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Extracellular vesicles in dry eye disease and Sjogren syndrome: A systematic review on their diagnostic and therapeutic role

Extracellular vesicles (EVs), defined as membrane-bound vesicles released from all cells, are being explored for their diagnostic and therapeutic role in dry eye disease (DED). We systematically shortlisted 32 articles on the role of EVs in diagnosing and treating DED. The systematic review covers t...

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Published in:	Survey of ophthalmology 2025-01
Main Authors:	Chopra, Prakshi, Fatima, Asra, Mohapatra, Sonali, Murugaiyan, Kavipriya, Vemuganti, Geeta K, Rengan, Aravind K, Watson, Stephanie L, Singh, Vivek, Basu, Sayan, Singh, Swati
Format:	Article
Language:	English
Subjects:	Dry eye disease Exosomes Extracellular vehicles Lacrimal gland Sjogren’s syndrome
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creator	Chopra, Prakshi Fatima, Asra Mohapatra, Sonali Murugaiyan, Kavipriya Vemuganti, Geeta K Rengan, Aravind K Watson, Stephanie L Singh, Vivek Basu, Sayan Singh, Swati
description	Extracellular vesicles (EVs), defined as membrane-bound vesicles released from all cells, are being explored for their diagnostic and therapeutic role in dry eye disease (DED). We systematically shortlisted 32 articles on the role of EVs in diagnosing and treating DED. The systematic review covers the progress in the last 2 decades about the classification and isolation of EVs and their role in DED. The diagnostic predictability of exosomes was evaluated in Sjogren syndrome (SS) patients' tears, plasma, and saliva, where upregulation of inflammatory proteins was reported uniformly across studies. Also, the therapeutic effects of MSC-derived EVs in in vitro and in vivo studies of SS and DED mouse models were evaluated. A significant response occurs at a functional level with improved tear production and saliva flow rate and at a cellular level with reduced lymphocyte infiltration, improved corneal structural integrity, decreased epithelial cell apoptosis, and dampening of the inflammatory cytokine response. The proposed mechanisms of EV action include PD-L1, PRDM, NLRP-3, and Nf-kb pathways and an increase in M2 macrophage phenotype. Current use of exosomes in DED is limited due to their cumbersome isolation. Further research on human subjects is needed, in addition to optimizing exosome isolation and delivery methods.
doi_str_mv	10.1016/j.survophthal.2025.01.003
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subjects	Dry eye disease Exosomes Extracellular vehicles Lacrimal gland Sjogren’s syndrome
title	Extracellular vesicles in dry eye disease and Sjogren syndrome: A systematic review on their diagnostic and therapeutic role
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