Plasma exosomes regulate systemic blood pressure in rats

Kosuke Otani, Mai Yokoya, Tomoko Kodama, Kiko Hori, Kengo Matsumoto, Muneyoshi Okada, Hideyuki Yamawaki

Exosomes, the smallest extracellular vesicle, contain various molecules and mediate cell-cell communication. A number of studies demonstrate exosomes are involved in important physiological and pathological processes. Moreover, microRNA (miRNA) regulating hypertension development through the suppression of certain translation was recently reported. However, roles of exosomes containing various molecules including miRNA on development of essential hypertension have not been examined. We tested the hypothesis that plasma exosomes regulate systemic blood pressure in normotensive and spontaneously hypertensive rats (SHR). Normotensive Wistar Kyoto rats (WKY) and SHR (5-10-week-old) were intraperitoneally administrated with exosomes derived from plasma in WKY or SHR weekly for 6 weeks. Exosomes were isolated by an ultracentrifuge method. SHR-derived exosomes significantly increased systolic blood pressure in WKY, while WKY-derived exosomes decreased it in SHR. In WKY, SHR-derived exosomes induced modest structural changes of thoracic aorta, such as wall thickening and decreased abundance of collagen, which were similar to the changes observed in SHR. On the contrary, WKY-derived exosomes tended to reverse the changes in SHR. WKY-derived exosomes significantly suppressed the increased prostaglandin F2α-induced contraction of mesenteric arterial smooth muscle in SHR. In addition, wet weight and perivascular fibrosis of left ventricles in WKY were significantly increased by SHR-derived exosomes, while the fibrosis but not ventricular weight was significantly decreased by WKY-derived exosomes in SHR. We for the first time demonstrated that plasma exosomes can modulate systemic blood pressure as well as structure and function of cardiovascular tissues in both normotensive and hypertensive rats.

Biochemical and Biophysical Research Communications

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10.1016/j.bbrc.2018.06.075

29913142

https://www.sciencedirect.com/science/article/abs/pii/S0006291X18313871?via%3Dihub