Effects of oligohydramnios on lung growth and maturation in the fetal rat

Oligohydramnios (OH) retards fetal lung growth by producing less lung distension than normal. To examine effects of decreased distension on fetal lung development, we produced OH in rats by puncture of uterus and fetal membranes at 16 days of gestation; fetuses were delivered at 21 or 22 days of gestation. Controls were position-matched littermates in the opposite uterine horn. OH lungs had lower weights and less DNA, protein, and water, but no differences in saturated phosphatidylcholine, surfactant proteins (SP)-A and -B, and mRNA for SP-A, -B, -C, and -D. To evaluate effects on epithelial differentiation, we used RTI(40) and RTII(70), proteins specific in lung to luminal surfaces of alveolar type I and II cells, respectively. At 22 days of gestation, OH lungs had less RTI(40) mRNA (P < 0.05) and protein (P < 0.001), but RTII(70) did not differ from controls. With OH, type I cells (in proportion to type II cells) covered less distal air space perimeter (P < 0.01). We conclude that OH, which retards lung growth, has little effect on surfactant and impedes formation of type I cells relative to type II cells.     

Cigarette smoke ventilation decreases prostaglandin inactivation in rat and hamster lungs

The effects of cigarette smoke on the metabolism of exogenous PGE₂ and PGF_2α were investigated in isolated rat and hamster lungs. When isolated lungs from animals were ventilated with cigarette smoke during pulmonary infusion of 100 nmol of PGE₂ or PGF_2α, the amounts of the 15-keto-metabolites in the perfusion effluent were decreased. Pre-exposure of animals to cigarette smoke daily for 3 weeks did not change the metabolism of PGE₂ when the lungs were ventilated with air. Cigarette smoke ventilation of lungs from pre-exposed animals caused, however, a similar decrease in the metabolism of PGE₂ as in animals not previously exposed to smoke. After pulmonary injection of 10 nmol of ¹⁴C-PGE₂ the radioactivity appeared more rapidly in the effluent during cigarette smoke ventilation suggesting inhibition of the PGE₂ uptake mechanism. In rat lungs pulmonary vascular pressor responses to PGE₂ and PGF_2α were inhibited by smoke ventilation.     

Supercritical fluid-aerosolized vitamin E pretreatment decreases leak in isolated oxidant-perfused rat lungs

Hybertson, Brooks M., Roger P. Kitlowski, Eric K. Jepson,and John E. Repine. Supercritical fluid-aerosolized vitamin Epretreatment decreases leak in isolated oxidant-perfused rat lungs.J. Appl. Physiol. 84(1): 263-268, 1998.We hypothesized that direct pulmonary administration ofsupercritical fluid-aerosolized (SFA) vitamin E would decrease acuteoxidative lung injury. We previously reported that rapid expansion ofsupercritical CO₂ formedrespirable particles of vitamin E and that administering SFA vitamin Eto rats increased lung vitamin E levels and decreased neutrophil-mediated lung leak. In the present investigation, we foundthat pretreatment with SFA vitamin E protected isolated rat lungsagainst the oxidant-induced lung leak caused by perfusion with xanthineoxidase (XO) and purine, an enzyme system that generates superoxideanion () and hydrogenperoxide. SFA vitamin E droplets were 0.7-3 µm in diameter, andinhalation of the airborne droplets for 30 min deposited ~55 µg ofvitamin E in rat lungs. Isolated rat lungs perfused with XO (0.02 U/ml) and purine (10 mM) gained more weight (1.75 ± 0.12 g,n = 8), retained more Ficoll(11.5 ± 1.2 mg/left lung,n = 7), and accumulated more Ficoll intheir lung lavages (700 ± 146 µg/ml,n = 8) than control lungs [0.25 ± 0.06 g (n = 10), 6.2 ± 1.2 mg/left lung (n = 9), and 141 ± 31 µg/ml (n = 8), respectively,P < 0.05]. In contrast,isolated lungs from rats that were pretreated with SFA vitamin E haddecreased (P < 0.05) weight gains(0.32 ± 0.06 g, n = 7), Ficollretentions (3.3 ± 1.1 mg/left lung,n = 7), and lung lavage Ficollconcentrations (91 ± 26 µg/ml,n = 6) after perfusion with XO andpurine compared with isolated lungs from control rats perfused with XOand purine. This protective effect was not observed in rat lungs givensham treatments (CO₂ alone orvitamin E acetate aerosolized with supercriticalCO₂). Our results suggest thatdirect pulmonary supplementation of vitamin E decreases susceptibilityto vascular leakage caused by XO-derived oxidants.

     

Long bone development in extrinsic fetal akinesia: an experimental study in rat fetuses subjected to oligohydramnios.

