Rgc2 Regulator of Glycerol Channel Fps1 Functions as a Homo- and Heterodimer with Rgc1.

Eukaryotic Cell Pub Date : 2015-07-01 Epub Date: 2015-05-29 DOI:10.1128/EC.00073-15
Jongmin Lee, David E Levin
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引用次数: 4

Abstract

The plasma membrane aquaglyceroporin Fps1 is responsible for glycerol transport in yeast in response to changes in extracellular osmolarity. Fps1 functions as a homotetramer, and control of its channel activity in response to hyperosmotic shock involves a redundant pair of fungus-specific regulators, Rgc1 and Rgc2 (regulators of the glycerol channel), and the mitogen-activatd protein kinase (MAPK) Hog1 (high-osmolarity glycerol response). Rgc1 and Rgc2 maintain Fps1 in an open-channel state by binding to its C-terminal cytoplasmic domain. Phosphorylation of Rgc1 and Rgc2 by Hog1 induces their eviction from Fps1 and consequent channel closure. In the absence of Fps1 channel function, cells experience chronic cell wall stress, which may be exploited for antifungal drug development. We show here that Rgc1 and Rgc2 form homodimers and heterodimers with each other and that dimer formation of Rgc2 is mediated by its N-terminal domain. Mutations that prevent Rgc2 dimerization block its ability to open Fps1. Therefore, the Rgc-Rgc dimer interface might be an attractive drug target.

甘油通道调控因子Fps1与Rgc1作为同源和异源二聚体。
质膜水甘油孔蛋白Fps1负责酵母中响应细胞外渗透压变化的甘油运输。Fps1是一种同源四聚体,在高渗休克反应中,其通道活性的控制涉及一对冗余的真菌特异性调节因子,Rgc1和Rgc2(甘油通道调节因子),以及丝裂原激活蛋白激酶(MAPK) Hog1(高渗透压甘油反应)。Rgc1和Rgc2通过结合Fps1的c端胞质结构域维持Fps1处于开放通道状态。Hog1对Rgc1和Rgc2的磷酸化诱导它们从Fps1中移除,从而导致通道关闭。在缺乏Fps1通道功能的情况下,细胞经历慢性细胞壁应激,这可能被用于抗真菌药物的开发。我们发现Rgc1和Rgc2相互形成同二聚体和异二聚体,Rgc2的二聚体形成是由其n端结构域介导的。阻止Rgc2二聚化的突变阻断了其打开Fps1的能力。因此,Rgc-Rgc二聚体界面可能是一个有吸引力的药物靶点。
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来源期刊
Eukaryotic Cell
Eukaryotic Cell 生物-微生物学
自引率
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审稿时长
1 months
期刊介绍: Eukaryotic Cell (EC) focuses on eukaryotic microbiology and presents reports of basic research on simple eukaryotic microorganisms, such as yeasts, fungi, algae, protozoa, and social amoebae. The journal also covers viruses of these organisms and their organelles and their interactions with other living systems, where the focus is on the eukaryotic cell. Topics include: - Basic biology - Molecular and cellular biology - Mechanisms, and control, of developmental pathways - Structure and form inherent in basic biological processes - Cellular architecture - Metabolic physiology - Comparative genomics, biochemistry, and evolution - Population dynamics - Ecology
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