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Cell Type-Specific Extracellular Vesicles and Their Impact on Health and Disease Publisher Pubmed



Amin S1 ; Massoumi H1, 2 ; Tewari D1 ; Roy A1 ; Chaudhuri M1 ; Jazayerli C1 ; Krishan A1 ; Singh M1 ; Soleimani M1 ; Karaca EE1, 3 ; Mirzaei A4 ; Guaiquil VH1 ; Rosenblatt MI1 ; Djalilian AR1 Show All Authors
Authors
  1. Amin S1
  2. Massoumi H1, 2
  3. Tewari D1
  4. Roy A1
  5. Chaudhuri M1
  6. Jazayerli C1
  7. Krishan A1
  8. Singh M1
  9. Soleimani M1
  10. Karaca EE1, 3
  11. Mirzaei A4
  12. Guaiquil VH1
  13. Rosenblatt MI1
  14. Djalilian AR1
  15. Jalilian E1, 2
Show Affiliations
Authors Affiliations
  1. 1. Department of Ophthalmology and Visual Sciences, Illinois Eye and Ear Infirmary, University of Illinois at Chicago, Chicago, 60612, IL, United States
  2. 2. Richard and Loan Hill Department of Bioengineering, University of Illinois at Chicago, Chicago, 60607, IL, United States
  3. 3. Department of Ophthalmology, University of Health Sciences, Ankara Bilkent City Hospital, Ankara, 06800, Turkey
  4. 4. Department of Ophthalmology, University of Medical Sciences, Farabi Eye Hospital, Tehran, 13366 16351, Iran

Source: International Journal of Molecular Sciences Published:2024


Abstract

Extracellular vesicles (EVs), a diverse group of cell-derived exocytosed particles, are pivotal in mediating intercellular communication due to their ability to selectively transfer biomolecules to specific cell types. EVs, composed of proteins, nucleic acids, and lipids, are taken up by cells to affect a variety of signaling cascades. Research in the field has primarily focused on stem cell-derived EVs, with a particular focus on mesenchymal stem cells, for their potential therapeutic benefits. Recently, tissue-specific EVs or cell type-specific extracellular vesicles (CTS-EVs), have garnered attention for their unique biogenesis and molecular composition because they enable highly targeted cell-specific communication. Various studies have outlined the roles that CTS-EVs play in the signaling for physiological function and the maintenance of homeostasis, including immune modulation, tissue regeneration, and organ development. These properties are also exploited for disease propagation, such as in cancer, neurological disorders, infectious diseases, autoimmune conditions, and more. The insights gained from analyzing CTS-EVs in different biological roles not only enhance our understanding of intercellular signaling and disease pathogenesis but also open new avenues for innovative diagnostic biomarkers and therapeutic targets for a wide spectrum of medical conditions. This review comprehensively outlines the current understanding of CTS-EV origins, function within normal physiology, and implications in diseased states. © 2024 by the authors.
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