AI Article Synopsis

  • Conventional cell-based therapies face challenges such as batch inconsistency, immune reactions, cell integration issues, and high costs, which limit their effectiveness.
  • Recent advances have shown that small extracellular vesicles (EVs), specifically mesenchymal stem cell-derived EVs (MSC-EVs), can be a promising alternative due to their bioactive cargo and potential benefits like improved safety and reduced variability.
  • However, the lack of established methods for EV preparation and the absence of regulatory frameworks for their production and clinical use hinder the understanding of their efficacy and identity.

Article Abstract

Numerous challenges remain within conventional cell-based therapy despite the growing trend of stem cells used to treat various life-debilitating diseases. These limitations include batch-to-batch heterogeneity, induced alloreactivity, cell survival and integration, poor scalability, and high cost of treatment, thus hindering successful translation from lab to bedside. However, recent pioneering technology has enabled the isolation and enrichment of small extracellular vesicles (EVs), canonically known as exosomes. EVs are described as a membrane-enclosed cargo of functional biomolecules not limited to lipids, nucleic acid, and proteins. Interestingly, studies have correlated the biological role of MSC-EVs to the paracrine activity of MSCs. This key evidence has led to rigorous studies on MSC-EVs as an acellular alternative. Using EVs as a therapy was proposed as a model leading to improvements through increased safety; enhanced bioavailability due to size and permeability; reduced heterogeneity by selective and quantifiable properties; and prolonged shelf-life via long-term freezing or lyophilization. Yet, the identity and potency of EVs are still relatively unknown due to various methods of preparation and to qualify the final product. This is reflected by the absence of regulatory strategies overseeing manufacturing, quality control, clinical implementation, and product registration. In this review, the authors review the various production processes and the proteomic profile of MSC-EVs.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11121203PMC
http://dx.doi.org/10.3390/ijms25105340DOI Listing

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