Testing the PEST hypothesis using relevant Rett mutations in MeCP2 E1 and E2 isoforms.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-11-05 DOI:10.1093/hmg/ddae119
Ladan Kalani, Bo-Hyun Kim, Alberto Ruiz de Chavez, Anastasia Roemer, Anna Mikhailov, Jonathan K Merritt, Katrina V Good, Robert L Chow, Kerry R Delaney, Michael J Hendzel, Zhaolan Zhou, Jeffrey L Neul, John B Vincent, Juan Ausió
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Abstract

Mutations in methyl-CpG binding protein 2 (MeCP2), such as the T158M, P152R, R294X, and R306C mutations, are responsible for most Rett syndrome (RTT) cases. These mutations often result in altered protein expression that appears to correlate with changes in the nuclear size; however, the molecular details of these observations are poorly understood. Using a C2C12 cellular system expressing human MeCP2-E1 isoform as well as mouse models expressing these mutations, we show that T158M and P152R result in a decrease in MeCP2 protein, whereas R306C has a milder variation, and R294X resulted in an overall 2.5 to 3 fold increase. We also explored the potential involvement of the MeCP2 PEST domains in the proteasome-mediated regulation of MeCP2. Finally, we used the R294X mutant to gain further insight into the controversial competition between MeCP2 and histone H1 in the chromatin context. Interestingly, in R294X, MeCP2 E1 and E2 isoforms were differently affected, where the E1 isoform contributes to much of the overall protein increase observed, while E2 decreases by half. The modes of MeCP2 regulation, thus, appear to be differently regulated in the two isoforms.

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利用 MeCP2 E1 和 E2 同工酶中的相关 Rett 突变检验 PEST 假设。
甲基-CpG 结合蛋白 2(MeCP2)的突变,如 T158M、P152R、R294X 和 R306C 突变,是大多数雷特综合征(RTT)病例的病因。这些突变通常会导致蛋白质表达的改变,而蛋白质表达的改变似乎与核大小的变化有关;然而,人们对这些观察结果的分子细节却知之甚少。利用表达人类 MeCP2-E1 异构体的 C2C12 细胞系统以及表达这些突变的小鼠模型,我们发现 T158M 和 P152R 会导致 MeCP2 蛋白减少,而 R306C 的变异较轻,R294X 则会导致整体增加 2.5 到 3 倍。我们还探索了 MeCP2 PEST 结构域参与蛋白酶体介导的 MeCP2 调控的可能性。最后,我们利用 R294X 突变体进一步了解了 MeCP2 与组蛋白 H1 在染色质环境中的竞争关系。有趣的是,在 R294X 突变体中,MeCP2 的 E1 和 E2 异构体受到了不同的影响,其中 E1 异构体对观察到的总体蛋白质增加做出了很大贡献,而 E2 则减少了一半。因此,两种异构体的 MeCP2 调节模式似乎不同。
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CiteScore
7.20
自引率
4.30%
发文量
567
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