Department of Pathology, Women and Infants Hospital, and Department of Pathology and Laboratory Medicine, Alpert Medical School of Brown University, Providence, Rhode Island 02905, USA.
Pediatr Res. 2010 Jul;68(1):57-62. doi: 10.1203/PDR.0b013e3181e084af.
We determined the time-specific effects of FasL overexpression on perinatal alveolar type II cell growth kinetics. To achieve temporal overexpression of respiratory epithelium-specific FasL expression, tetracycline inducible CCSP-rtTA/FasL-TetOp transgenic mice were given doxycycline (Dox) from gestational d 14 (E14) to E19 (antenatal treatment group), from postnatal d 1 (P1) to P7 (postnatal group), or from E14 to P7 (combined antenatal and postnatal group). Antenatal Dox administration induced an increase of pulmonary FasL mRNA levels in double transgenic animals up to >300-fold over single transgenic littermate controls, associated with massive fetal respiratory epithelial apoptosis and excessive postnatal lethality. Although animals from the combined antenatal/postnatal Dox treatment group continued to display evidence of increased apoptosis, there was a paradoxical increase in alveolar type II cell proliferation, resulting in a net increase in type II cell density, elevated pulmonary surfactant protein C levels and improved postnatal survival. Postnatal Dox administration was also associated with increased type II cell density, although FasL up-regulation was more variable. In conclusion, these results, and our previous studies, suggest that FasL signaling has dual timing-dependent proapoptotic and proproliferative effects on postcanalicular type II cell kinetics.
我们确定了 FasL 过表达对围产期肺泡 II 型细胞生长动力学的时间特异性影响。为了实现呼吸上皮细胞特异性 FasL 表达的时间过表达,给予 tetracycline 诱导的 CCSP-rtTA/FasL-TetOp 转基因小鼠从妊娠第 14 天(E14)到第 19 天(产前治疗组)、从出生后第 1 天(P1)到第 7 天(产后组)或从 E14 到 P7(联合产前和产后组)给予强力霉素(Dox)。产前 Dox 给药诱导双转基因动物的肺 FasL mRNA 水平增加超过单转基因同窝对照的 >300 倍,与胎儿呼吸上皮细胞凋亡大量增加和过度的产后致死率相关。尽管来自联合产前/产后 Dox 处理组的动物继续显示出增加的凋亡证据,但肺泡 II 型细胞增殖出现了反常增加,导致 II 型细胞密度增加、肺表面活性蛋白 C 水平升高和产后存活率提高。产后 Dox 给药也与 II 型细胞密度增加相关,尽管 FasL 上调更为多变。总之,这些结果和我们之前的研究表明,FasL 信号对后导管期 II 型细胞动力学具有双重时间依赖性促凋亡和促增殖作用。