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Review

Mitochondrial Dysfunction in Circulating Blood Cells and Biological Aging: A Review of Mechanisms and Evidence

by
Abdullah M. AlShahrani
1,* and
S Rehan Ahmad
2,3,*
1
Department of Basic Medical Science, College of Applied Medical Sciences, , King Khalid University (KKU), Abha 62561, Saudi Arabia
2
Hiralal Mazumdar Memorial College for Women, West Bengal State University, Kolkata, West Bengal 700035, India
3
Department of Biotechnology, UCSI University, Cheras, Kuala Lumpur 56000, Malaysia
*
Authors to whom correspondence should be addressed.
Biomolecules 2026, 16(7), 972; https://doi.org/10.3390/biom16070972
Submission received: 24 April 2026 / Revised: 26 June 2026 / Accepted: 29 June 2026 / Published: 1 July 2026
(This article belongs to the Section Cellular Biochemistry)

Abstract

Chronological age tells us how long a person has lived—but not how well. Two individuals of the same age can differ dramatically in their cellular health, disease risk, and functional capacity. This gap between calendar age and biological age has driven growing interest in biomarkers that reflect true cellular aging rather than years lived. Mitochondria sit at the heart of this problem. Far more than cellular power plants, these organelles govern energy production, oxidative stress, immune signaling, and programmed cell death. As the body ages, mitochondria deteriorate in consistent and measurable ways—and crucially, these changes can be detected in circulating blood cells, offering a minimally invasive window into the body’s biological age. This narrative review synthesizes two decades of research (2005–2025) on three blood-based mitochondrial markers: mitochondrial DNA copy number (mtDNA-CN) in peripheral blood mononuclear cells, mitochondrial membrane potential (MMP), and cell-free mitochondrial DNA (cf-mtDNA) in plasma. Across 68 carefully selected studies, we evaluate the strength, consistency, and clinical relevance of each marker, alongside their associations with cardiovascular disease, metabolic dysfunction, cognitive decline, and mortality. The evidence is promising but still maturing. Significant methodological variation across studies limits direct comparisons, and robust prospective outcome data remain limited. We propose a four-phase framework for responsible clinical translation and identify specific research investments needed—from measurement standardization to large cohort studies and intervention trials—before these markers can responsibly inform patient care.
Keywords: mitochondrial dysfunction; biological aging; mtDNA copy number; mitochondrial membrane potential; cell-free mitochondrial DNA; peripheral blood mononuclear cells; aging biomarkers; oxidative stress; inflammaging; clinical translation mitochondrial dysfunction; biological aging; mtDNA copy number; mitochondrial membrane potential; cell-free mitochondrial DNA; peripheral blood mononuclear cells; aging biomarkers; oxidative stress; inflammaging; clinical translation

Share and Cite

MDPI and ACS Style

AlShahrani, A.M.; Ahmad, S.R. Mitochondrial Dysfunction in Circulating Blood Cells and Biological Aging: A Review of Mechanisms and Evidence. Biomolecules 2026, 16, 972. https://doi.org/10.3390/biom16070972

AMA Style

AlShahrani AM, Ahmad SR. Mitochondrial Dysfunction in Circulating Blood Cells and Biological Aging: A Review of Mechanisms and Evidence. Biomolecules. 2026; 16(7):972. https://doi.org/10.3390/biom16070972

Chicago/Turabian Style

AlShahrani, Abdullah M., and S Rehan Ahmad. 2026. "Mitochondrial Dysfunction in Circulating Blood Cells and Biological Aging: A Review of Mechanisms and Evidence" Biomolecules 16, no. 7: 972. https://doi.org/10.3390/biom16070972

APA Style

AlShahrani, A. M., & Ahmad, S. R. (2026). Mitochondrial Dysfunction in Circulating Blood Cells and Biological Aging: A Review of Mechanisms and Evidence. Biomolecules, 16(7), 972. https://doi.org/10.3390/biom16070972

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