Skolariki Aglaia, Jady-Clark Rose L, Parkes Eileen E
Department of Oncology, University of Oxford, UK.
Nuffield Department of Medicine, Centre for Immuno-Oncology, University of Oxford, UK.
Mol Oncol. 2025 Jun;19(6):1561-1564. doi: 10.1002/1878-0261.70047. Epub 2025 May 7.
Chromosomal instability (CIN), a pervasive feature of cancer, promotes tumor evolution and inflammatory signaling, yet its influence on innate immune sensing remains incompletely understood. Ruptured micronuclei, a direct byproduct of CIN arising from missegregated chromosomes, expose out-of-context double-stranded DNA that engages the cGAS-STING pathway. In their recent study, Sasaki et al. show that micronuclei are also a source of immunogenic double-stranded RNA (dsRNA), triggering MAVS-dependent type I interferon responses independently of STING. The authors show that micronuclei undergo aberrant transcription, producing dsRNA from nonexonic, transcriptionally accessible loci, with many species localizing near interferon-stimulated genes. This work suggests a feedforward loop in which type I interferon signaling reinforces its own activation through transcriptional dysregulation. Using MPS1 inhibition to induce acute CIN, the authors show that MAVS signaling promotes MHC Class I expression and immune cell recruitment. These findings reposition CIN as a dual trigger of innate immunity through cytoplasmic DNA and RNA sensing. Future work should define how these pathways integrate in the context of chronic CIN and evaluate strategies to target DNA and RNA sensing in immune-edited tumors.
染色体不稳定(CIN)是癌症的一个普遍特征,它促进肿瘤进化和炎症信号传导,但其对固有免疫感应的影响仍未完全了解。破裂的微核是CIN的直接副产物,由染色体错分离产生,会暴露与cGAS-STING途径相关的异常双链DNA。在他们最近的研究中,佐佐木等人表明,微核也是免疫原性双链RNA(dsRNA)的来源,可独立于STING触发MAVS依赖性I型干扰素反应。作者表明,微核会发生异常转录,从非外显子、转录可及位点产生dsRNA,其中许多种类定位于干扰素刺激基因附近。这项工作表明存在一个前馈回路,其中I型干扰素信号通过转录失调增强自身激活。作者使用MPS1抑制来诱导急性CIN,表明MAVS信号促进MHC I类表达和免疫细胞募集。这些发现将CIN重新定位为通过细胞质DNA和RNA感应触发固有免疫的双重因素。未来的工作应确定这些途径在慢性CIN背景下如何整合,并评估针对免疫编辑肿瘤中DNA和RNA感应的策略。
