Mitochondrial DNA deletions are abundant and cause functional impairment in aged human substantia nigra neurons.

Kraytsberg Y; Kudryavtseva E; McKee AC; Geula C; Kowall NW; Khrapko K

doi:10.1038/ng1778

Mitochondrial DNA deletions are abundant and cause functional impairment in aged human substantia nigra neurons.

Affiliations

1. Beth Israel Deaconess Medical Center and Harvard Medical School, Boston, Massachusetts 02215, USA.
Authors
Kraytsberg Y¹
(1 author)

ORCIDs linked to this article

Khrapko K | 0000-0002-9250-8033

Nature Genetics, 09 Apr 2006, 38(5):518-520
https://doi.org/10.1038/ng1778 PMID: 16604072

A comment on this article appears in "mtDNA clock runs out for dopaminergic neurons." Nat Genet. 2006 May;38(5):507-8.

Abstract

Using a novel single-molecule PCR approach to quantify the total burden of mitochondrial DNA (mtDNA) molecules with deletions, we show that a high proportion of individual pigmented neurons in the aged human substantia nigra contain very high levels of mtDNA deletions. Molecules with deletions are largely clonal within each neuron; that is, they originate from a single deleted mtDNA molecule that has expanded clonally. The fraction of mtDNA deletions is significantly higher in cytochrome c oxidase (COX)-deficient neurons than in COX-positive neurons, suggesting that mtDNA deletions may be directly responsible for impaired cellular respiration.

Full text links

Read article at publisher's site: https://doi.org/10.1038/ng1778

References

Articles referenced by this article (15)

The biologic clock: the mitochondria?
Harman D
J Am Geriatr Soc, (4):145-147 1972
MED: 5016631
Mitochondrial DNA mutations as an important contributor to ageing and degenerative diseases.
Linnane AW, Marzuki S, Ozawa T, Tanaka M
Lancet, (8639):642-645 1989
MED: 2564461
Khrapko, K., Kraytsberg, Y., de Grey, A., Vijg, J. & Schon, E.A. Aging Cell (in the press).
The mitochondrial theory of aging: dead or alive?
Jacobs HT
Aging Cell, (1):11-17 2003
MED: 12882330
Mitochondrial DNA deletions in human brain: regional variability and increase with advanced age.
Corral-Debrinski M, Horton T, Lott MT, Shoffner JM, Beal MF, Wallace DC
Nat Genet, (4):324-329 1992
MED: 1303288
Mosaicism for a specific somatic mitochondrial DNA mutation in adult human brain.
Soong NW, Hinton DR, Cortopassi G, Arnheim N
Nat Genet, (4):318-323 1992
MED: 1303287
Cytochrome c oxidase defects of the human substantia nigra in normal aging.
Itoh K, Weis S, Mehraein P, Muller-Hocker J
Neurobiol Aging, (6):843-848 1996
MED: 9363794
mtLOH (mitochondrial loss of heteroplasmy), aging, and 'surrogate self'.
Nekhaeva E, Kraytsberg Y, Khrapko K
Mech Ageing Dev, (8):891-898 2002
MED: 12044937
Single-molecule PCR: an artifact-free PCR approach for the analysis of somatic mutations.
Kraytsberg Y, Khrapko K
Expert Rev Mol Diagn, (5):809-815 2005
MED: 16149882
Mitochondrial threshold effects.
Rossignol R, Faustin B, Rocher C, Malgat M, Mazat JP, Letellier T
Biochem J, (Pt 3):751-762 2003
MED: 12467494

Show 5 more references (10 of 15)

Citations & impact

Impact metrics

550

Citations

Jump to Citations

Citations of article over time

Alternative metrics

Altmetric item for https://www.altmetric.com/details/102676616

Altmetric
Discover the attention surrounding your research
https://www.altmetric.com/details/102676616

