Mitochondrial DNA plasticity is an essential inducer of tumorigenesis.

Lee, W T Y; Cain, J E; Cuddihy, A; Johnson, J; Dickinson, A; Yeung, K-Y; Kumar, B; Johns, T G; Watkins, D N; Spencer, A; St John, J C

Lee, W T Y; Cain, J E; Cuddihy, A; Johnson, J; Dickinson, A; Yeung, K-Y; Kumar, B; Johns, T G; Watkins, D N; Spencer, A; St John, J C.

Afiliação

Lee WT; Centre for Genetic Diseases, Hudson Institute of Medical Research, Clayton, Victoria, Australia; Department of Molecular and Translational Science, Monash University, Clayton, Victoria, Australia.
Cain JE; Department of Molecular and Translational Science, Monash University, Clayton, Victoria, Australia; Centre for Cancer Research, Hudson Institute of Medical Research, Clayton, Victoria, Australia.
Cuddihy A; Myeloma Research Group, Division of Blood Cancers, Australian Centre for Blood Diseases, Monash University , Victoria, Australia.
Johnson J; Centre for Genetic Diseases, Hudson Institute of Medical Research, Clayton, Victoria, Australia; Department of Molecular and Translational Science, Monash University, Clayton, Victoria, Australia.
Dickinson A; Centre for Genetic Diseases, Hudson Institute of Medical Research, Clayton, Victoria, Australia; Department of Molecular and Translational Science, Monash University, Clayton, Victoria, Australia.
Yeung KY; Centre for Genetic Diseases, Hudson Institute of Medical Research, Clayton, Victoria, Australia; Department of Molecular and Translational Science, Monash University, Clayton, Victoria, Australia.
Kumar B; Department of Pathology, Monash Health , Clayton, Victoria, Australia.
Johns TG; Department of Molecular and Translational Science, Monash University, Clayton, Victoria, Australia; Centre for Cancer Research, Hudson Institute of Medical Research, Clayton, Victoria, Australia.
Watkins DN; The Kinghorn Cancer Centre, Garvan Institute of Medical Research, Darlinghurst, New South Wales, Australia; Faculty of Medicine, University of New South Wales, Randwick, New South Wales, Australia; Department of Thoracic Medicine, St Vincent's Hospital, Darlinghurst, New South Wales, Australia.
Spencer A; Myeloma Research Group, Division of Blood Cancers, Australian Centre for Blood Diseases, Monash University, Victoria, Australia; Malignant Haematology & Stem Cell Transplantation, Alfred Health, 55 Commercial Road, Melbourne, Victoria, Australia.
St John JC; Centre for Genetic Diseases, Hudson Institute of Medical Research, Clayton, Victoria, Australia; Department of Molecular and Translational Science, Monash University, Clayton, Victoria, Australia.

Cell Death Discov ; 2: 16016, 2016.

Article em En | MEDLINE | ID: mdl-27551510

ABSTRACT

ABSTRACT

Although mitochondrial DNA has been implicated in diseases such as cancer, its role remains to be defined. Using three models of tumorigenesis, namely glioblastoma multiforme, multiple myeloma and osteosarcoma, we show that mitochondrial DNA plays defining roles at early and late tumour progression. Specifically, tumour cells partially or completely depleted of mitochondrial DNA either restored their mitochondrial DNA content or actively recruited mitochondrial DNA, which affected the rate of tumorigenesis. Nevertheless, non-depleted tumour cells modulated mitochondrial DNA copy number at early and late progression in a mitochondrial DNA genotype-specific manner. In glioblastoma multiforme and osteosarcoma, this was coupled with loss and gain of mitochondrial DNA variants. Changes in mitochondrial DNA genotype affected tumour morphology and gene expression patterns at early and late progression. Importantly, this identified a subset of genes that are essential to early progression. Consequently, mitochondrial DNA and commonly expressed early tumour-specific genes provide novel targets against tumorigenesis.

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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Idioma: En Revista: Cell Death Discov Ano de publicação: 2016 Tipo de documento: Article País de afiliação: Austrália

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