Aging is a multifaceted biological process marked by a gradual decline in physiological functions, driven by cellular senescence, oxidative stress, chronic inflammation, and stem cell exhaustion. Extracellular vesicles (EVs), naturally occurring nanoscale vesicles secreted by various cell types, have gained attention as potential therapeutic agents due to their ability to mediate intercellular communication by delivering bioactive molecules, including proteins, lipids, and RNAs. This review provides a comprehensive overview of EV biogenesis, cargo composition, and their mechanistic roles in counteracting aging processes. EVs from diverse sources-such as mesenchymal stem cells, embryonic stem cells, dermal fibroblasts, and colostrum-exhibit regenerative properties by modulating immune responses, enhancing tissue repair, and promoting extracellular matrix homeostasis. Recent preclinical and clinical studies further highlight their potential in addressing age-related diseases and skin rejuvenation. However, significant challenges remain, including standardization of EV production, large-scale manufacturing, safety profiling, and regulatory approval. By leveraging advancements in EV engineering, targeted delivery systems, and combination strategies with existing anti-aging interventions, EV-based therapies hold promise as next-generation approaches in regenerative medicine and longevity enhancement.
Keywords: Anti-aging therapy; Anti-inflammation; Cellular senescence; Regenerative medicine; Stem cell-derived EV.
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