1-磷酸鞘氨醇对过氧化氢所致微血管通透性增高的影响

张丽志; 苏健; 温克<sup>*</sup>

引用本文:	张丽志,苏健,温克.1-磷酸鞘氨醇对过氧化氢所致微血管通透性增高的影响[J].中国现代应用药学,2013,30(1):6-9.
	ZHANG Lizhi,SU Jian,WEN Ke.Effect of Sphingosine 1-Phosphate on the Increased Microvessel Permeability Induced by H₂O₂[J].Chin J Mod Appl Pharm(中国现代应用药学),2013,30(1):6-9.

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1-磷酸鞘氨醇对过氧化氢所致微血管通透性增高的影响
张丽志^1,2, 苏健², 温克³
1.天津医科大学基础医学院药理教研室，天津 300070;2.天津市第一中心医院妇产科，天津 300192;3.天津医科大学基础医学院药理教研室，天津 300071

摘要:

目的研究1-磷酸鞘氨醇(S1P)对氧化应激状态下过氧化氢引起的大鼠微血管通透性增高的影响。方法应用大鼠在体肠系膜微血管灌注的方法，通过外源性给予过氧化氢模拟病理条件下氧化应激状态，并通过测定微静脉的静水传导性(hydraulic conductivity，Lp)，观察S1P对过氧化氢引起的微血管通透性增高的影响；并利用在体免疫荧光组织化学技术，观察S1P对过氧化氢引起的内皮细胞粘附连接主要成分钙粘蛋白(VE-Cadherin)、F-肌动蛋白变化的影响。结果过氧化氢可增加微血管Lp至正常对照的6.13±0.87倍(P<0.01)；微血管经S1P预处理后，再给予过氧化氢未出现Lp的明显变化，与对照值比较无显著性差异。免疫荧光组织化学检测结果显示：过氧化氢可改变内皮细胞F-肌动蛋白形态及分布，细胞F-肌动蛋白分布紊乱不规则，细胞内部有密集的应力纤维形成。过氧化氢也可影响VE-Cadherin正常结构，导致粘附连接断裂，细胞间隙形成。而S1P预处理可抑制过氧化氢对VE-Cadherin和F-肌动蛋白的影响。结论 S1P可抑制过氧化氢引起的血管通透性增高，其机制可能与S1P抑制应力纤维形成、加强内皮细胞间粘附连接，抑制细胞间隙形成有关。

关键词: 血管通透性 1-磷酸鞘氨醇过氧化氢静水传导性血管内皮细胞钙粘蛋白肌动蛋白

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基金项目:国家自然科学基金面上项目(81173058)；天津市自然科学基金重点项目(10JCZDJC20900)

Effect of Sphingosine 1-Phosphate on the Increased Microvessel Permeability Induced by H₂O₂

ZHANG Lizhi,SU Jian,WEN Ke

1.Department of Pharmacology, School of Basic Medical Sciences, Tianjin Medical University, Tianjin 300070, China;2.Department of Obstetrics and Gynecology, Tianjin First Center Hospital, Tianjin 300192, China

Abstract:

OBJECTIVE To study the effect of sphingosine 1-phosphate (S1P) on the increased microvessel permeability of rat induced by hydrogen peroxide(H2O2). METHODS The method of rat mesenteric microvascular perfusion in vivo was used. Microvessel permeability was assessed by measuring hydraulic conductivity(Lp). The microvessel were stained with immunofluorescence technique and examined with laser confocal microscopy to observe the effect of S1P on the changes of vascular endothelial-cadherin (VE-Cadherin) and F-actin caused by H2O2. RESULTS H2O2 increased Lp to 6.1±0.9 times of the control(P<0.01), but after pretreatment with S1P, H2O2 did not give rise to a further significant change. Immunofluorescence study showed that H2O2 could change F-actin cytoskeletal architecture. F-actin arranged disorderly and irregularly. Formation of stress fiber was observed in the middle part of cell. H2O2 could also restructure VE-Cadherin. Detachment of adherent junction and formation of endothelial gap was observed. Pretreatment with S1P could inhibit the change of VE-Cadherin and F-actin induced by H2O2. CONCLUSION S1P can improve the increased microvessel permeability caused by H2O2, which might mediated by inhibiting the formation of stress fibre and endothelial gaps, strengthening adherent junction.

Key words: microvessel permeability sphingosine 1-phosphate hydrogen peroxide hydraulic conductivity vascular endothelial-cadherin actin