YAO Li, YANG Yu-Xia, CAO Hui, REN Huan-Huan, NIU Zheng, SHI Ling. Osthole attenuates pulmonary arterial hypertension by the regulation of sphingosine 1-phosphate in rats [J]. Chin J Nat Med, 2020, 18(4): 308-320. DOI: 10.1016/S1875-5364(20)30038-8
Citation: YAO Li, YANG Yu-Xia, CAO Hui, REN Huan-Huan, NIU Zheng, SHI Ling. Osthole attenuates pulmonary arterial hypertension by the regulation of sphingosine 1-phosphate in rats [J]. Chin J Nat Med, 2020, 18(4): 308-320. DOI: 10.1016/S1875-5364(20)30038-8

Osthole attenuates pulmonary arterial hypertension by the regulation of sphingosine 1-phosphate in rats

  • Osthole is observed to have the capacity to treat pulmonary arterial hypertension (PAH) in rats, but molecular mechanism is still unknown. The present study aims to discover therapeutic targets and explore therapeutic mechanism of osthole against PAH from metabolic perspective. A rat model with PAH was successfully established with MCT, following osthole administration, then untargeted metabolomics assay was performed using UPLC-Q-TOF-MS to identify differential metabolites and associated metabolic pathways, at last mechanism investigation was done by qRT-PCR, Western blot and ELISA. Differential metabolites characterized in rats with PAH were mostly assigned to sphingolipid metabolism, synthesis of unsaturated fatty acids, glycolysis, nucleotide metabolism, steroid hormone biosynthesis. Furthermore, osthole reversed high level of S1P by modulating metabolic enzyme Sphk1 in rats with PAH. In addition, osthole inhibited the expression of Sphk1 by downregulating microRNA-21, phosphorylation of Akt, phosphorylation of mTOR in vivo and in vitro. These results demonstrated that metabolomics is a promising approach to discover potential drug target for PAH treatment. Importantly, our findings further elucidated therapeutic mechanism of osthole, a natural product, having a role of metabolic regulator to potentially treat PAH by targeting inhibition of Sphk1/S1P via microRNA-21-PI3K/Akt/mTOR signal pathway. Altogether, this discovery paves a critical foundation for enabling osthole to be a candidate compound to treat PAH.
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