在人类细胞药物诱导的有丝分裂错误后,染色质桥而不是微核激活cGAS

Patrick J. Flynn, P. Koch, T. Mitchison
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引用次数: 40

摘要

诱导有丝分裂错误的肿瘤化疗药物可能部分通过诱导干扰素信号传导导致肿瘤消退。为了验证这一观点,我们测量了具有不同机制的抗有丝分裂药物激活cgas - sting -干扰素途径的能力。只有微管稳定剂和MPS1抑制剂能激活cGAS,这与它们产生cGAS包被的染色质桥的能力相关。我们提出染色质桥通过依赖于细胞分裂的张力依赖机制激活cGAS。我们的研究结果可能解释抗有丝分裂药物的临床失败,并有助于设计改进的药物。有丝分裂错误可以激活环GMP-AMP合成酶(cGAS)并诱导I型干扰素(IFN)信号传导。目前的模型提出染色体分离错误产生微核,其破裂激活cGAS。我们使用一组抗有丝分裂药物来干扰人类成纤维细胞的有丝分裂,并在随后的间期测量异常的核形态、cGAS定位和IFN信号。微核持续招募cGAS而不激活它。相反,IFN信号与cgas包裹的染色质桥的形成相关,这些桥是由微管稳定剂和MPS1抑制剂选择性产生的。阻止细胞分裂的药物抑制了染色质桥对cGAS的激活。我们通过测量2 ' 3 ' -cGAMP向成纤维细胞和小鼠细胞的旁分泌转移,证实了在不能分泌IFN的癌细胞系中,染色质桥可以激活cGAS。我们提出,当cGAS在染色质桥中被拉伸时,它被自染色质选择性地激活。有丝分裂失败的细胞的免疫监视以及紫杉烷和MPS1抑制剂的抗肿瘤作用可能依赖于这种作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Chromatin bridges, not micronuclei, activate cGAS after drug-induced mitotic errors in human cells
Significance Cancer chemotherapeutic drugs that induce mitotic errors may cause tumor regression in part through the induction of interferon signaling. To test this idea, we measured the ability of antimitotic drugs with different mechanisms to activate the cGAS–STING–interferon pathway. Only microtubule stabilizers and MPS1 inhibitors activated cGAS, and this correlated with their ability to generate cGAS-coated chromatin bridges. We propose that chromatin bridges activate cGAS through a tension-dependent mechanism that depends on cytokinesis. Our results may explain the clinical failure of antimitotic drugs and help to design improved drugs. Mitotic errors can activate cyclic GMP–AMP synthase (cGAS) and induce type I interferon (IFN) signaling. Current models propose that chromosome segregation errors generate micronuclei whose rupture activates cGAS. We used a panel of antimitotic drugs to perturb mitosis in human fibroblasts and measured abnormal nuclear morphologies, cGAS localization, and IFN signaling in the subsequent interphase. Micronuclei consistently recruited cGAS without activating it. Instead, IFN signaling correlated with formation of cGAS-coated chromatin bridges that were selectively generated by microtubule stabilizers and MPS1 inhibitors. cGAS activation by chromatin bridges was suppressed by drugs that prevented cytokinesis. We confirmed cGAS activation by chromatin bridges in cancer lines that are unable to secrete IFN by measuring paracrine transfer of 2′3′-cGAMP to fibroblasts, and in mouse cells. We propose that cGAS is selectively activated by self-chromatin when it is stretched in chromatin bridges. Immunosurveillance of cells that fail mitosis, and antitumor actions of taxanes and MPS1 inhibitors, may depend on this effect.
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