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Literature DB >> 34157430

Blood mitochondrial DNA copy number: What are we counting?

Abstract

There is growing scientific interest to develop scalable biological measures that capture mitochondrial (dys)function. Mitochondria have their own genome, the mitochondrial DNA (mtDNA). It has been proposed that the number of mtDNA copies per cell (mtDNA copy number; mtDNAcn) reflects mitochondrial health. The common availability of stored DNA material or existing DNA sequencing data, especially from blood and other easy-to-collect samples, has made its quantification a popular approach in clinical and epidemiological studies. However, the interpretation of mtDNAcn is not univocal, and either a reduction or elevation in mtDNAcn can indicate dysfunction. The major determinants of blood-derived mtDNAcn are the heterogeneous cell type composition of leukocytes and platelet abundance, which can change with time of day, aging, and with disease. Hematopoiesis is a likely driver of blood mtDNAcn. Here we discuss the rationale and available methods to quantify mtDNAcn, the influence of blood cell type variations, and consider important gaps in knowledge that need to be resolved to maximize the scientific value around the investigation of blood mtDNAcn.

Entities: Chemical

Keywords: Biomarker; Count; Leukocytes; Mitochondrial function; Mitochondrial genome; Mitochondrion; White blood cells

Mesh：

Substances：
DNA, Mitochondrial

Year: 2021 PMID： 34157430 PMCID： PMC8464495 DOI： 10.1016/j.mito.2021.06.010

Source DB: PubMed Journal: Mitochondrion ISSN： 1567-7249 Impact factor: 4.534

104 in total

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Journal: Mitochondrion Date: 2019-02-14 Impact factor: 4.160

2. Cytochrome c Oxidase Activity Is a Metabolic Checkpoint that Regulates Cell Fate Decisions During T Cell Activation and Differentiation.

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Journal: Cell Metab Date: 2017-06-06 Impact factor: 27.287

3. Mitochondrial DNA copy number in peripheral blood cells declines with age and is associated with general health among elderly.

Authors: Jonas Mengel-From; Mikael Thinggaard; Christine Dalgård; Kirsten Ohm Kyvik; Kaare Christensen; Lene Christiansen
Journal: Hum Genet Date: 2014-06-06 Impact factor: 4.132

4. Mitochondrial DNA copy number and chronic lymphocytic leukemia/small lymphocytic lymphoma risk in two prospective studies.

Authors: Christopher Kim; Bryan A Bassig; Wei Jie Seow; Wei Hu; Mark P Purdue; Wen-Yi Huang; Chin-San Liu; Wen-Ling Cheng; Satu Männistö; Roel Vermeulen; Stephanie J Weinstein; Unhee Lim; H Dean Hosgood; Matthew R Bonner; Neil E Caporaso; Demetrius Albanes; Qing Lan; Nathaniel Rothman
Journal: Cancer Epidemiol Biomarkers Prev Date: 2014-10-07 Impact factor: 4.254

5. Childhood maltreatment is associated with changes in mitochondrial bioenergetics in maternal, but not in neonatal immune cells.

Authors: Anja M Gumpp; Christina Boeck; Alexander Behnke; Alexandra M Bach; Laura Ramo-Fernández; Thilo Welz; Harald Gündel; Iris-Tatjana Kolassa; Alexander Karabatsiakis
Journal: Proc Natl Acad Sci U S A Date: 2020-10-01 Impact factor: 11.205

6. Biomarkers of mitochondrial content in skeletal muscle of healthy young human subjects.

Authors: Steen Larsen; Joachim Nielsen; Christina Neigaard Hansen; Lars Bo Nielsen; Flemming Wibrand; Nis Stride; Henrik Daa Schroder; Robert Boushel; Jørn Wulff Helge; Flemming Dela; Martin Hey-Mogensen
Journal: J Physiol Date: 2012-05-14 Impact factor: 5.182

7. Circulating mitochondrial DNA in patients in the ICU as a marker of mortality: derivation and validation.

Authors: Kiichi Nakahira; Sun-Young Kyung; Angela J Rogers; Lee Gazourian; Sojung Youn; Anthony F Massaro; Carolina Quintana; Juan C Osorio; Zhaoxi Wang; Yang Zhao; Laurie A Lawler; Jason D Christie; Nuala J Meyer; Finnian R Mc Causland; Sushrut S Waikar; Aaron B Waxman; Raymond T Chung; Raphael Bueno; Ivan O Rosas; Laura E Fredenburgh; Rebecca M Baron; David C Christiani; Gary M Hunninghake; Augustine M K Choi
Journal: PLoS Med Date: 2013-12-31 Impact factor: 11.069

8. Novel approach to quantify mitochondrial content and intrinsic bioenergetic efficiency across organs.

Authors: Kelsey L McLaughlin; James T Hagen; Hannah S Coalson; Margaret A M Nelson; Kimberly A Kew; Ashley R Wooten; Kelsey H Fisher-Wellman
Journal: Sci Rep Date: 2020-10-19 Impact factor: 4.379

9. Mitochondrial DNA copy number is associated with psychosis severity and anti-psychotic treatment.

Authors: Parvin Kumar; Paschalis Efstathopoulos; Vincent Millischer; Eric Olsson; Ya Bin Wei; Oliver Brüstle; Martin Schalling; J Carlos Villaescusa; Urban Ösby; Catharina Lavebratt
Journal: Sci Rep Date: 2018-08-24 Impact factor: 4.379

Review 10. Mitochondrial DNA in inflammation and immunity.

Authors: Joel S Riley; Stephen Wg Tait
Journal: EMBO Rep Date: 2020-03-23 Impact factor: 8.807

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Journal: Biol Trace Elem Res Date: 2022-06-17 Impact factor: 3.738

2. GWAS and ExWAS of blood mitochondrial DNA copy number identifies 71 loci and highlights a potential causal role in dementia.

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Journal: Elife Date: 2022-01-13 Impact factor: 8.140

Review 3. Environmental Chemical Exposures and Mitochondrial Dysfunction: a Review of Recent Literature.

Authors: Aalekhya Reddam; Sarah McLarnan; Allison Kupsco
Journal: Curr Environ Health Rep Date: 2022-07-28

4. Mitochondrial respiratory chain protein co-regulation in the human brain.

Authors: Caroline Trumpff; Edward Owusu-Ansah; Hans-Ulrich Klein; Annie J Lee; Vladislav Petyuk; Thomas S Wingo; Aliza P Wingo; Madhav Thambisetty; Luigi Ferrucci; Nicholas T Seyfried; David A Bennett; Philip L De Jager; Martin Picard
Journal: Heliyon Date: 2022-04-30

Review 9. Unlocking the Complexity of Mitochondrial DNA: A Key to Understanding Neurodegenerative Disease Caused by Injury.

Authors: Larry N Singh; Shih-Han Kao; Douglas C Wallace
Journal: Cells Date: 2021-12-08 Impact factor: 6.600