肿瘤坏死因子、内皮素及一氧化氮对急慢性门静脉高压大鼠高动力循环的影响
Effects of tumor necrosis factor, endothelin and nitric oxide on hyperdynamic circulation of rats with acute and chronic portal hypertension.
作者信息
Wang Ji-Jian, Gao Gen-Wu, Gao Ren-Zhong, Liu Chang-An, Ding Xiong, Yao Zhen-Xiang
机构信息
Department of General Surgery, Second Affiliated Hospital, Chongqing University of Medical Sciences, 74 Linjing Road, Chongqing 400010, China.
出版信息
World J Gastroenterol. 2004 Mar 1;10(5):689-93. doi: 10.3748/wjg.v10.i5.689.
AIM
To evaluate the effect of tumor necrosis factor (TNF), endothelin (ET) and nitric oxide (NO) on hyperdynamic circulation (HC) of rats with acute and chronic portal hypertension (PHT).
METHODS
Chronic portal hypertension was induced in Wistar rats by injection of carbon tetrachloride. After two weeks of cirrhosis formation, L-NMMA (25 mg/kg) was injected into one group of cirrhotic rats via femoral vein and the experiment was begun immediately. Another group of cirrhotic rats was injected with anti-rat TNFalpha (300 mg/kg) via abdominal cavity twice within 48 h and the experiment was performed 24 h after the second injection. The blood concentrations of TNFalpha, ET-1 and NO in portal vein and the nitric oxide synthase (NOS) activity in hepatic tissue were determined pre-and post-injection of anti-rat TNFalpha or L-NMMA. Stroke volume (SV), cardiac output (CO), portal pressure (PP), superior mesenteric artery blood flow (SMA flow) and iliac artery blood flow (IAflow) were measured simultaneously. Acute portal hypertension was established in Wistar rats by partial portal-vein ligation (PVL). The parameters mentioned above were determined at 0.5 h, 24 h, 48 h, 72 h and 120 h after PVL. After the formation of stable PHT, the PVL rats were injected with anti-rat TNFalpha or L-NMMA according to different groups, the parameters mentioned above were also determined.
RESULTS
In cirrhotic rats, the blood levels of TNFalpha, NO in portal vein and the liver NOS activity were significantly increased (P<0.05) while the blood level of ET-1 was not statistically different (P>0.05) from the control animals (477.67+/-83.81 pg/mL vs 48.87+/-32.79 pg/mL, 278.41+/-20.11 micromol/L vs 113.28+/-14.51 micromol/L, 1.81+/-0.06 u/mg.prot vs 0.87+/-0.03 u/mg.prot and 14.33+/-4.42 pg/mL vs 8.72+/-0.79 pg/mL, respectively). After injection of anti-rat TNFalpha, the blood level of TNFalpha was lower than that in controls (15.17+/-18.79 pg/mL vs 48.87+/-32.79 pg/mL). The blood level of NO and the liver NOS activity were significantly decreased, but still higher than those of the controls. The blood level of ET-1 was not significantly changed. PP, SV, CO, SMAflow and IAflow were ameliorated. After injection of L-NMMA, the blood level of NO and the liver NOS activity were recovered to those of the controls. PP and CO were also recovered to those of the controls. SV, SMAflow and IAflow were ameliorated. In PVL rats, the blood levels of TNFalpha, NO in portal vein and the liver NOS activity were gradually increased and reached the highest levels at 48 h after PVL. The blood level of ET-1 among different staged animals was not significantly different from the control animals. PP among different staged animals (2.4+/-0.18 kPa at 0.5 h, 1.56+/-0.08 kPa at 24 h, 1.74+/-0.1 kPa at 48 h, 2.38+/-0.05 kPa at 72 h, 2.39+/-0.16 kPa at 120 h) was significantly higher than that in controls (0.9+/-0.16 kPa). After injection of anti-rat TNFalpha in 72 h PVL rats, the blood level of TNFalpha was lower than that in controls (14+/-14 pg/mL vs 48.87+/-32.79 pg/mL). The blood level of NO and the liver NOS activity were significantly decreased, but still higher than those of the controls. The blood level of ET-1 was not significantly changed. PP was decreased from 2.38+/-0.05 kPa to 1.68+/-0.12 kPa, but significantly higher than that in controls. SV, CO, SMAflow and IAflow were ameliorated. After injection of L-NMMA in 72 h PVL rats, the blood level of NO and the liver NOS activity were recovered to those of the controls. PP, SV, CO, SMAflow and IAflow were also recovered to those of the controls.
