DNASE1L3缺陷通过环GMP-AMP合酶和非典型NF-κB途径促进中性粒细胞胞外陷阱诱导的侵袭糖尿病肝细胞癌

IF 4.6 2区医学 Q2 IMMUNOLOGY Clinical & Translational Immunology Pub Date : 2022-04-20 DOI:10.1002/cti2.1386

Na Li, Xue Zheng, Mianrong Chen, Li Huang, Li Chen, Rui Huo, Xiaotong Li, Yucan Huang, Mingwen Sun, Suiqing Mai, Zhuoyi Wu, Hui Zhang, Jinbao Liu, Chun-tao Yang

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引用次数: 4

摘要

目的糖尿病性肝细胞癌(HCC)患者死亡率和转移率高。糖尿病促进中性粒细胞胞外陷阱(NETs)的产生，介导HCC转移和侵袭。然而，糖尿病诱导的NETs是否以及如何引发HCC侵袭在很大程度上是未知的。在这里，我们旨在观察糖尿病诱导的NETs对HCC侵袭的影响，并探讨与DNA传感器环GMP-AMP合成酶(cGAS)相关的机制。方法采集糖尿病患者血清和健康人血清。人类中性粒细胞来源的NETs被分离用于刺激HCC细胞的侵袭。来自SEER和TCGA数据库的数据用于生物信息学分析。在HCC细胞和同种异体移植模型中，观察到nets引发的侵袭。结果糖尿病性HCC患者的生存期较非糖尿病性HCC患者差。糖尿病血清或提取的NETs均可引起HCC侵袭。糖尿病或NETosis诱导裸鼠肝细胞癌移植物侵袭。DNase1对肝癌细胞侵袭有抑制作用。在TCGA_LIHC中，肿瘤组织细胞外dna酶DNASE1L3下调，功能项(胞内囊泡膜、NF-κB通路和细胞外基质分解)富集。在NETotic或糖尿病裸鼠中，LO2肝细胞或H22细胞来源的同种异体移植物中DNASE1L3的下调促进了HCC的侵袭。此外，HCC细胞暴露于NETs可上调cGAS和非典型NF-κB通路，并诱导转移基因(MMP9和SPP1)的表达。cGAS抑制剂和NF-κB RELB敲低均可减少NETs DNA引起的HCC侵袭。此外，cGAS抑制剂能够抑制NF-κB RELB的易位。结论DNASE1L3缺陷通过cGAS和非典型NF-κB途径加重NETs dna引发的肝癌对糖尿病患者的侵袭。

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Deficient DNASE1L3 facilitates neutrophil extracellular traps-induced invasion via cyclic GMP-AMP synthase and the non-canonical NF-κB pathway in diabetic hepatocellular carcinoma

Objective

Diabetic hepatocellular carcinoma (HCC) patients have high mortality and metastasis rates. Diabetic conditions promote neutrophil extracellular traps (NETs) generation, which mediates HCC metastasis and invasion. However, whether and how diabetes-induced NETs trigger HCC invasion is largely unknown. Here, we aimed to observe the effects of diabetes-induced NETs on HCC invasion and investigate mechanisms relevant to a DNA sensor cyclic GMP-AMP synthase (cGAS).

Methods

Serum from diabetic patients and healthy individuals was collected. Human neutrophil-derived NETs were isolated for stimulating HCC cell invasion. Data from the SEER and TCGA databases were used for bioinformatics analysis. In HCC cells and allograft models, NETs-triggered invasion was observed.

Results

Diabetic HCC patients had poorer survival than non-diabetic ones. Either diabetic serum or extracted NETs caused HCC invasion. Induction of diabetes or NETosis elicited HCC allograft invasion in nude mice. HCC cell invasion was attenuated by the treatment with DNase1. In TCGA_LIHC, an extracellular DNase DNASE1L3 was downregulated in tumor tissues, while function terms (the endocytic vesicle membrane, the NF-κB pathway and extracellular matrix disassembly) were enriched. DNASE1L3 knockdown in LO2 hepatocytes or H22 cell-derived allografts facilitated HCC invasion in NETotic or diabetic nude mice. Moreover, exposure of HCC cells to NETs upregulated cGAS and the non-canonical NF-κB pathway and induced expression of metastasis genes (MMP9 and SPP1). Both cGAS inhibitor and NF-κB RELB knockdown diminished HCC invasion caused by NETs DNA. Also, cGAS inhibitor was able to retard translocation of NF-κB RELB.

Conclusion

Defective DNASE1L3 aggravates NETs DNA-triggered HCC invasion on diabetic conditions via cGAS and the non-canonical NF-κB pathway.

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来源期刊

Clinical & Translational Immunology Medicine-Immunology and Allergy

CiteScore

12.00

自引率

1.70%

发文量

审稿时长

13 weeks

期刊介绍： Clinical & Translational Immunology is an open access, fully peer-reviewed journal devoted to publishing cutting-edge advances in biomedical research for scientists and physicians. The Journal covers fields including cancer biology, cardiovascular research, gene therapy, immunology, vaccine development and disease pathogenesis and therapy at the earliest phases of investigation.