早期肾脏去神经支配可预防生长受限后代高血压的发生。
Early renal denervation prevents development of hypertension in growth-restricted offspring.
作者信息
Ojeda Norma B, Johnson W Russell, Dwyer Terry M, Alexander Barbara T
机构信息
Department of Physiology, University of Mississippi Medical Center, Jackson, Mississippi, USA.
出版信息
Clin Exp Pharmacol Physiol. 2007 Nov;34(11):1212-6. doi: 10.1111/j.1440-1681.2007.04754.x.
Abstract
- Low birth weight is associated with an increased risk for the development of hypertension. Our laboratory uses a model of reduced uterine perfusion in the pregnant rat that results in intrauterine growth-restricted (IUGR) offspring that develop hypertension at a prepubertal age. Although hypertension develops in both prepubertal male and female IUGR offspring, only male IUGR offspring remain hypertensive after puberty. We reported previously that bilateral renal denervation abolishes hypertension in adult male IUGR offspring, indicating an important role for the renal nerves in the maintenance of established IUGR-induced hypertension. We also reported that angiotensin-converting enzyme inhibition abolishes hypertension in adult male IUGR offspring. However, activation of the renin-angiotensin system does not occur in male IUGR offspring until after puberty, or after the development of established IUGR-induced hypertension. Therefore, the mechanisms involved in the development of IUGR-induced hypertension may differ from those involved in the maintenance of established IUGR-induced hypertension. Thus, the purpose of the present study was to determine whether the renal nerves play a causative role in the early development of IUGR-induced hypertension in prepubertal IUGR offspring. 2. Intrauterine growth-restricted and control offspring were subjected to either bilateral renal denervation or sham denervation, respectively, at 4 weeks of age. Mean arterial pressure (MAP) was determined at 6 weeks of age in conscious, chronically instrumented animals. Adequacy of renal denervation was verified by renal noradrenaline content. 3. Whereas renal denervation had no effect on MAP in control offspring (103 +/- 2 vs 102 +/- 3 mmHg for sham vs denervated, respectively), it reduced blood pressure in growth-restricted offspring (114 +/- 3 vs 104 +/- 1 mmHg for sham vs denervated, respectively; P < 0.01). Renal noradrenaline content was significantly reduced in denervated animals relative to sham operated rats. 4. Thus, the data indicate a role for the renal nerves in the aetiology of IUGR-induced hypertension and suggest that the renal nerves may participate in the early development of hypertension in IUGR offspring in addition to established hypertension observed in adult male IUGR offspring.
摘要
- 低出生体重与高血压发生风险增加相关。我们实验室使用孕鼠子宫灌注减少模型,该模型会导致子宫内生长受限(IUGR)的子代,这些子代在青春期前就会发生高血压。虽然青春期前的雄性和雌性IUGR子代都会发生高血压,但只有雄性IUGR子代在青春期后仍保持高血压状态。我们之前报道双侧肾去神经支配可消除成年雄性IUGR子代的高血压,这表明肾神经在维持已确立的IUGR诱导的高血压中起重要作用。我们还报道血管紧张素转换酶抑制可消除成年雄性IUGR子代的高血压。然而,肾素 - 血管紧张素系统的激活在雄性IUGR子代中直到青春期后或已确立的IUGR诱导的高血压发展之后才会发生。因此,IUGR诱导的高血压发生机制可能与维持已确立的IUGR诱导的高血压的机制不同。因此,本研究的目的是确定肾神经在青春期前IUGR子代IUGR诱导的高血压早期发展中是否起致病作用。2. 子宫内生长受限子代和对照子代在4周龄时分别接受双侧肾去神经支配或假去神经支配。在6周龄时,对有意识的、长期植入仪器的动物测定平均动脉压(MAP)。通过肾去甲肾上腺素含量验证肾去神经支配是否充分。3. 虽然肾去神经支配对对照子代的MAP没有影响(假手术组与去神经支配组分别为103±2 mmHg和102±3 mmHg),但它降低了生长受限子代的血压(假手术组与去神经支配组分别为114±3 mmHg和104±1 mmHg;P<0.01)。与假手术大鼠相比,去神经支配动物的肾去甲肾上腺素含量显著降低。4. 因此,数据表明肾神经在IUGR诱导的高血压病因中起作用,并表明肾神经可能除了参与成年雄性IUGR子代中观察到的已确立的高血压外,还参与IUGR子代高血压的早期发展。
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