Potential Therapies for Mitochondrial Diseases Caused by mtDNA Mutations

Anastasia V. Poznyak; Nikolay A. Orekhov; Dmitry Felixovich Beloyartsev; Alexey V. Churov; Tatiana Ivanovna Kovyanova; Irina Alexandrovna Starodubtsev; Vasily N. Sukhorukov; Alexander N. Orekhov

doi:10.3844/ajbbsp.2025.512.525

Literature Review Open Access

Potential Therapies for Mitochondrial Diseases Caused by mtDNA Mutations

Anastasia V. Poznyak¹, Nikolay A. Orekhov², Dmitry Felixovich Beloyartsev³, Alexey V. Churov⁴, Tatiana Ivanovna Kovyanova², Irina Alexandrovna Starodubtsev⁵, Vasily N. Sukhorukov² and Alexander N. Orekhov²

¹ Institute for Atherosclerosis Research, Osennyaya 4-1-207, 121609 Moscow, Russia
² Laboratory of Angiopathology, Institute of General Pathology and Pathophysiology, 8 Baltiiskaya Street, Moscow 125315, Russia
³ Vascular Surgery Department, A. V. Vishnevsky National Medical Research Center of Surgery, 27 Bolshaya Serpukhovskaya Street, 117997 Moscow, Russia
⁴ Pirogov Russian National Research Medical University, Russian Gerontology Clinical Research Centre, Institute on Aging Research, Russian Federation, 16 1st Leonova Street, 129226 Moscow, Russia
⁵ Department of Polyclinic Therapy, NN Burdenko Voronezh State Medical University, 10 Studencheskaya Street, 394036 Voronezh, Russia

Abstract

Mitochondrial diseases, caused by mutations in mitochondrial DNA (mtDNA), present significant genetic and clinical complexities that challenge accurate diagnosis and treatment. This review examines the critical molecular mechanisms underlying these disorders, particularly the role of heteroplasmy, where mixtures of mutated and normal mtDNA influence disease severity, and the nuclear-mitochondrial DNA interactions that compound diagnostic and therapeutic challenges. The threshold effect, wherein clinical symptoms manifest only when mutant mtDNA exceeds a critical proportion, exemplifies the complexity of genotype-phenotype correlations in these conditions. We analyze recent advancements in therapeutic strategies, including targeted small molecule treatments designed to enhance mitochondrial function and restore Nicotinamide Adenine Dinucleotide (NAD+) levels, which have demonstrated efficacy in preclinical models. Additionally, we explore emerging gene therapy approaches that aim to directly correct mtDNA mutations, representing innovative strategies with potential for definitive treatment. This review provides comprehensive insights into the interplay between genetic mechanisms and therapeutic innovations, emphasizing the critical need for translational research. By elucidating the molecular mechanisms driving mitochondrial diseases, we aim to inform development of targeted therapies and improve clinical outcomes for affected patients.

American Journal of Biochemistry and Biotechnology

Volume 21 No. 4, 2025, 512-525

DOI: https://doi.org/10.3844/ajbbsp.2025.512.525

Submitted On: 29 June 2024 Published On: 15 February 2026

How to Cite: Poznyak, A. V., Orekhov, N. A., Beloyartsev, D. F., Churov, A. V., Kovyanova, T. I., Starodubtsev, I. A., Sukhorukov, V. N. & Orekhov, A. N. (2025). Potential Therapies for Mitochondrial Diseases Caused by mtDNA Mutations. American Journal of Biochemistry and Biotechnology, 21(4), 512-525. https://doi.org/10.3844/ajbbsp.2025.512.525

Copyright: © 2025 Anastasia V. Poznyak, Nikolay A. Orekhov, Dmitry Felixovich Beloyartsev, Alexey V. Churov, Tatiana Ivanovna Kovyanova, Irina Alexandrovna Starodubtsev, Vasily N. Sukhorukov and Alexander N. Orekhov. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

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Keywords

Mitochondrial Diseases
mtDNA Mutations
Heteroplasmy
Gene Therapy
NAD+ Metabolism
Mitochondrial Function
Therapeutic Strategies
Nuclear-Mitochondrial Interactions