Article citations

Signaling Pathways Concerning Mitochondrial Dysfunction: Implications in Neurodegeneration and Possible Molecular Targets.
Sharma Y, Gupta JK, Babu MA, Singh S, Sindhu RK
J Mol Neurosci, 74(4):101, 28 Oct 2024
Cited by: 0 articles | PMID: 39466510
Review
Can salivary and skin microbiome become a biodetector for aging-associated diseases? Current insights and future perspectives.
Nurkolis F, Utami TW, Alatas AI, Wicaksono D, Kurniawan R, Ratmandhika SR, Sukarno KT, Pahu YGP, Kim B, Tallei TE, Tjandrawinata RR, Alhasyimi AA, Surya R, Helen H, Halim P, Muhar AM, Syahputra RA
Front Aging, 5:1462569, 17 Oct 2024
Cited by: 0 articles | PMID: 39484071 | PMCID: PMC11524912
Review
This article is in the Europe PMC Open access subset. Refer to the copyright information in the article for licensing details.
Free full text in Europe PMC
Dopaminergic neuron metabolism: relevance for understanding Parkinson's disease.
Flores-Ponce X, Velasco I
Metabolomics, 20(6):116, 13 Oct 2024
Cited by: 0 articles | PMID: 39397188 | PMCID: PMC11471710
Review
This article is in the Europe PMC Open access subset. Refer to the copyright information in the article for licensing details.
Free full text in Europe PMC
Neurodegenerative disorders, metabolic icebergs, and mitohormesis.
Phillips MCL, Picard M
Transl Neurodegener, 13(1):46, 06 Sep 2024
Cited by: 0 articles | PMID: 39242576 | PMCID: PMC11378521
Review
This article is in the Europe PMC Open access subset. Refer to the copyright information in the article for licensing details.
Free full text in Europe PMC
Selective dopaminergic neurotoxicity modulated by inherent cell-type specific neurobiology.
Currim F, Tanwar R, Brown-Leung JM, Paranjape N, Liu J, Sanders LH, Doorn JA, Cannon JR
Neurotoxicology, 103:266-287, 02 Jul 2024
Cited by: 0 articles | PMID: 38964509
Review

Go to all (550) article citations

Funding

Funders who supported this work.

NIA NIH HHS (2)

Grant ID: AG19787
12 publications
Grant ID: AG13846
60 publications

NIEHS NIH HHS (1)

Grant ID: ES11343
7 publications

Search life-sciences literature (45,103,589 articles, preprints and more)

Mitochondrial DNA deletions are abundant and cause functional impairment in aged human substantia nigra neurons.

Affiliations

Authors

ORCIDs linked to this article

Abstract

Full text links

References

The biologic clock: the mitochondria?

Mitochondrial DNA mutations as an important contributor to ageing and degenerative diseases.

Khrapko, K., Kraytsberg, Y., de Grey, A., Vijg, J. & Schon, E.A. Aging Cell (in the press).

The mitochondrial theory of aging: dead or alive?

Mitochondrial DNA deletions in human brain: regional variability and increase with advanced age.

Mosaicism for a specific somatic mitochondrial DNA mutation in adult human brain.

Cytochrome c oxidase defects of the human substantia nigra in normal aging.

mtLOH (mitochondrial loss of heteroplasmy), aging, and 'surrogate self'.

Single-molecule PCR: an artifact-free PCR approach for the analysis of somatic mutations.

Mitochondrial threshold effects.

Citations & impact

Impact metrics

Citations of article over time

Alternative metrics

Article citations

Signaling Pathways Concerning Mitochondrial Dysfunction: Implications in Neurodegeneration and Possible Molecular Targets.

Can salivary and skin microbiome become a biodetector for aging-associated diseases? Current insights and future perspectives.

Dopaminergic neuron metabolism: relevance for understanding Parkinson's disease.

Neurodegenerative disorders, metabolic icebergs, and mitohormesis.

Selective dopaminergic neurotoxicity modulated by inherent cell-type specific neurobiology.

Similar Articles

Accumulation of mitochondrial DNA deletions within dopaminergic neurons triggers neuroprotective mechanisms.

Contribution of common deletion to total deletion burden in mitochondrial DNA from inner ear of d-galactose-induced aging rats.

The low abundance of clonally expanded mitochondrial DNA point mutations in aged substantia nigra neurons.

Mitochondrial abnormalities in inclusion-body myositis.

Funding

NIA NIH HHS (2)

NIEHS NIH HHS (1)

Partnerships & funding

Search life-sciences literature (45,103,589 articles, preprints and more)

Mitochondrial DNA deletions are abundant and cause functional impairment in aged human substantia nigra neurons.

Author information

Affiliations

Authors

ORCIDs linked to this article

Abstract

Full text links

References

Khrapko, K., Kraytsberg, Y., de Grey, A., Vijg, J. & Schon, E.A. Aging Cell (in the press).

Citations & impact

Impact metrics

Citations of article over time

Alternative metrics

Article citations

Similar Articles

Funding

NIA NIH HHS (2)﻿

NIEHS NIH HHS (1)﻿

Partnerships & funding

NIA NIH HHS (2)

NIEHS NIH HHS (1)