy in renal epithelial Madin-Darby canine kidney cells. During autophagy, LC3 protein binds phosphatidylethanolamine and incorporates, together with protein p62, into the phagophore. Subsequently, the autolysosome degrades both LC3 and p62 proteins. OUA’s occupancy of its site in the Na⁺/K⁺ATPase (300 nM, 10 h) increases autophagic flux because of degradation of LC3 and p62 and an increase in the number of autophagosomes, as detected by fluorescent LC3 and p62 puncta and the rise in autolysosomes seen by the GFP-LC3-RFP probe. Finally, OUA increases the colocalisation of claudin-1, -2, or -4 with p62 in these puncta. OUA induces autophagy increasing reactive oxygen species generation that activates AMP-activated protein kinase, phosphorylating ULK1 at S555. The autophagy inducer rapamycin causes a degradation of the studied claudins comparable to the one generated by OUA. Furthermore, the autophagy inhibitor dorsomorphin blocks OUA-induced autophagy and claudin-1, -2, and -4 degradation. These results demonstrated that OUA induces claudin-1, -2, and -4 autophagy through oxidative stress.
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瓦巴因通过氧化应激和AMPK激活促进MDCK细胞中claudin-1、-2和-4的自噬降解
上皮细胞通过细胞和细胞旁通路运输物质。最后一个依赖于紧密的连接,特别是cladin,这是一个完整的膜蛋白家族,负责这些连接的渗透性和选择性。300 nM瓦巴因(OUA)以Src和ERK1/2激酶依赖的方式诱导胞吞作用和溶酶体降解claudin-2和-4。在这里,我们研究了oua诱导的claudins溶酶体降解是否与Madin-Darby犬肾上皮细胞的自噬有关。在自噬过程中,LC3蛋白结合磷脂酰乙醇胺,并与蛋白p62结合到吞噬细胞中。随后,自溶酶体降解LC3和p62蛋白。通过荧光LC3和p62点检测到,OUA占据Na + /K + atp酶(300 nM, 10 h)中的位点增加了自噬通量,自噬小体数量增加,自噬小体数量增加,通过GFP-LC3-RFP探针可以检测到LC3和p62的降解以及自噬小体数量的增加。最后,OUA增加了这些点位中claudin-1、-2或-4与p62的共定位。OUA诱导自噬,增加活性氧的产生,激活amp激活的蛋白激酶,磷酸化ULK1的S555位点。自噬诱导剂雷帕霉素引起所研究的claudin的降解,与OUA产生的降解相当。此外,自噬抑制剂dorsomorphin可以阻断oua诱导的自噬和claudin-1、-2和-4的降解。这些结果表明,OUA通过氧化应激诱导claudin-1、-2和-4自噬。
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