钙刺激的囊泡运输引起的锰重新分布绕过了对P型ATP酶功能的需求。

Manganese redistribution by calcium-stimulated vesicle trafficking bypasses the need for P-type ATPase function.

作者信息

García-Rodríguez Néstor, Manzano-López Javier, Muñoz-Bravo Miguel, Fernández-García Elisabet, Muñiz Manuel, Wellinger Ralf Erik

机构信息

From the Centro Andaluz de Biología Molecular y Medicina Regenerativa (CABIMER), Universidad de Sevilla, 41092, Sevilla, Spain and.

the Departamento de Biolgía Celular-Instituto de Biomedicina de Sevilla (IBiS), Universidad de Sevilla, 41012 Sevilla, Spain.

出版信息

J Biol Chem. 2015 Apr 10;290(15):9335-47. doi: 10.1074/jbc.M114.616334. Epub 2015 Feb 20.

DOI:10.1074/jbc.M114.616334

PMID:25713143

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4392241/

Abstract

Regulation of intracellular ion homeostasis is essential for eukaryotic cell physiology. An example is provided by loss of ATP2C1 function, which leads to skin ulceration, improper keratinocyte adhesion, and cancer formation in Hailey-Hailey patients. The yeast ATP2C1 orthologue PMR1 codes for a Mn(2+)/Ca(2+) transporter that is crucial for cis-Golgi manganese supply. Here, we present evidence that calcium overcomes the lack of Pmr1 through vesicle trafficking-stimulated manganese delivery and requires the endoplasmic reticulum Mn(2+) transporter Spf1 and the late endosome/trans-Golgi Nramp metal transporter Smf2. Smf2 co-localizes with the putative Mn(2+) transporter Atx2, and ATX2 overexpression counteracts the beneficial impact of calcium treatment. Our findings suggest that vesicle trafficking promotes organelle-specific ion interchange and cytoplasmic metal detoxification independent of calcineurin signaling or metal transporter re-localization. Our study identifies an alternative mode for cis-Golgi manganese supply in yeast and provides new perspectives for Hailey-Hailey disease treatment.

摘要

细胞内离子稳态的调节对真核细胞生理至关重要。ATP2C1功能丧失就是一个例子，它会导致海利-海利病患者出现皮肤溃疡、角质形成细胞黏附异常和癌症形成。酵母中的ATP2C1同源物PMR1编码一种Mn(2+)/Ca(2+)转运蛋白，对顺式高尔基体的锰供应至关重要。在这里，我们提供证据表明，钙通过囊泡运输刺激的锰传递克服了Pmr1的缺乏，并且需要内质网Mn(2+)转运蛋白Spf1和晚期内体/反式高尔基体Nramp金属转运蛋白Smf2。Smf2与假定的Mn(2+)转运蛋白Atx2共定位，并且Atx2的过表达抵消了钙处理的有益影响。我们的研究结果表明，囊泡运输促进了细胞器特异性离子交换和细胞质金属解毒，而与钙调神经磷酸酶信号传导或金属转运蛋白重新定位无关。我们的研究确定了酵母中顺式高尔基体锰供应的另一种模式，并为海利-海利病的治疗提供了新的视角。

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