Previous studies have shown that triiodothyronine (T3) enhances the effect of dexamethasone on phosphatidylcholine (PC) synthesis in organ cultures of fetal rat lung. The aim of this study was to investigate whether similar interactions occurred in vivo and to explore possible mechanisms for this phenomenon. Injection of 7.0 mg/kg T3 into pregnant rats on d 18 and 19 of gestation resulted in a mean fetal serum T3 level of 2380 ng/dl on d 20 (control, 84 ng/dl) and in maximal (34%) stimulation of choline incorporation into PC. Injection of 1.0 mg/kg betamethasone using the same protocol as for T3 resulted in maximal stimulation of 33% and administration of both hormones together produced a 69% increase, an additive affect. The percentage of PC that was disaturated was increased with betamethasone, but decreased with T3. Betamethasone treatment resulted in an increase in the whole lung disaturated PC content, but treatment with T3 did not. Betamethasone administration also increased fetal serum T3 levels, but T3 injection did not produce elevated fetal serum corticosterone levels. Injection of T3 in vivo, or exposure of explants of 18-d fetal lung to 100 nm T3 for up to 48 h did not result in an increase in cytoplasmic glucocorticoid binding or nuclear translocation of the receptor steroid complex. Exposure of explants to glucocorticoid or T3 in vivo or in culture (dexamethasone, 100 nM and T3, 100 nM; for 48 h) resulted in a significant increase in the activity of cholinephosphate cytidylyltransferase, an enzyme in the choline incorporation pathway of PC synthesis.(ABSTRACT TRUNCATED AT 250 WORDS)
Epidermal growth factor (EGF) has been shown to enhance cell multiplication or differentiation in a number of developing tissues. We have examined the effects of this growth factor on the biochemical development of explants of fetal rat lung, cultured in serum-free medium for 48 h. EGF enhanced the rate of choline incorporation into phosphatidylcholine and disaturated phosphatidylcholine in a dose dependent fashion. Half maximal stimulation occurred at a concentration of 1.0 nM, similar to the Kd for EGF binding to rat lung cell membranes. There was also significant stimulation of acetate incorporation into all phospholipids, particularly phosphatidylglycerol (539%), and increased distribution of radioactivity from acetate in this phospholipid fraction. Exposure to EGF stimulated PC synthesis in 18- and 19-day explants (term is 22 days) whereas maximal enhancement of DNA synthesis occurred after this time. This sequence differs from that observed during early embryonic development when EGF initially enhances cell multiplication. An additive interaction with regard to enhancement of PC synthesis was observed with EGF and thyroid hormone, but not EGF and dexamethasone. EGF had no effect on the activity of the enzymes of the choline incorporation pathway of phosphatidylcholine synthesis or on the activity of enzymes involved with acidic phospholipid synthesis. Fetal lung EGF content and EGF binding capacity were not increased by glucocorticoid treatment and similarly glucocorticoid binding capacity was not increased by EGF. These data indicate that EGF enhances fetal rat lung phospholipid synthesis in a dose-dependent manner and suggest that this is a direct effect on the lung tissue mediated by specific receptors.
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