TY - JOUR
T1 - Senescence cell–associated extracellular vesicles serve as osteoarthritis disease and therapeutic markers
AU - Jeon, Ok Hee
AU - Wilson, David R.
AU - Clement, Cristina C.
AU - Rathod, Sona
AU - Cherry, Christopher
AU - Powell, Bonita
AU - Lee, Zhenghong
AU - Khalil, Ahmad M.
AU - Green, Jordan J.
AU - Campisi, Judith
AU - Santambrogio, Laura
AU - Witwer, Kenneth W.
AU - Elisseeff, Jennifer H.
N1 - Publisher Copyright:
© 2019 American Society for Clinical Investigation.
PY - 2019/4/4
Y1 - 2019/4/4
N2 - Senescent cells (SnCs) are increasingly recognized as central effector cells in age-related pathologies. Extracellular vesicles (EVs) are potential cellular communication tools through which SnCs exert central effector functions in the local tissue environment. To test this hypothesis in a medical indication that could be validated clinically, we evaluated EV production from SnCs enriched from chondrocytes isolated from human arthritic cartilage. EV production increased in a dose-responsive manner as the concentration of SnCs increased. The EVs were capable of transferring senescence to nonsenescent chondrocytes and inhibited cartilage formation by non-SnCs. microRNA (miR) profiles of EVs isolated from human arthritic synovial fluid did not fully overlap with the senescent chondrocyte EV profiles. The effect of SnC clearance was tested in a murine model of posttraumatic osteoarthritis. miR and protein profiles changed after senolytic treatment but varied depending on age. In young animals, senolytic treatment altered expression of miR-34a, -30c, -125a, -24, -92a, -150, and -186, and this expression correlated with cartilage production. The primary changes in EV contents in aged mice after senolytic treatment, which only reduced pain and degeneration, were immune related. In sum, EV contents found in synovial fluid may serve as a diagnostic for arthritic disease and indicator for therapeutic efficacy of senolytic treatment.
AB - Senescent cells (SnCs) are increasingly recognized as central effector cells in age-related pathologies. Extracellular vesicles (EVs) are potential cellular communication tools through which SnCs exert central effector functions in the local tissue environment. To test this hypothesis in a medical indication that could be validated clinically, we evaluated EV production from SnCs enriched from chondrocytes isolated from human arthritic cartilage. EV production increased in a dose-responsive manner as the concentration of SnCs increased. The EVs were capable of transferring senescence to nonsenescent chondrocytes and inhibited cartilage formation by non-SnCs. microRNA (miR) profiles of EVs isolated from human arthritic synovial fluid did not fully overlap with the senescent chondrocyte EV profiles. The effect of SnC clearance was tested in a murine model of posttraumatic osteoarthritis. miR and protein profiles changed after senolytic treatment but varied depending on age. In young animals, senolytic treatment altered expression of miR-34a, -30c, -125a, -24, -92a, -150, and -186, and this expression correlated with cartilage production. The primary changes in EV contents in aged mice after senolytic treatment, which only reduced pain and degeneration, were immune related. In sum, EV contents found in synovial fluid may serve as a diagnostic for arthritic disease and indicator for therapeutic efficacy of senolytic treatment.
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U2 - 10.1172/jci.insight.125019
DO - 10.1172/jci.insight.125019
M3 - Article
C2 - 30944259
AN - SCOPUS:85070658904
SN - 2379-3708
VL - 4
JO - JCI Insight
JF - JCI Insight
IS - 7
M1 - e125019
ER -