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Enhanced pericyte-endothelial interactions through NO-boosted extracellular vesicles drive revascularization in a mouse model of ischemic injury

Ling Guo, Qiang Yang, Runxiu Wei, Wenjun Zhang, Na Yin, Yuling Chen, Chao Xu, Changrui Li, Randy P. Carney, Yuanpei Li, Min Feng

2023Nature Communications28 citationsDOIOpen Access PDF

Abstract

Despite improvements in medical and surgical therapies, a significant portion of patients with critical limb ischemia (CLI) are considered as "no option" for revascularization. In this work, a nitric oxide (NO)-boosted and activated nanovesicle regeneration kit (n-BANK) is constructed by decorating stem cell-derived nanoscale extracellular vesicles with NO nanocages. Our results demonstrate that n-BANKs could store NO in endothelial cells for subsequent release upon pericyte recruitment for CLI revascularization. Notably, n-BANKs enable endothelial cells to trigger eNOS activation and form tube-like structures. Subsequently, eNOS-derived NO robustly recruits pericytes to invest nascent endothelial cell tubes, giving rise to mature blood vessels. Consequently, n-BANKs confer complete revascularization in female mice following CLI, and thereby achieve limb preservation and restore the motor function. In light of n-BANK evoking pericyte-endothelial interactions to create functional vascular networks, it features promising therapeutic potential in revascularization to reduce CLI-related amputations, which potentially impact regeneration medicine.

Topics & Concepts

PericyteRevascularizationEnosCell biologyMedicineNitric oxideRegeneration (biology)ExtracellularEndothelial stem cellCardiologyInternal medicineChemistryBiologyNitric oxide synthaseBiochemistryMyocardial infarctionIn vitroPeripheral Artery Disease ManagementAngiogenesis and VEGF in CancerExtracellular vesicles in disease
Enhanced pericyte-endothelial interactions through NO-boosted extracellular vesicles drive revascularization in a mouse model of ischemic injury | Litcius