Plasma endothelial cell-derived microvesicles and their contained miR-17-5p distinguished vascular aging with an AUC of 0.815 for their combination.
Do endothelial cell derived microvesicles modulate cerebrovascular and brain aging and serve as biomarkers for vascular aging?
Endothelial cell-derived microvesicles modulate cerebrovascular aging via miR-17-5p and may serve as promising biomarkers and therapeutic targets for vascular aging.
Effect estimate: AUC 0.815
Abstract Vascular aging, characterized by brain endothelial cells (ECs) senescence and dysfunction, has been known to lead to various age-related cerebrovascular and neurodegenerative diseases. However, its underlying mechanisms remain elusive. ECs derived microvesicles (EMVs) and exosomes (EEXs) carry the characteristics of parent cells and transfer their contents to modulate the functions of recipient cells, holding the potential to evaluate or regulate vascular aging. Here, we found that young or aged ECs released EMVs were more effective than their released EEXs on alleviating or aggravating mice cerebrovascular and brain aging as indicated by SA-β-gal staining, cerebral blood flow, blood brain barrier function, aging related markers and cognitive ability test. We further identified that these EMVs regulated cerebrovascular and brain aging by transferring miR-17-5p and could modulate ECs senescence and functions via miR-17-5p/PI3K/Akt pathway. Plasma EMVs and their contained miR-17-5p (EMV-miR-17-5p) were significantly increased or decreased in the elderly, and were closely correlated with vascular aging. Receiver Operating Characteristic (ROC) analysis showed that the area under the curve was 0.724 for EMVs, 0.77 for EMV-miR-17-5p and 0.815 for their combination for distinguishing vascular aging. Our results revealed the novel roles for EMVs that could more effectively modulate vascular and brain aging than EEXs by regulating ECs functions through miR-17-5p/PI3K/Akt pathway, and also suggested that EMVs and EMV-miR-17-5p represent promising biomarkers and therapeutic targets for vascular aging.
Zhang et al. (Fri,) conducted a other in Vascular aging. Endothelial cell derived microvesicles (EMVs) and EMV-miR-17-5p vs. Endothelial cell derived exosomes (EEXs) was evaluated on Distinguishing vascular aging (AUC 0.815). Plasma endothelial cell-derived microvesicles and their contained miR-17-5p distinguished vascular aging with an AUC of 0.815 for their combination.
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