CONCLUSION
NO plays a critical role in the development and maintenance of HC in acute PHT and is a key factor for maintenance of HC in chronic PHT. TNFalpha may not participate in the hemodynamic changes of HC directly, while play an indirect role by inducing the production of NO through activating NOS. No evidence that circulating ET-1 plays a role in both models of portal hypertension has been found.
目的
评估肿瘤坏死因子(TNF)、内皮素(ET)和一氧化氮(NO)对急慢性门静脉高压(PHT)大鼠高动力循环(HC)的影响。
方法
通过注射四氯化碳诱导Wistar大鼠形成慢性门静脉高压。在肝硬化形成两周后,一组肝硬化大鼠经股静脉注射L-NMMA(25mg/kg),并立即开始实验。另一组肝硬化大鼠在48小时内分两次经腹腔注射抗大鼠TNFα(300mg/kg),在第二次注射后24小时进行实验。在注射抗大鼠TNFα或L-NMMA前后,测定门静脉中TNFα、ET-1和NO的血药浓度以及肝组织中一氧化氮合酶(NOS)的活性。同时测量每搏输出量(SV)、心输出量(CO)、门静脉压力(PP)、肠系膜上动脉血流量(SMA流量)和髂动脉血流量(IA流量)。通过部分门静脉结扎(PVL)建立Wistar大鼠急性门静脉高压。在PVL后0.5小时、24小时、48小时、72小时和120小时测定上述参数。在稳定的PHT形成后,根据不同组给PVL大鼠注射抗大鼠TNFα或L-NMMA,也测定上述参数。
结果
在肝硬化大鼠中,门静脉中TNFα、NO的血药浓度以及肝NOS活性显著升高(P<0.05),而ET-1的血药浓度与对照动物相比无统计学差异(P>0.05)(分别为477.67±83.81pg/mL对48.87±32.79pg/mL、278.41±20.11μmol/L对113.28±14.51μmol/L、1.81±0.06u/mg.prot对0.87±0.03u/mg.prot和14.33±4.42pg/mL对8.72±0.79pg/mL)。注射抗大鼠TNFα后,TNFα的血药浓度低于对照组(15.17±18.79pg/mL对48.87±32.79pg/mL)。NO的血药浓度和肝NOS活性显著降低,但仍高于对照组。ET-1的血药浓度无显著变化。PP、SV、CO、SMA流量和IA流量均有所改善。注射L-NMMA后,NO的血药浓度和肝NOS活性恢复至对照组水平。PP和CO也恢复至对照组水平。SV、SMA流量和IA流量均有所改善。在PVL大鼠中,门静脉中TNFα、NO的血药浓度以及肝NOS活性逐渐升高,并在PVL后48小时达到最高水平。不同分期动物的ET-1血药浓度与对照动物相比无显著差异。不同分期动物的PP(0.5小时时为2.4±0.18kPa,24小时时为1.56±0.08kPa,48小时时为1.74±0.1kPa,72小时时为2.38±0.05kPa,120小时时为2.39±0.16kPa)显著高于对照组(0.9±0.16kPa)。在72小时PVL大鼠中注射抗大鼠TNFα后,TNFα的血药浓度低于对照组(14±14pg/mL对48.87±32.79pg/mL)。NO的血药浓度和肝NOS活性显著降低,但仍高于对照组。ET-1的血药浓度无显著变化。PP从2.38±0.05kPa降至1.68±0.12kPa,但仍显著高于对照组。SV、CO、SMA流量和IA流量均有所改善。在72小时PVL大鼠中注射L-NMMA后,NO的血药浓度和肝NOS活性恢复至对照组水平。PP、SV、CO、SMA流量和IA流量也恢复至对照组水平。
结论
NO在急性PHT的HC发展和维持中起关键作用,是慢性PHT中维持HC的关键因素。TNFα可能不直接参与HC的血流动力学变化,而是通过激活NOS诱导NO的产生发挥间接作用。未发现循环ET-1在两种门静脉高压模型中起作用的证据。
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