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find Keyword "肾素-血管紧张素系统" 6 results
  • The Role of Renin-Angiotensin System in Acute Lung Injury and Acute Respiratory Dysfunction Syndrome

    Objective To explore the role of renin-angiotensin system( RAS) in acute lung injury( ALI) /acute respiratory dysfunction syndrome( ARDS) by using amouse cecal ligation and puncture ( CLP)model.Methods The ALI/ARDS animal models were assessed bymeasuring blood gas, wet/dry lung weight ratio( W/D) , and lung tissue histology 18 hours after CLP operation. After the ALI/ARDS models was successfully established, immunohistochemistry, western blotting and radioimmunity were used to investigate the changes of several key enzymes of RAS, such as ACE, ACE2 and Ang Ⅱ. In addition, two groups of animals received a separate intraperitoneal injection of angiotensin-converting enzyme ( ACE) inhibitor captopril or recombinant mouse ACE2 ( rmACE2) after CLP, then the changes of RAS in ALI/ARDS modelswere observed. Results The extensive lung injuries can be observed in the lung tissues from CLP-treated animals 18 hours after operation. The CLP-induced ALI/ARDS led to an increase in the wet/dry weight ratio of the lung tissues, and a decrease in the PaO2 /FiO2 [ ( 194. 3 ±23. 9) mm Hg vs ( 346. 7 ±20. 5) mm Hg,P lt;0. 01] . Immunohistochemistry and western blotting tests of the lung tissues from CLP-treated animals showed a decrease in the ACE2 protein level. However, in both the CLP and sham mice there were no significant differences between the two groups. CLP markedly increased Ang Ⅱ level in lungs and plasma of mice, and RAS drugs significantly impacted the Ang Ⅱ levels of mice. Compared with the CLP group,captopril or rmACE2 led to a decrease of the Ang Ⅱ level in mice [ Lung: ( 1. 58 ±0. 16) fmol /mg,( 1. 65 ±0. 21) fmol /mg vs ( 2. 38 ±0. 41) fmol /mg; Plasma: ( 178. 04 ±17. 87) fmol /mL, ( 153. 74 ±10. 24) fmol /mL vs ( 213. 38 ± 25. 44) fmol /mL] . Conclusions RAS activation is one of the characteristics of CLP-induced ALI/ARDS in mice models. ACE and ACE2 in RAS have a different role in the regulation of AngⅡ synthesis, while ACE has a positive effect in generating AngⅡ, and ACE2 shows a negative effect.

    Release date:2016-08-30 11:53 Export PDF Favorites Scan
  • Losartan Alleviates Lung Inflammation of Rats with Acute Lung Injury

    Objective To investigate the role of angiotensin-II type 1 receptor ( AT1) antagonist in treatment of acute lung injury/acute respiratory distress syndrome ( ALI/ARDS) . Methods Animal model of ALI/ARDS was induced by cecal ligation and perforation ( CLP) . ALI/ARDS animals received a separate intraperitoneal injection of several concentrations( 5, 10, 15, 20, 25 mg/kg) of AT1 inhibitor losartan after CLP, then the changes of lung injury and 7-day survival were measured. Results Oxygenation index and lung wet to dry weight ratio ( W/D) showed an improving trend when losartan was administered at doses of 5 to 15 mg/kg in ALI/ARDS rats, but aggravated above the dose of 15 mg/kg. Losartan ( 15 mg/kg) treatment significantly alleviated pulmonary edema after CLP operation, and decreased serumlevels of TNF-α, IL-6, andIL-1β [ TNF-α: ( 554. 1 ±62. 7 ) pg/mL vs. ( 759. 2 ±21. 5 ) pg/mL, P lt; 0. 01; IL-6: ( 1227. 3 ±130. 0) pg/mL vs. ( 2670. 4 ±174. 1) pg/mL, P lt; 0. 01; IL-1β: ( 444. 0 ±38. 6) pg/mL vs. ( 486. 6 ±61. 7)pg/mL, P lt; 0. 05] . 7-day survival rate also increased in losartan treatment group at a dose of 15 mg/kg( 6. 7% vs. 0 ) . Conclusions The AT1 inhibitor, losartan, can significantly prevent lung injury in ALI/ARDS after CLP, and improve the 7-day survival rate.

