Research Infinity - MtDNA deletions and aging

Abstract

Aging is the major risk factor in most of the leading causes of mortality worldwide, yet its fundamental causes mostly remain unclear. One of the clear hallmarks of aging is mitochondrial dysfunction. Mitochondria are best known for their roles in cellular energy generation, but they are also critical biosynthetic and signaling organelles. They also undergo multiple changes with organismal age, including increased genetic errors in their independent, circular genome. A key group of studies looking at mice with increased mtDNA mutations showed that premature aging phenotypes correlated with increased deletions but not point mutations. This generated an interest in mitochondrial deletions as a potential fundamental cause of aging. However, subsequent studies in different models have yielded diverse results. This review summarizes the research on mitochondrial deletions in various organisms to understand their possible roles in causing aging while identifying the key complications in quantifying deletions across all models.

Key Questions

What are mitochondrial DNA (mtDNA) deletions?

mtDNA deletions are mutations where segments of the mitochondrial genome are lost, leading to dysfunctional mitochondria. These deletions can accumulate over time, potentially impairing cellular energy production and contributing to aging. :contentReference[oaicite:1]{index=1}

How do mtDNA deletions relate to aging?

Accumulation of mtDNA deletions over time can lead to mitochondrial dysfunction, which is a hallmark of aging. This dysfunction may contribute to age-related diseases and the overall aging process by impairing cellular energy metabolism. :contentReference[oaicite:2]{index=2}

What challenges exist in studying mtDNA deletions and aging?

Quantifying mtDNA deletions is complex due to their heterogeneous nature and the difficulty in detecting low-abundance mutations. Additionally, the diverse results across different models highlight the need for standardized methodologies to assess the impact of mtDNA deletions on aging. :contentReference[oaicite:3]{index=3}

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ARTICLE USAGE

Article usage: Oct-2024 to Apr-2025

Show by month	Manuscript	Video Summary
2025 April	2	2
2025 March	59	59
2025 February	48	48
2025 January	47	47
2024 December	68	68
2024 November	47	47
2024 October	17	17
Total	288	288

Show by month	Manuscript	Video Summary
2025 April	2	2
2025 March	59	59
2025 February	48	48
2025 January	47	47
2024 December	68	68
2024 November	47	47
2024 October	17	17
Total	288	288

MtDNA deletions and aging

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Abstract

Key Questions

What are mitochondrial DNA (mtDNA) deletions?

How do mtDNA deletions relate to aging?

What challenges exist in studying mtDNA deletions and aging?

Summary Video Not Available

Review 0

ARTICLE USAGE

Article usage: Oct-2024 to Apr-2025

Related Subjects

Added on

Related Subjects