内皮素和内皮源性舒张因子对肾积水大鼠肾脏基础肾血管张力的调控
Endothelin and endothelium-derived relaxing factor control of basal renovascular tone in hydronephrotic rat kidneys.
作者信息
Gulbins E, Hoffend J, Zou A P, Dietrich M S, Schlottmann K, Cavarape A, Steinhausen M
机构信息
I. Institute of Physiology, University of Heidelberg, Germany.
出版信息
J Physiol. 1993 Sep;469:571-82. doi: 10.1113/jphysiol.1993.sp019830.
Abstract
- In order to investigate the control of renal vascular tone by endothelin (ET) and endothelium-derived relaxing factor (EDRF) under basal conditions, we infused intravenously anti-ET-1/3 antibodies (a-ET-1/3) and NG-nitro-L-arginine methyl ester (L-NAME) in split hydronephrotic rat kidneys. 2. A 25 min I.V. infusion of a-ET-1/3 (4.0 x 10(-13) mol kg-1 min-1) induced a time-dependent vasodilatation of arcuate (16.5%) and interlobular arteries (18.6%) as well as an increase of glomerular blood flow (GBF) by 32%. 3. Inhibition of EDRF synthesis by L-NAME produced a marked vasoconstriction of arcuate arteries (17.1%) and efferent (20.1%) arterioles and a decrease of GBF by 43%. 4. Co-infusion of a-ET-1/3 and L-NAME induced efferent vasoconstriction by 19.5%, whereas preglomerular vessel diameters remained unchanged. 5. The specificity of a-ET-1/3 effects was confirmed by simultaneous I.V. application of a-ET-1/3 and ET-1 (160 ng I.V.) which produced no significant vascular effects. Injection of ET-1 alone constricted arcuate arteries and decreased glomerular blood flow by 25%. 6. Experiments in normal rat kidneys with a-ET-1/3 I.V. revealed an increase of renal blood flow by 21%. 7. Our results demonstrate a physiological control of basal vascular tone in larger preglomerular arterioles by ET and EDRF. Efferent arteriolar tone is predominantly controlled by EDRF.
摘要
- 为研究基础状态下内皮素(ET)和内皮衍生舒张因子(EDRF)对肾血管张力的调控,我们对肾积水大鼠的一侧肾脏静脉输注抗ET-1/3抗体(a-ET-1/3)和NG-硝基-L-精氨酸甲酯(L-NAME)。2. 静脉输注a-ET-1/3(4.0×10⁻¹³ mol·kg⁻¹·min⁻¹)25分钟,可引起弓形动脉(16.5%)和小叶间动脉(18.6%)出现时间依赖性血管舒张,同时肾小球血流量(GBF)增加32%。3. L-NAME抑制EDRF合成可使弓形动脉(17.1%)和出球小动脉(20.1%)显著收缩,GBF减少43%。4. 联合输注a-ET-1/3和L-NAME可使出球小动脉收缩19.5%,而球前血管直径保持不变。5. 静脉同时应用a-ET-1/3和ET-1(静脉注射160 ng)未产生明显血管效应,证实了a-ET-1/3作用的特异性。单独注射ET-1可使弓形动脉收缩,肾小球血流量减少25%。6. 对正常大鼠肾脏静脉输注a-ET-1/3的实验显示肾血流量增加21%。7. 我们的结果表明,ET和EDRF对较大球前小动脉的基础血管张力具有生理性调控作用。出球小动脉张力主要受EDRF调控。
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