Acarregui M J, Snyder J M, Mitchell M D, Mendelson C R
Department of Biochemistry, University of Texas Southwestern Medical Center, Dallas 75235-9038.
Endocrinology. 1990 Sep;127(3):1105-13. doi: 10.1210/endo-127-3-1105.
We previously have observed that dexamethasone has a biphasic effect on surfactant protein A (SP-A) mRNA levels in human fetal lung in vitro. At concentrations of 10(-10)-10(-9) M, dexamethasone increases the levels of SP-A mRNA, whereas, at concentrations greater than 10(-8) M, the steroid is markedly inhibitory. In studies to define the molecular mechanisms for these effects, we observed that dexamethasone causes a dose-dependent stimulation of SP-A gene transcription, but paradoxically causes a dose-dependent inhibition of SP-A mRNA stability. In light of the well-characterized inhibitory effect of glucocorticoids on prostaglandin (PG) synthesis in a number of tissues, it was our objective in the present study to investigate the role of PGs on SP-A gene expression in human fetal lung in vitro and to determine whether the action of dexamethasone (greater than 10(-8) M) to reduce SP-A mRNA levels could be mediated by its effect to inhibit PG synthesis. We found that dexamethasone 10(-7) M) caused a marked decrease in the secreted levels of the PGE2 and PGF2 alpha, the prostacyclin metabolite, 6-keto-PGF1 alpha, and the thromboxane A2 metabolite, thromboxane B2. Indomethacin, which also caused a pronounced reduction in the levels of these secreted prostanoids, had a marked effect to reduce SP-A mRNA levels in human fetal lung in vitro. The inhibitory effects of indomethacin were associated with an 73% reduction in cAMP formation by the fetal lung in culture, and were prevented by simultaneous incubation with dibutyryl cAMP or with PGE2. PGE2 markedly increased cAMP formation by the human fetal lung tissue incubated in the absence or presence of indomethacin. Inhibitory effects of dexamethasone and indomethacin also were observed on two morphological indices of lung differentiation, alveolar lumenal volume density, and lamellar body volume density. PGE2 significantly increased lumenal volume density of the human fetal lung explants. The finding that the inhibitory action of dexamethasone (10(-7) M) on SP-A mRNA levels could not be prevented by simultaneous incubation with either PGE2 or dibutyryl cAMP and that dexamethasone had no apparent effect on cAMP formation by the fetal lung in vitro is suggestive that the action of dexamethasone (greater than or equal to 10(-8) M) to reduce SP-A mRNA levels is mediated at least in part by actions alternative to its inhibitory effects on PG synthesis.(ABSTRACT TRUNCATED AT 400 WORDS)
我们之前观察到,地塞米松对体外培养的人胎肺表面活性蛋白A(SP-A)的mRNA水平有双相作用。在10^(-10)-10^(-9) M的浓度下,地塞米松可增加SP-A mRNA的水平,而在浓度高于10^(-8) M时,该类固醇则具有明显的抑制作用。在确定这些作用的分子机制的研究中,我们观察到地塞米松可引起SP-A基因转录的剂量依赖性刺激,但矛盾的是,它会导致SP-A mRNA稳定性的剂量依赖性抑制。鉴于糖皮质激素在许多组织中对前列腺素(PG)合成具有明确的抑制作用,我们在本研究中的目的是调查PGs在体外人胎肺SP-A基因表达中的作用,并确定地塞米松(大于10^(-8) M)降低SP-A mRNA水平的作用是否可由其抑制PG合成的作用介导。我们发现,10^(-7) M的地塞米松可使PGE2、PGF2α、前列环素代谢产物6-酮-PGF1α和血栓素A2代谢产物血栓素B2的分泌水平显著降低。吲哚美辛也可使这些分泌的前列腺素水平显著降低,它对体外培养的人胎肺中SP-A mRNA水平有显著的降低作用。吲哚美辛的抑制作用与培养的胎肺中cAMP生成减少73%有关,并且可通过与二丁酰cAMP或PGE2同时孵育来预防。PGE2可显著增加在无或有吲哚美辛存在的情况下孵育的人胎肺组织中的cAMP生成。地塞米松和吲哚美辛对肺分化的两个形态学指标,即肺泡腔容积密度和板层小体容积密度也有抑制作用。PGE2可显著增加人胎肺外植体的腔容积密度。与PGE2或二丁酰cAMP同时孵育不能阻止地塞米松(10^(-7) M)对SP-A mRNA水平的抑制作用,并且地塞米松对体外培养的胎肺中cAMP生成无明显影响,这表明地塞米松(大于或等于10^(-8) M)降低SP-A mRNA水平的作用至少部分是由其对PG合成的抑制作用以外的作用介导的。(摘要截短至400字)