The transverse growth of long bones during intrauterine development was studied in rat fetuses subjected to experimental oligohydramnios in order to determine whether the skeletal changes, if any, in extrinsic fetal akinesia were similar to those observed in curarized rat fetuses with the fetal akinesia deformation sequence. Oligohydramnios was induced by daily extraction of amniotic fluid from day 17 of gestation until term. Experimental fetuses were compared with a sham-operated control group. The total area and perimeter, the absolute and relative amount of periosteum and bone trabeculae, the major and minor axes, and the elongation factor were measured in histological cross sections of the femoral metaphysis and diaphysis with an IBAS 1 image analysis system. Rat fetuses in the experimental group showed multiple articular contractures, redundant skin, and lung hypoplasia, a phenotype consistent with the oligohydramnios sequence. No alterations in femoral shape and transverse growth of the metaphysis and diaphysis were noted in these fetuses. These results suggest that the main mechanical factor related to fetal bone modeling is muscular strength, while motion would be mainly involved in fetal joint development.     

Angiopoietin-1 and VEGF in vascular development and angiogenesis in hypoplastic lungs

We hypothesized that exposure of murine fetuses to environmental toxins, such as nitrofen, during early embryogenesis alters vasculogenesis. To address our hypothesis, we assessed protein levels of endothelial cell-selective angiogenic factors: angiopoietin (ANG)-1, vascular endothelial growth factor (VEGF), and mediator of VEGF signaling, VEGF receptor-2 [fetal liver kinase (Flk)-1], a transmembrane receptor tyrosine kinase. VEGF and Flk-1 proteins were lower in hypoplastic lungs from pseudoglandular to alveolar stages than in normal lungs at equivalent developmental time points significant for induction of pulmonary vasculogenesis and angiogenesis. ANG-1 protein was higher in hypoplastic lungs than in normal lungs at all the developmental stages considered in this study, i.e., pseudoglandular, canalicular, saccular, and alveolar stages. We assessed exogenous VEGF-mediated endothelial cell response on extracellular signal-regulated kinase (ERK) 1/2, also referred to as p44/42 mitogen-activated protein kinase. Hypoplastic lungs had more elevated ERK 1/2 protein than normal developing lungs. Exposure to exogenous VEGF activated ERK 1/2 in normal developing lungs but not in hypoplastic lungs. Our results suggest that in hypoplastic lungs: 1) low VEGF signifies negative effects on vasculogenesis/angiogenesis and indicates altered endothelial-mesenchymal interactions; 2) increased ANG-1 protein may be required to maintain vessel integrity and quiescence; and 3) regulation of ERK 1/2 protein is affected in hypoplastic lungs. We speculate that extensive remodeling of blood vessels in hypoplastic lungs may occur to compensate for structurally and functionally defective vasculature.     

Conversion of lamellar body membranes into tubular myelin in alveoli of fetal rat lungs

Fluid-filled lumina of fetal rat lungs contain lamellar bodies (LBs) as well as tubular myelin (TM), both of which are thought to be stores of phospholipid-rich pulmonary surfactant. The alveolar epithelium is believed to secrete LBs, but neither the origin nor the mechanism of TM formation is entirely certain. The main objective of this study was to determine the relationship between secreted LBs and TM and to define membrane phenomena which occur during TM formation. I examined lung tissues of 20-21 day-old fetuses (day 22 = term) using transmission and high voltage transmission electron microscopy and cytochemistry. My findings indicate that secreted LBs, identified by the presence of an acid-phosphatase reactive core, are the precursor of TM. Secreted LBs are highly organized structures which contain structurally specialized areas, one of which is a "mini-lattice" structure similar to TM. During TM formation, fuzzes or 8.0-nm diameter particles appear on transition membranes, although LB membranes appear to lack both structures. Similar particles are present on TM membranes and are generally associated with membrane intersections. My results provide evidence that TM is formed from LBs within the alveolar lumen by mechanisms which may be complex.     

16,16 Dimethyl prostaglandin E2 decreases the formation of collagen in fibrotic rat liver slices

The effect of 16,16 dimethyl prostaglandin E2 (DMPG) on fibrogenesis was studied in slices from normal and fibrotic rat liver. Rats received a cirrhogenic diet for seven months; supplemented controls received a diet with the deficient nutrients restored. Slices from fibrotic livers incorporated more 14C-proline and produced more 14C-hydroxyproline in TCA precipitable proteins than slices from control livers. DMPG (10(-10) M) decreased the incorporation of labeled proline and the synthesis of labeled hydroxyproline in slices from fibrotic livers to the same extent, suggesting that DMPG did not affect the hydroxylation of proline per se. The magnitude of the DMPG induced decrease in labeled proline incorporation correlated with the hydroxyproline content in the liver (i.e. with increasing fibrosis there was a greater effect of DMPG: while in control rat liver slices, DMPG had no effect). DMPG did not change the size of the proline pool, its specific activity, or the activity of proline oxidase. We conclude that under these conditions of enhanced fibrogenesis, DMPG decreases the formation of collagen in vitro, possibly by lowering the incorporation of proline into collagen precursors. This may explain, at least in part, the inhibition of fibrogenesis by DMPG in vivo.     

Effects of acute oligohydramnios on respiratory system of fetal sheep.

