在小鼠中模拟POLG突变揭示了POLγΒ在调节表型严重程度方面的关键作用。

Modelling POLG mutations in mice unravels a critical role of POLγΒ in regulating phenotypic severity.

作者信息

Corrà Samantha, Zuppardo Alessandro, Valenzuela Sebastian, Jenninger Louise, Cerutti Raffaele, Sillamaa Sirelin, Hoberg Emily, Johansson Katarina A S, Rovsnik Urska, Volta Sara, Silva-Pinheiro Pedro, Davis Hannah, Trifunovic Aleksandra, Minczuk Michal, Gustafsson Claes M, Suomalainen Anu, Zeviani Massimo, Macao Bertil, Zhu Xuefeng, Falkenberg Maria, Viscomi Carlo

机构信息

Veneto Institute of Molecular Medicine (VIMM), Via Orus, 2-35129, Padova, Italy.

Department of Biomedical Sciences, University of Padova, Via Ugo Bassi, 58/B-35131, Padova, Italy.

出版信息

Nat Commun. 2025 May 23;16(1):4782. doi: 10.1038/s41467-025-60059-y.

DOI:10.1038/s41467-025-60059-y

PMID:40404629

Abstract

DNA polymerase γ (POLγ), responsible for mitochondrial DNA replication, consists of a catalytic POLγA subunit and two accessory POLγB subunits. Mutations in POLG, which encodes POLγA, lead to various mitochondrial diseases. We investigated the most common POLG mutations (A467T, W748S, G848S, Y955C) by characterizing human and mouse POLγ variants. Our data reveal that these mutations significantly impair POLγ activities, with mouse variants exhibiting milder defects. Cryogenic electron microscopy highlighted structural differences between human and mouse POLγ, particularly in the POLγB subunit, which may explain the higher activity of mouse POLγ and the reduced severity of mutations in mice. We further generated a panel of mouse models mirroring common human POLG mutations, providing crucial insights into the pathogenesis of POLG-related disorders and establishing robust models for therapeutic development. Our findings emphasize the importance of POLγB in modulating the severity of POLG mutations.

摘要

负责线粒体DNA复制的DNA聚合酶γ（POLγ）由一个催化性POLγA亚基和两个辅助性POLγB亚基组成。编码POLγA的POLG发生突变会导致各种线粒体疾病。我们通过对人和小鼠的POLγ变体进行表征，研究了最常见的POLG突变（A467T、W748S、G848S、Y955C）。我们的数据表明，这些突变显著损害POLγ活性，小鼠变体表现出较轻的缺陷。低温电子显微镜突出了人和小鼠POLγ之间的结构差异，特别是在POLγB亚基中，这可能解释了小鼠POLγ活性较高以及小鼠突变严重程度降低的原因。我们进一步构建了一组模拟常见人类POLG突变的小鼠模型，为POLG相关疾病的发病机制提供了关键见解，并为治疗开发建立了强大的模型。我们的研究结果强调了POLγB在调节POLG突变严重程度方面的重要性。

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在小鼠中模拟POLG突变揭示了POLγΒ在调节表型严重程度方面的关键作用。

Modelling POLG mutations in mice unravels a critical role of POLγΒ in regulating phenotypic severity.

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