Sanchez L S, de la Monte S M, Filippov G, Jones R C, Zapol W M, Bloch K D
Cardiovascular Research Center, Department of Medicine Massachusetts General Hospital and Harvard Medical School, Boston 02114, USA.
Pediatr Res. 1998 Feb;43(2):163-8. doi: 10.1203/00006450-199802000-00002.
Increased nitric oxide (NO) production plays a critical role in the mammalian pulmonary vascular adaptation to extrauterine life. NO activates soluble guanylate cyclase, increasing intracellular cGMP concentrations, thereby inducing relaxation of vascular smooth muscle. cGMP is inactivated by cyclic nucleotide phosphodiesterases (PDEs). One PDE isozyme, PDE5, specifically hydrolyzes cGMP, is abundant in lung tissues, and modifies the pulmonary vasodilatory response to exogenous NO. To investigate the regulation of PDE5 gene expression during pulmonary development, PDE5 mRNA levels, as well as cGMP-metabolizing PDE enzyme activity, were measured in the lungs of perinatal and adult rats. RNA blot hybridization revealed that PDE5 mRNA was detectable in fetal lung tissue as early as 18.5 d of the 22-d term gestation and reached maximal levels in neonatal lungs. mRNA levels in adult rat lungs were 3-4-fold less than the levels measured in lungs of 1- and 8-d-old rats. Pulmonary cGMP hydrolytic activity in 1-d-old animals was 30-fold greater than the cGMP hydrolytic activity of adult rat lungs. Zaprinast, a specific PDE5 antagonist, inhibited 52 and 56% of cGMP hydrolytic activity in lungs of 1- and 8-d-old rats, respectively, but only 18% of the activity in adult lungs. In situ hybridization revealed that PDE5 mRNA transcripts were present in the vascular smooth muscle cells of neonatal and adult lungs. PDE5 mRNA was also detected in the alveolar walls of neonatal rat lungs. These results demonstrate that the gene encoding PDE5 is abundantly expressed in the lungs of perinatal rats, and is available to participate in the mammalian pulmonary vascular transition to extrauterine life. Extravascular PDE5 gene expression in neonatal lungs suggests a potentially important nonvascular role for this enzyme during pulmonary development.
一氧化氮(NO)生成增加在哺乳动物肺血管适应宫外生活中起关键作用。NO激活可溶性鸟苷酸环化酶,增加细胞内cGMP浓度,从而诱导血管平滑肌松弛。cGMP被环核苷酸磷酸二酯酶(PDEs)灭活。一种PDE同工酶PDE5特异性水解cGMP,在肺组织中含量丰富,并改变肺对外源性NO的血管舒张反应。为了研究肺发育过程中PDE5基因表达的调控,在围产期和成年大鼠的肺中测量了PDE5 mRNA水平以及cGMP代谢PDE酶活性。RNA印迹杂交显示,早在妊娠22天的第18.5天,胎儿肺组织中就可检测到PDE5 mRNA,并且在新生肺中达到最高水平。成年大鼠肺中的mRNA水平比1日龄和8日龄大鼠肺中测得的水平低3至4倍。1日龄动物的肺cGMP水解活性比成年大鼠肺的cGMP水解活性高30倍。扎普司特是一种特异性PDE5拮抗剂,分别抑制1日龄和8日龄大鼠肺中52%和56%的cGMP水解活性,但仅抑制成年肺中18%的活性。原位杂交显示,PDE5 mRNA转录本存在于新生和成年肺的血管平滑肌细胞中。在新生大鼠肺的肺泡壁中也检测到了PDE5 mRNA。这些结果表明,编码PDE5的基因在围产期大鼠的肺中大量表达,并可参与哺乳动物肺血管向宫外生活的转变。新生肺中血管外PDE5基因表达表明该酶在肺发育过程中可能具有重要的非血管作用。
