Differential modulation of cancer-related genes by mitochondrial DNA haplogroups and the STING DNA sensing system

IF 2.5 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY
Kevin Schneider, Marilyn Chwa, Shari R. Atilano, Sonali Nashine, Nitin Udar, David S. Boyer, S. Michal Jazwinski, Michael V. Miceli, Anthony B. Nesburn, Baruch D. Kuppermann, M. Cristina Kenney
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引用次数: 0

Abstract

Activation of the Simulator of Interferon Genes (STING) system by mitochondrial (mt) DNA can upregulate type 1 interferon genes and enhance immune responses to combat bacterial and viral infections. In cancers, the tumor-derived DNA activates STING leading to upregulation of IFN-beta and induction of antitumor T cells. The entire mtDNA from the cell lines was sequenced using next-generation sequencing (NGS) technology with independent sequencing of both strands in both directions, allowing identification of low-frequency heteroplasmy SNPs. There were 15 heteroplasmy SNPs showing a range from 3.4% to 40.5% occurrence in the K cybrid cell lines. Three H haplogroup cybrids possessed SNP heteroplasmy that ranged from 4.39% to 30.7%. The present study used qRT-PCR to determine if cybrids of H and K haplogroups differentially regulate expression levels of five cancer genes (BRAC1, ALK, PD1, EGFR, and HER2) and seven STING subunits genes (CGAS, TBK1, IRF3, IκBa, NFκB, TRAF2, and TNFRSF19). Some cybrids underwent siRNA knockdown of STING followed by qRT-PCR in order to determine the impact of STING on gene expression. Rho0 (lacking mtDNA) ARPE-19 cells were used to determine if mtDNA is required for the expression of the cancer genes studied. Our results showed that (a) K cybrids have lower expression levels for BRAC1, ALK, PD1, EGFR, IRF3, and TNFRSF19 genes but increased transcription for IκBa and NFκB compared to H cybrids; (b) STING KD decreases expression of EGFR in both H and K cybrids, and (c) PD1 expression is negligible in Rho0 cells. Our findings suggest that the STING DNA sensing pathway may be a previously unrecognized pathway to target modulation of cancer-related genes and the PD1 expression requires the presence of mtDNA.

Abstract Image

线粒体DNA单倍群和STING DNA传感系统对癌症相关基因的差异调节
线粒体(mt) DNA激活干扰素基因模拟器(STING)系统可以上调1型干扰素基因,增强对抗细菌和病毒感染的免疫反应。在癌症中,肿瘤来源的DNA激活STING,导致ifn - β的上调和抗肿瘤T细胞的诱导。利用下一代测序(NGS)技术对来自细胞系的整个mtDNA进行测序,在两个方向上对两条链进行独立测序,从而鉴定出低频异质性snp。在K杂交细胞系中有15个异质snp,其发生率在3.4% ~ 40.5%之间。3个H单倍群杂种具有4.39% ~ 30.7%的SNP异质性。本研究采用qRT-PCR检测H和K单倍群的杂交体是否对5种癌症基因(BRAC1、ALK、PD1、EGFR和HER2)和7种STING亚基基因(CGAS、TBK1、IRF3、i - κ ba、nf - κ b、TRAF2和TNFRSF19)的表达水平有差异调节。为了确定STING对基因表达的影响,对一些杂交体进行了STING的siRNA敲除,然后进行了qRT-PCR。使用Rho0(缺乏mtDNA) ARPE-19细胞来确定所研究的癌症基因的表达是否需要mtDNA。我们的研究结果表明(a)与H细胞系相比,K细胞系bracc1、ALK、PD1、EGFR、IRF3和TNFRSF19基因的表达水平较低,而i - κ ba和nf - κ b基因的转录水平较高;(b) STING KD降低了H和K细胞中EGFR的表达,(c) Rho0细胞中PD1的表达可以忽略不计。我们的研究结果表明,STING DNA传感通路可能是先前未被识别的靶向癌症相关基因调节的途径,并且PD1的表达需要mtDNA的存在。
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来源期刊
FASEB bioAdvances
FASEB bioAdvances Multiple-
CiteScore
5.40
自引率
3.70%
发文量
56
审稿时长
10 weeks
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