癌细胞利用自身造成的DNA断裂来逃避基因毒性应激所施加的生长限制。

Cancer cells use self-inflicted DNA breaks to evade growth limits imposed by genotoxic stress.

作者信息

Larsen Brian D, Benada Jan, Yung Philip Yuk Kwong, Bell Ryan A V, Pappas George, Urban Vaclav, Ahlskog Johanna K, Kuo Tia T, Janscak Pavel, Megeney Lynn A, Elsässer Simon J, Bartek Jiri, Sørensen Claus S

机构信息

Biotech Research and Innovation Centre, University of Copenhagen, 2200 N Copenhagen, Denmark.

Science for Life Laboratory, Division of Genome Biology, Department of Medical Biochemistry and Biophysics, Karolinska Institutet, 17165 Stockholm, Sweden.

出版信息

Science. 2022 Apr 29;376(6592):476-483. doi: 10.1126/science.abi6378. Epub 2022 Apr 28.

DOI:10.1126/science.abi6378

PMID:35482866

Abstract

Genotoxic therapy such as radiation serves as a frontline cancer treatment, yet acquired resistance that leads to tumor reoccurrence is frequent. We found that cancer cells maintain viability during irradiation by reversibly increasing genome-wide DNA breaks, thereby limiting premature mitotic progression. We identify caspase-activated DNase (CAD) as the nuclease inflicting these de novo DNA lesions at defined loci, which are in proximity to chromatin-modifying CCCTC-binding factor (CTCF) sites. CAD nuclease activity is governed through phosphorylation by DNA damage response kinases, independent of caspase activity. In turn, loss of CAD activity impairs cell fate decisions, rendering cancer cells vulnerable to radiation-induced DNA double-strand breaks. Our observations highlight a cancer-selective survival adaptation, whereby tumor cells deploy regulated DNA breaks to delimit the detrimental effects of therapy-evoked DNA damage.

摘要

诸如放疗之类的基因毒性疗法是癌症的一线治疗手段，但导致肿瘤复发的获得性耐药却很常见。我们发现，癌细胞在辐射期间通过可逆地增加全基因组范围的DNA断裂来维持活力，从而限制过早的有丝分裂进程。我们确定半胱天冬酶激活的脱氧核糖核酸酶（CAD）是在特定基因座造成这些新生DNA损伤的核酸酶，这些基因座靠近染色质修饰的CCCTC结合因子（CTCF）位点。CAD核酸酶活性由DNA损伤反应激酶通过磷酸化来调控，与半胱天冬酶活性无关。反过来，CAD活性的丧失会损害细胞命运决定，使癌细胞易受辐射诱导的DNA双链断裂影响。我们的观察结果突出了一种癌症选择性生存适应机制，即肿瘤细胞利用受调控的DNA断裂来界定治疗引起的DNA损伤的有害影响。

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癌细胞利用自身造成的DNA断裂来逃避基因毒性应激所施加的生长限制。

Cancer cells use self-inflicted DNA breaks to evade growth limits imposed by genotoxic stress.

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