一氧化氮对除草醚诱导的胎儿肺发育不全外植体发育的影响。
Effect of nitric oxide on the development of nitrofen-induced fetal hypoplastic lung explants.
作者信息
Shinkai Masato, Shinkai Toko, Pirker Martina E, Montedonico Sandra, Puri Prem
机构信息
Children's Research Centre, Our Lady's Hospital for Sick Children and University College, Dublin 12, Ireland.
出版信息
J Pediatr Surg. 2005 Jan;40(1):17-21. doi: 10.1016/j.jpedsurg.2004.09.007.
BACKGROUND/PURPOSE: Nitric oxide (NO) is an important cell-signaling molecule, and its generators, nitric oxide synthases, are expressed temporospatially in fetal rat lung. Recently, NO has been reported to modulate branching of the fetal rat lung lobe in vitro. We designed this study to evaluate the effect of NO on the morphogenesis of hypoplastic lung using nitrofen-induced rat lung explant model.
METHODS
A hypoplastic fetal lung model and a normal control lung model were induced by feeding a pregnant rat with nitrofen (100 mg) or olive oil on day 9.5 of gestation, respectively. Fetal lungs were harvested on day 13.5 and placed in organ culture containing serum-free medium Dulbecco modified Eagle medium. An NO donor, DETA NONOate (DETA/NO), was added daily in the culture medium. The lung cultures were divided into 4 groups: group 1 (n = 8), normal controls without DETA/NO; group 2 (n = 22), normal controls with DETA/NO; group 3 (n = 13), hypoplastic lungs without DETA/NO; group 4 (n = 22), hypoplastic lungs with DETA/NO. The fetal lungs were incubated for 48 hours at 37 degrees C with 5% CO2. Lung bud count and area of the specimens were measured under computer-assisted digital tracings. The rate of increase in bud count and lung area was calculated as the ratio of each value at 48 hours minus each value at 0 hour, divided by the value at 0 hour.
RESULTS
The lung bud count was significantly increased in group 2 compared with group 1 at a concentration of 50 micromol/L DETA/NO (P < .05). In the nitrofen group, the lung bud count was significantly increased in group 4 compared with group 3 at 100 micromol/L DETA/NO added (P < .05). There was no significant difference in the rate of increase in whole lung area among the 4 groups. The peak increase rates of lung area and bud count were significantly lower in group 4 compared with group 2.
CONCLUSIONS
This study demonstrates that the NO donor, DETA/NO, promotes branching of the nitrofen-induced hypoplastic fetal lung explant. These data suggest that NO may modulate the development of the nitrofen-induced hypoplastic lung.
背景/目的:一氧化氮(NO)是一种重要的细胞信号分子,其生成酶一氧化氮合酶在胎鼠肺中呈时空表达。最近,有报道称NO在体外可调节胎鼠肺叶的分支。我们设计本研究,采用硝呋烯腙诱导的大鼠肺外植体模型,评估NO对肺发育不全肺形态发生的影响。
方法
分别在妊娠第9.5天给孕鼠喂食硝呋烯腙(100 mg)或橄榄油,诱导建立肺发育不全胎儿肺模型和正常对照肺模型。在第13.5天取出胎儿肺,置于含有无血清培养基杜尔贝科改良 Eagle 培养基的器官培养物中。每天在培养基中添加NO供体二乙三胺 NONO 酸盐(DETA/NO)。肺培养物分为4组:第1组(n = 8),未添加DETA/NO的正常对照组;第2组(n = 22),添加DETA/NO的正常对照组;第3组(n = 13),未添加DETA/NO的肺发育不全组;第4组(n = 22),添加DETA/NO的肺发育不全组。将胎儿肺在37℃、5%二氧化碳条件下孵育48小时。在计算机辅助数字描记下测量标本的肺芽计数和面积。芽计数和肺面积的增加率计算为48小时时各值减去0小时时各值的比值,再除以0小时时的值。
结果
在50 μmol/L DETA/NO浓度下,第2组的肺芽计数与第1组相比显著增加(P <.05)。在硝呋烯腙组中,添加100 μmol/L DETA/NO时,第4组的肺芽计数与第3组相比显著增加(P <.05)。4组全肺面积增加率无显著差异。第4组肺面积和芽计数的峰值增加率显著低于第2组。
结论
本研究表明,NO供体DETA/NO可促进硝呋烯腙诱导的肺发育不全胎儿肺外植体的分支。这些数据表明,NO可能调节硝呋烯腙诱导的肺发育不全肺的发育。
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