    Release date:2016-08-30 11:53 Export PDF Favorites Scan
  • The changes and effect of plasma renin-angiotensin system and nitric oxide in rabbits pericarditis

    Objective To explore the changes and effect of plasma renin-angiotensin system (RAS) and nitric oxide (NO) in rabbits pericarditis. Methods Twenty-one male rabbits were divided into two groups randomly. Experimental group: 11 rabbits were injected 40% urea (2ml/kg) into pericardial cavity, control group: 10 rabbits were injected 0.9% natrium chloride into the pericardial cavity . The concentration of plasma renin active (RA), angiotensin Ⅱ(ANGⅡ) and NO were measured before operation and after operation 1,4,7,10,15,21 days. The histopathological changes of pericardium, myocardium, lung and liver were observed in the adopted specimens. Results The concentration of plasma RA, ANGⅡ and NO in experimental group increased after operation and significantly increased at 7 to 21 day compared with those in control group (Plt;0.01). In the experimental group, there were proliferation and thickening of pericardium, myocardial degeration, pulmonary ecchymosis and hepatic ecchymosis. Conclusion The concentration of plasma RAS and NO is increased in rabbits with pericarditis, plasma NO rejects the roles of RAS, NO and RAS lead to organs injury of pericardium, myocardium, lung, liver and so on.

    Release date:2016-08-30 06:27 Export PDF Favorites Scan
  • 肾素-血管紧张素系统阻滞剂预防早产儿视网膜病变研究

    血管紧张素Ⅱ(Ang Ⅱ)是肾素血管紧张素系统(RAS)的主要效应产物和多种器官有效的生长因子。在早产儿视网膜病变(ROP)等缺血性视网膜病变中,RAS上调,视网膜RAS被激活,刺激具有促微血管渗漏、周细胞迁移、新生血管生成和纤维化功能的血管内皮生长因子(VEGF)等上调。对RAS的阻滞主要通过血管紧张素转换酶抑制剂和血管紧张素Ⅱ受体拮抗剂来实现。RAS阻滞剂在ROP的发生发展过程中可能具有防止和减弱病理性血管生成的作用。对RAS的阻断有望成为ROP的治疗途径。

    Release date:2016-09-02 05:41 Export PDF Favorites Scan
  • 肾素-血管紧张素系统与糖尿病视网膜病变

    肾素-血管紧张素(renin-angiotension-system,RAS)系统生物学作用主要是通过血管紧张素II(angiotensin II,ATII)与其受体(angiotensin type 1 receptor,AT1和angiotensin type 2 receptor, AT2)结合来实现的,因此抑制 ATII的生成及阻断ATII与其受体的结合,会起到对RAS作用的抑制。现已证实,视网膜存在独立的RAS系统;糖尿病视网膜病变(diabetic retinopathy,DR)时,视网膜局部ATII及血管紧张素转化酶(ang iotensin converting enzyme,ACE)活性增高。抑制血管紧张素I(angiotensin I,AT I)转化 成ATⅡ的药物即血管紧张素转化酶抑制剂(angiotensin converting enzyme inhibitors ,ACEI)和AT2受体阻断药氯沙坦等将为防治DR提供新思路。现就ATII、ACE、ACEI 、AT1受体拮 抗剂与DR的关系及其作用机制等方面作一综述。 (中华眼底病杂志,2003,19:333-404)

    Release date:2016-09-02 06:00 Export PDF Favorites Scan
  • 肾素-血管紧张素-醛固酮系统与早产儿视网膜病变

    眼组织中存在着独立于全身的肾素-血管紧张素-醛固酮系统(RAAS),在视网膜新生血管生成、炎症反应和氧化应激等方面发挥着重要作用。目前国内对RAAS在糖尿病视网膜病变中的研究文献较多,但对RAAS在早产儿视网膜病变(ROP)方面的研究却鲜见报道。国外多项研究表明,RAAS在ROP病理过程中也发挥着重要作用,主要体现在促进眼内炎症因子、氧自由基、血管生长因子和新生血管的生成方面。而抑制RAAS中某些成员的活性,显示出一定的抗炎、抗氧化应激、抑制新生血管形成的效应,提示RAAS中的多个成员有望成为防治ROP等增生性眼病的新靶点。进一步探讨RAAS与ROP的关系,将有助于加深对ROP发生发展机制的了解。

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