Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:Q9UIJ5 (Rec)
 58,342 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Maternal administration of glucocorticoids is known to stimulate fetal lung maturation. In the present study, we used microscopy and stereology to evaluate the morphological effects of maternal glucocorticoid treatment on rabbit fetal lung tissue. Betamethasone was administered to pregnant rabbits on days 25 and 26 of gestation at a dose of 0.2 mg/kg body weight. The animals were sacrificed on day 27 of gestation. Glucocorticoid treatment significantly increased the presumptive airspace in the fetal lung tissue but did not alter the relative proportion of epithelium, connective tissue, or vasculature in the tissue. In addition, glucocorticoid treatment significantly increased the proportion of type II cells in the prealveolar epithelium, increased the rate of phosphatidylcholine synthesis, and increased the content of the major surfactant-associated protein, SP-A, in the fetal lung tissue. We could detect no effect of betamethasone on lamellar body cross-sectional area, numerical density, or volume density within fetal lung type II cells. Glucocorticoid treatment of the pregnant doe caused a decrease in the volume density of intracellular glycogen and an increase in the volume density of mitochondria in fetal lung type II cells. Betamethasone treatment did not alter the distance between fetal lung epithelial cells and subadjacent connective tissue cells. However, glucocorticoid treatment increased the number of connective tissue foot processes that pierced the epithelial basal lamina. Thus, glucocorticoid treatment of the pregnant doe results in structural changes in the fetal lung tissue, an acceleration of some aspects of type II cell differentiation, and a concomitant increase in epithelial-mesenchymal interactions.
Anat Rec 1992 Jan
PMID:Glucocorticoid effects on rabbit fetal lung maturation in vivo: an ultrastructural morphometric study. 153 58

The effects of a maternally administered synthetic glucocorticoid, betamethasone, on the levels of mRNA for the surfactant proteins SP-A, SP-B, and SP-C and on the levels of SP-A protein were investigated in day 27 gestational age rabbit fetal lung tissue. Betamethasone administration to the pregnant rabbit caused approximately a twofold increase in the fetal lung level of SP-A protein and a threefold increase in fetal lung SP-A mRNA levels when compared to levels in fetuses obtained from saline-treated or uninjected animals. SP-B mRNA was increased fourfold in fetal lung tissue obtained from glucocorticoid-treated pregnant does when compared to levels in fetuses of uninjected pregnant does. However, SP-B mRNA levels in fetal lung tissue from saline-injected controls were also significantly elevated, approximately twofold, when compared to fetal lung SP-B mRNA levels in the uninjected control condition. SP-C mRNA levels in lung tissue of fetuses from both saline-injected and betamethasone-injected pregnant does were increased similarly, approximately twofold, over SP-C mRNA levels in fetal lung tissue obtained from uninjected control does. These data are suggestive that betamethasone treatment increases fetal lung SP-A and SP-B mRNA levels and that maternal stress alone can increase the expression of SP-B and SP-C mRNA in rabbit fetal lung tissue. Using in situ hybridization, SP-A mRNA was shown to be present primarily in alveolar type II cells in fetuses of control and saline-injected does. However, SP-A mRNA was easily detected in both alveolar type II cells and bronchiolar epithelial cells of rabbit fetal lung tissue following maternal betamethasone treatment. In contrast, SP-B and SP-C mRNA were present only in alveolar type II cells of lung tissue obtained from fetuses of control, saline, or betamethasone-treated does. Thus maternal administration of glucocorticoids increased SP-A protein as well as SP-A and SP-B mRNA levels in rabbit fetal lung tissue. SP-A mRNA was localized to both alveolar type II cells and in smaller amounts in bronchiolar epithelial cells of rabbit fetal lung tissue. However, SP-B and SP-C mRNA were detected only in alveolar type II cells.
Anat Rec 1993 Nov
PMID:Glucocorticoid regulation of surfactant-associated proteins in rabbit fetal lung in vivo. 829 90