ISG15 对 PCNA 的修饰在易错跨损伤 DNA 合成的终止中起着至关重要的作用。

Modification of PCNA by ISG15 plays a crucial role in termination of error-prone translesion DNA synthesis.

机构信息

School of Biological Sciences, College of Natural Sciences, Seoul National University, Seoul 151-742, South Korea.

出版信息

Mol Cell. 2014 May 22;54(4):626-38. doi: 10.1016/j.molcel.2014.03.031. Epub 2014 Apr 24.

DOI:10.1016/j.molcel.2014.03.031

Abstract

In response to DNA damage, PCNA is mono-ubiquitinated and triggers translesion DNA synthesis (TLS) by recruiting polymerase-η. However, it remained unknown how error-prone TLS is turned off after DNA lesion bypass to prevent mutagenesis. Here we showed that ISG15 modification (ISGylation) of PCNA plays a key role in TLS termination. Upon UV irradiation, EFP, an ISG15 E3 ligase, bound to mono-ubiquitinated PCNA and promoted its ISGylation. ISGylated PCNA then tethered USP10 for deubiquitination and in turn the release of polymerase-η from PCNA. Eventually, PCNA was deISGylated by UBP43 for reloading of replicative DNA polymerases and resuming normal DNA replication. However, ISGylation-defective Lys-to-Arg mutations in PCNA or knockdown of any of ISG15, EFP, or USP10 led to persistent recruitment of mono-ubiquitinated PCNA and polymerase-η to nuclear foci, causing an increase in mutation frequency. These findings establish a crucial role of PCNA ISGylation in termination of error-prone TLS for preventing excessive mutagenesis.

摘要

针对 DNA 损伤，PCNA 被单泛素化，并通过招募聚合酶 η 触发跨损伤 DNA 合成 (TLS)。然而，在 DNA 损伤绕过之后，如何关闭易错的 TLS 以防止诱变仍然未知。在这里，我们表明 PCNA 的 ISG15 修饰（ISGylation）在 TLS 终止中起着关键作用。在 UV 照射下，EFP，一种 ISG15 E3 连接酶，与单泛素化的 PCNA 结合，并促进其 ISGylation。随后，ISGylated PCNA 与 USP10 结合进行去泛素化，从而将聚合酶 η 从 PCNA 上释放出来。最终，PCNA 被 UBP43 去 ISGylated，用于复制 DNA 聚合酶的再加载，并恢复正常的 DNA 复制。然而，PCNA 中的 Lys 到 Arg 突变（导致 ISGylation 缺陷）或任何 ISG15、EFP 或 USP10 的敲低，都会导致单泛素化的 PCNA 和聚合酶 η 持续募集到核焦点，导致突变频率增加。这些发现确立了 PCNA ISGylation 在终止易错 TLS 以防止过度诱变中的关键作用。

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ISG15 对 PCNA 的修饰在易错跨损伤 DNA 合成的终止中起着至关重要的作用。

Modification of PCNA by ISG15 plays a crucial role in termination of error-prone translesion DNA synthesis.

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