鞘氨醇-1-磷酸通过激活Rho的S1P2增强离体灌注肝脏的门静脉压力。

Sphingosine 1-phosphate enhances portal pressure in isolated perfused liver via S1P2 with Rho activation.

作者信息

Ikeda Hitoshi, Nagashima Kayo, Yanase Mikio, Tomiya Tomoaki, Arai Masahiro, Inoue Yukiko, Tejima Kazuaki, Nishikawa Takako, Watanabe Naoko, Omata Masao, Fujiwara Kenji

机构信息

Department of Gastroenterology, University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8655, Japan.

出版信息

Biochem Biophys Res Commun. 2004 Jul 30;320(3):754-9. doi: 10.1016/j.bbrc.2004.04.207.

DOI:10.1016/j.bbrc.2004.04.207

PMID:15240112

Abstract

Although structural changes are most important to determine vascular resistance in portal hypertension, vasoactive mediators also contribute to its regulation. Hepatic stellate cells (HSCs) are assumed to play a role in modulating intrahepatic vascular resistance based on their residence in the space of Disse and capacity to contract. Because sphingosine 1-phosphate (S1P) has been shown to stimulate HSC contractility, we wondered if S1P could regulate portal pressure. S1P at 0.5-5 microM increased portal pressure in isolated rat perfused liver. This effect was abrogated in the presence of a binding antagonist for S1P2, JTE-013. Perfusion of isolated rat liver with 5 microM S1P increased Rho activity in the liver, and co-perfusion with JTE-013 cancelled S1P-induced Rho activation. Because S1P is present in human plasma at approximately 0.2 microM, S1P might readily regulate portal vascular tone in physiological and pathological status. The antagonist for S1P2 merits consideration for treatment of portal hypertension.

摘要

虽然结构变化对门静脉高压症中血管阻力的决定最为重要，但血管活性介质也参与其调节。肝星状细胞（HSCs）因其位于狄氏间隙并具有收缩能力，被认为在调节肝内血管阻力中发挥作用。由于鞘氨醇-1-磷酸（S1P）已被证明可刺激肝星状细胞收缩，我们想知道S1P是否能调节门静脉压力。0.5 - 5微摩尔的S1P可增加离体大鼠灌注肝脏的门静脉压力。在存在S1P2结合拮抗剂JTE - 013的情况下，这种效应被消除。用5微摩尔S1P灌注离体大鼠肝脏可增加肝脏中的Rho活性，与JTE - 013共同灌注可消除S1P诱导的Rho激活。由于人血浆中S1P的浓度约为0.2微摩尔，S1P可能在生理和病理状态下容易调节门静脉血管张力。S1P2拮抗剂值得考虑用于治疗门静脉高压症。

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鞘氨醇-1-磷酸通过激活Rho的S1P2增强离体灌注肝脏的门静脉压力。

Sphingosine 1-phosphate enhances portal pressure in isolated perfused liver via S1P2 with Rho activation.

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