PMID: 31102912DOI: 10.1016/j.biopha.2019.108818May 19, 2019Paper

Mesenchymal stem cell derived EVs mediate neuroprotection after spinal cord injury in rats via the microRNA-21-5p/FasL gene axis

Biomedicine & Pharmacotherapy = Biomédecine & Pharmacothérapie
Xin ZhouDachuan Wang

Abstract

Spinal cord injury (SCI) represents a relatively common type of motor system trauma. While the SCI patient will experience varying degrees of paraplegia and quadriplegia, which severely affects their quality of life, a heavy burden is also placed on the family and society as a whole. The exact pathogenic mechanisms underlying this condition remain unknown and no specific treatments are currently available. Findings from recent studies have shown that mesenchymal stem cells (MSCs), derived from extracellular vesicles (EVs) can reduce apoptosis, inflammation and promote angiogenesis after SCI. However, the mechanisms through which EVs exert these effects have yet to be identified, indicating the necessity for further investigation. In the present study, we report that treatment with MSCs-EVs significantly improved functional recovery and attenuated lesion size and apoptosis in a rat model of SCI. These MSCs-EVs were found to be directed to the spinal injury site and mainly incorporated into neurons within the lesioned site of the spinal cord. Tandem Mass Tags quantitative proteomics was applied to compare protein changes after SCI and MSCs-EVs treatment. A total of 883 differential proteins were identified, many of which being as...Continue Reading

Associated Datasets

Data for: Mesenchymal stem cells derived exosomes mediate neuroprotection after spinal cord injury in rats via microRNA-21-5p/FasL gene axis

May 16, 2019·Zhen Wang, Xin Zhou

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