Increased mitochondrial fission promotes autophagy and hepatocellular carcinoma cell survival through the ROS-modulated coordinated regulation of the NFKB and TP53 pathways.
Qichao Huang,Lei Zhan,Haiyan Cao,Jibin Li,Yinghua Lyu,Xu Guo,Jing Zhang,Lele Ji,Tingting Ren,Jiaze An,Bingrong Liu,Yongzhan Nie,Jinliang Xing +12 more
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TLDR
It is demonstrated that increased mitochondrial fission plays a critical role in regulation of HCC cell survival, which provides a strong evidence for this process as drug target in HCC treatment.Abstract:
Mitochondrial morphology is dynamically remodeled by fusion and fission in cells, and dysregulation of this process is closely implicated in tumorigenesis. However, the mechanism by which mitochondrial dynamics influence cancer cell survival is considerably less clear, especially in hepatocellular carcinoma (HCC). In this study, we systematically investigated the alteration of mitochondrial dynamics and its functional role in the regulation of autophagy and HCC cell survival. Furthermore, the underlying molecular mechanisms and therapeutic application were explored in depth. Mitochondrial fission was frequently upregulated in HCC tissues mainly due to an elevated expression ratio of DNM1L to MFN1, which significantly contributed to poor prognosis of HCC patients. Increased mitochondrial fission by forced expression of DNM1L or knockdown of MFN1 promoted the survival of HCC cells both in vitro and in vivo mainly by facilitating autophagy and inhibiting mitochondria-dependent apoptosis. We further demonstrated that the survival-promoting role of increased mitochondrial fission was mediated via elevated ROS production and subsequent activation of AKT, which facilitated MDM2-mediated TP53 degradation, and NFKBIA- and IKK-mediated transcriptional activity of NFKB in HCC cells. Also, a crosstalk between TP53 and NFKB pathways was involved in the regulation of mitochondrial fission-mediated cell survival. Moreover, treatment with mitochondrial division inhibitor-1 significantly suppressed tumor growth in an in vivo xenograft nude mice model. Our findings demonstrate that increased mitochondrial fission plays a critical role in regulation of HCC cell survival, which provides a strong evidence for this process as drug target in HCC treatment.read more
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Glibenclamide, a diabetic drug, prevents acute radiation-induced liver injury of mice via up-regulating intracellular ROS and subsequently activating Akt–NF-κB pathway
Hu Liu,Shichao Wang,Zhao Wu,Ziyun Huang,Wei You Chen,Yanyong Yang,Jianguo Cui,Cong Liu,Hainan Zhao,Guo Jiaming,Pei Zhang,Fu Gao,Bailong Li,Jianming Cai +13 more
TL;DR: Glibenclamide prevents acute radiation-induced liver injury of mice via up-regulating intracellular reactive oxygen species and subsequently activating Akt–NF-κB pathway.
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Cross-Talk between Oxidative Stress and m6A RNA Methylation in Cancer.
Baishuang Yang,Qiong Chen +1 more
TL;DR: In this paper, the effects of m6A modification and oxidative stress on tumor biological functions were discussed, and the interplay between oxidative stress and m6As modifications was discussed.
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Mitochondrial dynamics regulators: implications for therapeutic intervention in cancer.
TL;DR: In this paper, the role of imbalanced mitochondrial dynamics in mitochondrial dysfunction during cancer progression is discussed, and the potential of targeting the mitochondrial dynamics regulator could be a potential therapeutic approach for cancer treatment.
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Mitochondrial Fission and Fusion in Tumor Progression to Metastasis
D. Boulton,M. Cecilia Caino +1 more
TL;DR: This review focuses on the molecular mechanisms involved in fission and fusion, discussing how altered mitochondrial fissions change tumor cell growth, metabolism, motility, and invasion and, finally how changes to these tumor-cell intrinsic phenotypes directly and indirectly impact tumor progression to metastasis.
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Reactive Oxygen Species Bridge the Gap between Chronic Inflammation and Tumor Development
Weihua Yu,Yongmei Tu,Zi Long,Jiangzheng Liu,Deqin Kong,J. Peng,Hao Wu,Gang Zheng,Jiuzhou Zhao,Yuhao Chen,Ruiqiang Li,Wenli Li,Chunxu Hai +12 more
TL;DR: Generally, cancer cells require an appropriate inflammatory microenvironment to support their growth, spread, and metastasis, and ROS may provide the necessary catalyst for inflammation-driven cancer.
References
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