Mitochondrial DNA Copy Number Variations in Gastrointestinal Tract Cancers: Potential Players

被引:0
|
作者
Alikhani, Mehdi [1 ]
Touati, Eliette [2 ]
Karimipoor, Morteza [3 ]
Vosough, Massoud [4 ]
Mohammadi, Marjan [1 ]
机构
[1] Pasteur Inst Iran, Biotechnol Res Ctr, Med Biotechnol Dept, Tehran, Iran
[2] CNRS, UMR 2001, Inst Pasteur, Dept Microbiol,Unit Helicobacter Pathogenesis, 25-28 Rue Dr Roux, F-75724 Paris 15, France
[3] Pasteur Inst Iran, Biotechnol Res Ctr, Mol Med Dept, Tehran, Iran
[4] ACECR, Royan Inst Stem Cell Biol & Technol, Cell Sci Res Ctr, Dept Regenerat Med, Tehran, Iran
来源
JOURNAL OF GASTROINTESTINAL CANCER | 2022年 / 53卷 / 03期
关键词
mtDNA copy number; Biomarker; Cancer; Gastrointestinal tract cancers; Causes; OXIDATIVE STRESS; TRANSCRIPTION FACTOR; PERIPHERAL-BLOOD; TELOMERE LENGTH; D-LOOP; TARGETING MITOCHONDRIA; MOLECULAR-MECHANISMS; HELICOBACTER-PYLORI; POLYMERASE-GAMMA; AIR-POLLUTION;
D O I
10.1007/s12029-021-00707-w
中图分类号
R73 [肿瘤学];
学科分类号
100214 ;
摘要
Alterations of mitochondria have been linked to several cancers. Also, the mitochondrial DNA copy number (mtDNA-CN) is altered in various cancers, including gastrointestinal tract (GIT) cancers, and several research groups have investigated its potential as a cancer biomarker. However, the exact causes of mtDNA-CN variations are not yet revealed. This review discussed the conceivable players in this scheme, including reactive oxygen species (ROS), mtDNA genetic variations, DNA methylation, telomere length, autophagy, immune system activation, aging, and infections, and discussed their possible impact in the initiation and progression of cancer. By further exploring such mechanisms, mtDNA-CN variations may be effectively utilized as cancer biomarkers and provide grounds for developing novel cancer therapeutic agents.
引用
收藏
页码:770 / 781
页数:12
相关论文
共 50 条
  • [41] Mitochondrial DNA copy number in patients with systemic sclerosis
    Bogatyreva, Anastasia I.
    Gerasimova, Elena V.
    Kirichenko, Tatiana V.
    Markina, Yuliya V.
    Tolstik, Taisiya V.
    Kiseleva, Diana G.
    Popkova, Tatiana V.
    Markin, Alexander M.
    FRONTIERS IN MOLECULAR BIOSCIENCES, 2023, 10
  • [42] Leukocyte mitochondrial DNA copy number in bipolar disorder
    de Sousa, Rafael T.
    Uno, Miyuki
    Zanetti, Marcus V.
    Shinjo, Sueli M. O.
    Busatto, Geraldo F.
    Gattaz, Wagner F.
    Marie, Sueli K. N.
    Machado-Vieira, Rodrigo
    PROGRESS IN NEURO-PSYCHOPHARMACOLOGY & BIOLOGICAL PSYCHIATRY, 2014, 48 : 32 - 35
  • [43] Association of Mitochondrial DNA Copy Number With Cardiovascular Disease
    Ashar, Foram N.
    Zhang, Yiyi
    Longchamps, Ryan J.
    Lane, John
    Moes, Anna
    Grove, Megan L.
    Mychaleckyj, Josyf C.
    Taylor, Kent D.
    Coresh, Josef
    Rotter, Jerome I.
    Boerwinkle, Eric
    Pankratz, Nathan
    Guallar, Eliseo
    Arking, Dan E.
    JAMA CARDIOLOGY, 2017, 2 (11) : 1247 - 1255
  • [44] Mitochondrial DNA Copy Number and Diabetes in the ARIC Study
    DeBarmore, Bailey
    Ashar, Foram
    Arking, Dan
    Kalyani, Rita
    Guallar, Eliseo
    Zhang, Yiyi
    Selvin, Elizabeth
    Young, J. Hunter
    CIRCULATION, 2017, 135
  • [45] Mitochondrial DNA copy number changes in human gliomas
    Liang, BC
    Hays, L
    CANCER LETTERS, 1996, 105 (02) : 167 - 173
  • [46] Mitochondrial DNA copy number and incident atrial fibrillation
    Zhao, Di
    Bartz, Traci M.
    Sotoodehnia, Nona
    Post, Wendy S.
    Heckbert, Susan R.
    Alonso, Alvaro
    Longchamps, Ryan J.
    Castellani, Christina A.
    Hong, Yun Soo
    Rotter, Jerome I.
    Lin, Henry J.
    O'Rourke, Brian
    Pankratz, Nathan
    Lane, John A.
    Yang, Stephanie Y.
    Guallar, Eliseo
    Arking, Dan E.
    BMC MEDICINE, 2020, 18 (01)
  • [47] The regulation of mitochondrial DNA copy number in glioblastoma cells
    Dickinson, A.
    Yeung, K. Y.
    Donoghue, J.
    Baker, M. J.
    Kelly, R. D. W.
    McKenzie, M.
    Johns, T. G.
    St John, J. C.
    CELL DEATH AND DIFFERENTIATION, 2013, 20 (12): : 1644 - 1653
  • [48] Association of mitochondrial DNA copy number with cardiometabolic diseases
    Liu, Xue
    Longchamps, Ryan J.
    Wiggins, Kerri L.
    Raffield, Laura M.
    Bielak, Lawrence F.
    Zhao, Wei
    Pitsillides, Achilleas
    Blackwell, Thomas W.
    Yao, Jie
    Guo, Xiuqing
    Kurniansyah, Nuzulul
    Thyagarajan, Bharat
    Pankratz, Nathan
    Rich, Stephen S.
    Taylor, Kent D.
    Peyser, Patricia A.
    Heckbert, Susan R.
    Seshadri, Sudha
    Cupples, L. Adrienne
    Boerwinkle, Eric
    Grove, Megan L.
    Larson, Nicholas
    Smith, Jennifer A.
    Vasan, Ramachandran S.
    Sofer, Tamar
    Fitzpatrick, Annette L.
    Fornage, Myriam
    Ding, Jun
    Correa, Adolfo
    Abecasis, Goncalo
    Psaty, Bruce M.
    Wilson, James G.
    Levy, Daniel
    Rotter, Jerome I.
    Bis, Joshua C.
    Satizabal, Claudia L.
    Arking, Dan E.
    Liu, Chunyu
    CELL GENOMICS, 2021, 1 (01):
  • [49] Mitochondrial DNA Copy Number in Spermatozoa of Fertile Stallions
    Orsztynowicz, M.
    Pawlak, P.
    Podstawski, Z.
    Nizanski, W.
    Partyka, A.
    Gotowiecka, M.
    Kosiniak-Kamysz, K.
    Lechniak, D.
    REPRODUCTION IN DOMESTIC ANIMALS, 2016, 51 (03) : 378 - 385
  • [50] Global Genetic Determinants of Mitochondrial DNA Copy Number
    Zhang, Hengshan
    Singh, Keshav K.
    PLOS ONE, 2014, 9 (08):
12345