MESENCHYMAL STEM CELLS: EXOSOMES AND CONDITIONED MEDIA AS INNOVATIVE STRATEGIES IN THE TREATMENT OF PATIENTS WITH AUTOIMMUNE DISEASES

Abstract

Introduction. Autoimmune diseases are a class of immunopathological conditions heterogeneous in clinical manifestations, characterized by immune disorders that cause the loss of the body's autoimmune tolerance and, as a result, abnormal reactivity of B-cells and T-cells, which leads to damage to own tissues. Today, about 10% of the population suffers from diseases of this class, which are clinically manifested in the form of more than 80 forms of autoimmune diseases. The aim of the study. Summarize current ideas about the therapeutic potential of conditioned media and exosomes of MSCs in the treatment of patients with autoimmune diseases based on data from open sources of information. Materials and methods. Publications were selected based on PubMed, Clinical Key Elsevier, Cochrane Library, eBook Business Collection and Google Scholar databases, which covered information on the use of conditioned media and MSC exosomes in the treatment of diseases of premature newborns using the Keywords: mesenchymal stem cells, conditioned media, secretion, autoimmune diseases. Results. The technical complexity and high costs associated with the production and regulatory approval procedures of MSC therapy create barriers to their clinical use. Studies have shown that the cell-free secretome of MSCs, which consists of a wide range of growth factors, cytokines, chemokines and extracellular vesicles, exhibits a pluripotent effect. Today, extracellular vesicles are classified according to their diameter into apoptotic bodies (>1000 nm), microvesicles (100–1000 nm) and exosomes (30–150 nm). Exosome activity can be easily manipulated by preconditioning MSCs, by simply adding cytokines or chemicals to the culture medium, by introducing gene modifications, or by using hypoxic culture conditions. A number of studies have demonstrated the comparable effectiveness of conditioned media and MSC exosomes in the treatment of patients with autoimmune diseases. Conclusions. Exosomes and conditioned media with MSCs have the potential to replace cell therapy or serve as a comparable clinical strategy to biological therapy in neonatology. MSC preconditioning will allow modulating the therapeutic effects of exosomes and will become the basis for establishing recommendations and standards for effective and safe cell-free therapy.