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W4384067747 startingPage "1824" @default.
W4384067747 abstract "The onset and progression of human inflammatory joint diseases are strongly associated with the activation of resident synovium/infrapatellar fat pad (IFP) pro-inflammatory and pain-transmitting signaling. We recently reported that intra-articularly injected IFP-derived mesenchymal stem/stromal cells (IFP-MSC) acquire a potent immunomodulatory phenotype and actively degrade substance P (SP) via neutral endopeptidase CD10 (neprilysin). Our hypothesis is that IFP-MSC robust immunomodulatory therapeutic effects are largely exerted via their CD10-bound small extracellular vesicles (IFP-MSC sEVs) by attenuating synoviocyte pro-inflammatory activation and articular cartilage degradation. Herein, IFP-MSC sEVs were isolated from CD10High- and CD10Low-expressing IFP-MSC cultures and their sEV miRNA cargo was assessed using multiplex methods. Functionally, we interrogated the effect of CD10High and CD10Low sEVs on stimulated by inflammatory/fibrotic cues synoviocyte monocultures and cocultures with IFP-MSC-derived chondropellets. Finally, CD10High sEVs were tested in vivo for their therapeutic capacity in an animal model of acute synovitis/fat pad fibrosis. Our results showed that CD10High and CD10Low sEVs possess distinct miRNA profiles. Reactome analysis of miRNAs highly present in sEVs showed their involvement in the regulation of six gene groups, particularly those involving the immune system. Stimulated synoviocytes exposed to IFP-MSC sEVs demonstrated significantly reduced proliferation and altered inflammation-related molecular profiles compared to control stimulated synoviocytes. Importantly, CD10High sEV treatment of stimulated chondropellets/synoviocyte cocultures indicated significant chondroprotective effects. Therapeutically, CD10High sEV treatment resulted in robust chondroprotective effects by retaining articular cartilage structure/composition and PRG4 (lubricin)-expressing cartilage cells in the animal model of acute synovitis/IFP fibrosis. Our study suggests that CD10High sEVs possess immunomodulatory miRNA attributes with strong chondroprotective/anabolic effects for articular cartilage in vivo. The results could serve as a foundation for sEV-based therapeutics for the resolution of detrimental aspects of immune-mediated inflammatory joint changes associated with conditions such as osteoarthritis (OA)." @default.
W4384067747 created "2023-07-13" @default.
W4384067747 creator A5040279086 @default.
W4384067747 creator A5041863942 @default.
W4384067747 creator A5049355169 @default.
W4384067747 creator A5070366885 @default.
W4384067747 date "2023-07-11" @default.
W4384067747 modified "2023-10-14" @default.
W4384067747 title "CD10-Bound Human Mesenchymal Stem/Stromal Cell-Derived Small Extracellular Vesicles Possess Immunomodulatory Cargo and Maintain Cartilage Homeostasis under Inflammatory Conditions" @default.
W4384067747 cites W1544751778 @default.
W4384067747 cites W1562744397 @default.
W4384067747 cites W1603728190 @default.
W4384067747 cites W1660392447 @default.
W4384067747 cites W1764066238 @default.
W4384067747 cites W1819866062 @default.
W4384067747 cites W1902806198 @default.
W4384067747 cites W1972067639 @default.
W4384067747 cites W1979116689 @default.
W4384067747 cites W1987269847 @default.
W4384067747 cites W1988005968 @default.
W4384067747 cites W1988530401 @default.
W4384067747 cites W1997485328 @default.
W4384067747 cites W2002092034 @default.
W4384067747 cites W2004323313 @default.
W4384067747 cites W2008523891 @default.
W4384067747 cites W2012655988 @default.
W4384067747 cites W2015050458 @default.
W4384067747 cites W2015856405 @default.
W4384067747 cites W2026437906 @default.
W4384067747 cites W2047722936 @default.
W4384067747 cites W2049069390 @default.
W4384067747 cites W2050381480 @default.
W4384067747 cites W2055839886 @default.
W4384067747 cites W2074995759 @default.
W4384067747 cites W2076637458 @default.
W4384067747 cites W2085316373 @default.
W4384067747 cites W2097156505 @default.
W4384067747 cites W2108218187 @default.
W4384067747 cites W2121871958 @default.
W4384067747 cites W2124007151 @default.
W4384067747 cites W2125942838 @default.
W4384067747 cites W2129815268 @default.
W4384067747 cites W2161915238 @default.
W4384067747 cites W2186707144 @default.
W4384067747 cites W2201248084 @default.
W4384067747 cites W2285319279 @default.
W4384067747 cites W2287275893 @default.
W4384067747 cites W2317235122 @default.
W4384067747 cites W2442224165 @default.
W4384067747 cites W2516164232 @default.
W4384067747 cites W2533044245 @default.
W4384067747 cites W2586982562 @default.
W4384067747 cites W2588864866 @default.
W4384067747 cites W2598564553 @default.
W4384067747 cites W2747141118 @default.
W4384067747 cites W2752916344 @default.
W4384067747 cites W2781951574 @default.
W4384067747 cites W2808662173 @default.
W4384067747 cites W2861713731 @default.
W4384067747 cites W2888267499 @default.
W4384067747 cites W2894883593 @default.
W4384067747 cites W2918296528 @default.
W4384067747 cites W2919287544 @default.
W4384067747 cites W2920417293 @default.
W4384067747 cites W2923873005 @default.
W4384067747 cites W2944545583 @default.
W4384067747 cites W2945777288 @default.
W4384067747 cites W2963509877 @default.
W4384067747 cites W2970358232 @default.
W4384067747 cites W2989222487 @default.
W4384067747 cites W2990285790 @default.
W4384067747 cites W2996799736 @default.
W4384067747 cites W3008414172 @default.
W4384067747 cites W3022857518 @default.
W4384067747 cites W3027131156 @default.
W4384067747 cites W3029939969 @default.
W4384067747 cites W3044818458 @default.
W4384067747 cites W3045777587 @default.
W4384067747 cites W3082437612 @default.
W4384067747 cites W3109606315 @default.
W4384067747 cites W3120526953 @default.
W4384067747 cites W3128272944 @default.
W4384067747 cites W3164358581 @default.
W4384067747 cites W3208133925 @default.
W4384067747 cites W3209490478 @default.
W4384067747 cites W3210823145 @default.
W4384067747 cites W4200043384 @default.
W4384067747 cites W4205149683 @default.
W4384067747 cites W4220776648 @default.
W4384067747 cites W4296816736 @default.
W4384067747 cites W4308825606 @default.
W4384067747 cites W4312125666 @default.
W4384067747 cites W4319081655 @default.
W4384067747 cites W4377104783 @default.
W4384067747 doi "https://doi.org/10.3390/cells12141824" @default.
W4384067747 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37508489" @default.
W4384067747 hasPublicationYear "2023" @default.
W4384067747 type Work @default.