水通道蛋白2的丰度由E3连接酶CHIP通过热休克蛋白70进行调控。

AQP2 Abundance is Regulated by the E3-Ligase CHIP Via HSP70.

作者信息

Centrone Mariangela, Ranieri Marianna, Di Mise Annarita, Berlingerio Sante Princiero, Russo Annamaria, Deen Peter M T, Staub Olivier, Valenti Giovanna, Tamma Grazia

机构信息

Dept. Biosciences Biotechnologies and Biopharmaceutics, University of Bari, Bari, Italy.

Dept of Physiology, Radboud University Medical Center, Nijmegen, the Netherlands.

出版信息

Cell Physiol Biochem. 2017;44(2):515-531. doi: 10.1159/000485088. Epub 2017 Nov 17.

DOI:10.1159/000485088

PMID:29145196

Abstract

BACKGROUND/AIMS: AQP2 expression is mainly controlled by vasopressin-dependent changes in protein abundance which is in turn regulated by AQP2 ubiquitylation and degradation, however the proteins involved in these processes are largely unknown. Here, we investigated the potential role of the CHIP E3 ligase in AQP2 regulation.

METHODS

MCD4 cells and kidney slices were used to study the involvement of the E3 ligase CHIP on AQP2 protein abundance by cell homogenization and immunoprecipitation followed by immunoblotting.

RESULTS

We found that AQP2 complexes with CHIP in renal tissue. Expression of CHIP increased proteasomal degradation of AQP2 and HSP70 abundance, a molecular signature of HSP90 inhibition. Increased HSP70 level, secondary to CHIP expression, promoted ERK signaling resulting in increased AQP2 phosphorylation at S261. Phosphorylation of AQP2 at S256 and T269 were instead downregulated. Next, we investigated HSP70 interaction with AQP2, which is important for endocytosis. Compared with AQP2-wt, HSP70 binding decreased in AQP2-S256D and AQP2-S256D-S261D, while increased in AQP2-S256D-S261A. Surprisingly, expression of CHIP-delUbox, displaying a loss of E3 ligase activity, still induced AQP2 degradation, indicating that CHIP does not ubiquitylate and degrade AQP2 itself. Conversely, the AQP2 half-life was increased upon the expression of CHIP-delTPR a domain which binds Hsc70/HSP70 and HSP90. HSP70 has been reported to bind other E3 ligases such as MDM2. Notably, we found that co-expression of CHIP and MDM2 increased AQP2 degradation, whereas co-expression of CHIP with MDM2-delRING, an inactive form of MDM2, impaired AQP2 degradation.

CONCLUSION

Our findings indicate CHIP as a master regulator of AQP2 degradation via HSP70 that has dual functions: (1) as chaperone for AQP2 and (2) as an anchoring protein for MDM2 E3 ligase, which is likely to be involved in AQP2 degradation.

摘要

背景/目的：水通道蛋白2（AQP2）的表达主要受血管加压素依赖性的蛋白质丰度变化控制，而这又依次受AQP2泛素化和降解的调节，然而参与这些过程的蛋白质在很大程度上尚不清楚。在此，我们研究了CHIP E3连接酶在AQP2调节中的潜在作用。

方法

使用MCD4细胞和肾切片，通过细胞匀浆、免疫沉淀及随后的免疫印迹来研究E3连接酶CHIP对AQP2蛋白质丰度的影响。

结果

我们发现肾组织中AQP2与CHIP形成复合物。CHIP的表达增加了AQP2的蛋白酶体降解以及HSP70丰度，这是HSP90抑制的分子特征。CHIP表达导致的HSP70水平升高促进了ERK信号传导，导致AQP2在S261处的磷酸化增加。而AQP2在S256和T269处的磷酸化则下调。接下来，我们研究了HSP70与AQP2的相互作用，这对内吞作用很重要。与野生型AQP2相比，AQP2-S256D和AQP2-S256D-S261D中HSP70的结合减少，而在AQP2-S256D-S261A中增加。令人惊讶的是，显示E3连接酶活性丧失的CHIP-delUbox的表达仍能诱导AQP2降解，这表明CHIP本身不会使AQP2泛素化和降解。相反，CHIP-delTPR（一个结合Hsc70/HSP70和HSP90的结构域）的表达使AQP2的半衰期延长。据报道，HSP70可与其他E3连接酶如MDM2结合。值得注意的是，我们发现CHIP和MDM2的共表达增加了AQP2的降解，而CHIP与MDM2-delRING（MDM2的无活性形式）的共表达则损害了AQP2的降解。

结论

我们的研究结果表明，CHIP是通过HSP70对AQP2降解的主要调节因子，HSP70具有双重功能：（1）作为AQP2的伴侣蛋白；（2）作为MDM2 E3连接酶的锚定蛋白，可能参与AQP2的降解。

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水通道蛋白2的丰度由E3连接酶CHIP通过热休克蛋白70进行调控。

AQP2 Abundance is Regulated by the E3-Ligase CHIP Via HSP70.

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