Oxidation-reduction (redox) controls fetal hypoplastic lung growth.

The Journal of surgical research Pub Date : 2002-08-01 DOI:10.1006/JSRE.2002.6461

J. Fisher, D. E. Kling, T. Kinane, J. Schnitzer

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引用次数: 33

Abstract

INTRODUCTION The persistent morbidity and mortality of congenital diaphragmatic hernia are largely due to associated pulmonary hypoplasia. We have shown previously that three antioxidants (vitamin C, glutathione, and vitamin E) could accelerate the growth of fetal hypoplastic lungs grown in culture. We hypothesize that this occurs via a reductant mechanism. METHODS Timed-pregnant rats were gavage-fed nitrofen (100 mg) on day 9.5 of gestation (term = day 22). Fetal lungs were harvested on day 13.5 and placed in organ culture containing serum-free BGJb medium with antibiotics. After randomization, the lung organ cultures were divided into a control group (n = 31) and an experimental group that received the antioxidant N-acetylcysteine (NAC, 100 microM, n = 31). The fetal lung organ cultures were grown for 4 days at 37 degrees C with 5% CO(2). Computer-assisted digital tracings of the airways were performed daily on live, unstained specimens, and lung bud count, perimeter, and area were measured. After 4 days, lungs were pooled, homogenized, and assayed for reduced and oxidized glutathione, normalized to protein, as an estimate of the tissue redox potential. Data were expressed as means +/- SEM, and statistical comparisons were performed using Student's unpaired t test, with P < 0.05 considered significant. RESULTS Area, perimeter, lung bud count, and complexity (as measured by the perimeter/square root of area) were all significantly increased with NAC treatment from day 2 onward. Reduced glutathione levels were significantly increased following NAC administration (67.1 +/- 5.8 versus 37.5 +/- 4.2 micromol/mg, P = 0.0004). The ratio of reduced to oxidized glutathione was 2.23. CONCLUSIONS N-Acetylcysteine stimulates nitrofen-induced hypoplastic fetal lung growth in organ culture and increases the ratio of reduced to oxidized glutathione. These data support the concept that oxidation-reduction (redox) may be an important control mechanism for fetal lung growth.

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氧化还原(氧化还原)控制胎儿肺发育不良。

先天性膈疝的持续发病率和死亡率主要是由于相关的肺发育不全。我们之前已经证明，三种抗氧化剂(维生素C、谷胱甘肽和维生素E)可以加速培养的胎儿肺发育不良的生长。我们假设这是通过还原剂机制发生的。方法于妊娠第9.5天(第22天)灌胃硝芬100 mg。第13.5天采集胎儿肺，置于含抗生素的无血清BGJb培养基的器官培养中。随机分组后，将肺器官培养物分为对照组(n = 31)和试验组(n -乙酰半胱氨酸，100微米，n = 31)。胎儿肺器官培养物在37℃、5% CO(2)下培养4天。每天对活的、未染色的标本进行气道计算机辅助数字示踪，并测量肺芽计数、周长和面积。4天后，肺池，均质，并测定还原和氧化谷胱甘肽，归一化为蛋白质，作为组织氧化还原电位的估计。数据以均数+/- SEM表示，采用Student’s unpaired t检验进行统计学比较，以P < 0.05为差异有统计学意义。结果从第2天开始，NAC治疗后肺面积、周长、肺芽数和复杂性(以周长/面积平方根测量)均显著增加。NAC给药后还原性谷胱甘肽水平显著升高(67.1 +/- 5.8 vs 37.5 +/- 4.2 micromol/mg, P = 0.0004)。还原谷胱甘肽与氧化谷胱甘肽的比值为2.23。结论n-乙酰半胱氨酸刺激器官培养中硝芬诱导的发育不全胎儿肺生长，提高还原性谷胱甘肽与氧化性谷胱甘肽的比值。这些数据支持氧化还原(氧化还原)可能是胎儿肺生长的重要控制机制的概念。

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The Journal of surgical research

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