Mitochondrial quality in aging and neurodegeneration: The emerging role of mitochondria-derived vesicles

Mitochondria are central to cellular energy metabolism, redox balance, and signaling, and their integrity is maintained by a multilayered mitochondrial quality control (MQC) system. This system includes proteostasis, dynamics, biogenesis, and mitophagy, which together repair or remove damaged organelles. Mitochondria-derived vesicles (MDVs) have emerged as an additional MQC component. MDVs are small vesicles that bud from mitochondria and selectively transport damaged mitochondrial proteins, lipids, and nucleic acids to endolysosomal compartments or other intracellular destinations, enabling rapid and localized responses to mitochondrial stress. Acting upstream of or in parallel with mitophagy, MDVs can delay irreversible mitochondrial damage and help preserve cellular homeostasis. Aging and age-associated disorders are characterized by progressive mitochondrial dysfunction and chronic inflammation. Age-related changes in intracellular trafficking, lysosomal function, and vesicle dynamics may impair MDV formation, cargo selection, and targeting. Under conditions of defective degradation, mitochondrial components may also appear in extracellular vesicles, potentially contributing to altered intercellular signaling and inflammation. In the nervous system, where energetic demands are high and mitochondrial turnover requires tight regulation, such alterations may be especially harmful. This review summarizes MQC mechanisms in neurons, with a focus on MDVs, their dysregulation during aging and neurodegeneration, and implications for biomarkers and therapeutic strategies.