Prolonged oligohydramnios, or a lack of amniotic fluid, is associated with pulmonary hypoplasia and subsequent perinatal morbidity, but it is unclear whether short-term or acute oligohydramnios has any effect on the fetal respiratory system. To investigate the acute effects of removal of amniotic fluid, we studied nine chronically catheterized fetal sheep at 122-127 days gestation. During a control period, we measured the volume of fluid in the fetal potential airways and air spaces (VL), production rate of that fluid, incidence and amplitude of fetal breathing movements, tracheal pressures, and fetal plasma concentrations of cortisol, epinephrine, and norepinephrine. We then drained the amniotic fluid for a short period of time [24-48 h, 30.0 +/- 4.0 (SE) h] and repeated the above measurements. The volume of fluid drained for the initial studies was 1,004 +/- 236 ml. Acute oligohydramnios decreased VL from 35.4 +/- 2.9 ml/kg during control to 22.0 +/- 1.6 after oligohydramnios (P less than 0.004). Acute oligohydramnios did not affect the fetal lung fluid production rate, fetal breathing movements, or any of the other measured variables. Seven repeat studies were performed in six of the fetuses after reaccumulation of the amniotic fluid at 130-138 days, and in four of these studies the lung volume also decreased, although the overall mean for the repeat studies was not significantly different (27.0 +/- 5.2 ml/kg for control vs. 25.5 +/- 5.5 ml/kg for oligohydramnios). Again, none of the other measured variables were altered by oligohydramnios in the repeat studies.(ABSTRACT TRUNCATED AT 250 WORDS)     

Extrinsic fetal akinesia and skeletal development: a study in oligohydramnios sequence

Long-bone morphometry and cephalometry were performed in 13 newborns with oligohydramnios sequence (OS) in order to establish whether or not skeletal changes existed in extrinsic fetal akinesia similar to those observed in the fetal akinesia deformative sequence (FADS) (i.e., hypoplastic long bones and micrognathia). Oligohydramnios sequence was caused by bilateral renal agenesis in five cases and obstructive uropathy in eight cases. Twenty-one stillborns and newborns who had died from conditions other than renal anomalies or congenital malformations were used as controls. Normal longitudinal and periosteal long-bone growth and absence of micrognathia were found in OS patients. Skeletal differences between FADS and OS may be explained not only by timing, duration, and degree of reduced motility but also, and more importantly, by the normal muscular stress in OS patients.     

Decline in lung liquid volume and secretion rate during oligohydramnios in fetal sheep

Reduced amniotic fluid volume often results in fetal lung hypoplasia. Our aim was to examine the effects of prolonged drainage of amniotic and allantoic fluids on lung liquid volume (Vl), secretion rate (Vs), and tracheal flow rate (Vtr) in fetal sheep. In five experimental animals, amniotic and allantoic fluids were drained from 107 to 135 days of gestation. The volume of fluid drained from the experimental animals was 411.8 +/- 24.4 ml/day (n = 140). In six control animals, amniotic fluid volume was 747.7 +/- 89.7 ml (n = 15). Wet and dry lung weights were 20-25% lower in experimental fetuses than in control fetuses. Fetal hemoglobin, O2 saturation, arterial PO2, pH, and hematocrit were unchanged by drainage. During the drainage period, Vl was up to 65% lower, Vs was up to 35% lower, and Vtr was up to 40% lower in experimental fetuses than in control fetuses. We conclude that prolonged drainage of amniotic and allantoic fluids decreases Vl, Vs, and Vtr in fetal sheep. These findings indicate that fetal lung hypoplasia associated with oligohydramnios may be the result of a prolonged reduction in Vl.     

The influence of oligohydramnios on thoracic dimensions of fetal sheep.

Oligohydramnios frequently leads to lung hypoplasia in the fetus, but the underlying mechanisms are incompletely understood. Our aim was to determine the effects of oligohydramnios on the dimensions of the fetal thorax. Using pairs of implanted ultrasound transducers in 6 fetal sheep, we measured 4 thoracic dimensions (transverse, anterior-posterior, manubrium to left and right hand sides of the diaphragmatic dome) for 2 control days, 3 days of amniotic and allantoic fluid drainage (oligohydramnios), and 2 days after the return of drained fluids. The effect of oligohydramnios, which began at 121-2 days of gestation (term being c.145 days), on each dimension was quantified daily as the difference between the measured value and the value predicted from the growth of that dimension over the study period. Oligohydramnios led, within 48 hours, to significant reductions in the transverse dimension (5.9-6.1%) and in the distance between the manubrium and the dome of the diaphragm (1.7-2.2%). There was no change in the anterior-posterior dimension. We conclude that oligohydramnios causes alterations, within 48 hours, in the dimensions of the fetal thorax which can be reversed, at least partially, by re-expansion of the fluid sacs. These changes, which are expected to produce reductions in thoracic volume, may, if prolonged, lead to lung hypoplasia.     

Metabolism of testosterone in human,rat and rabbit fetal lungs and in rabbit neonatal lung in vitro

• 1.1. Metabolism of 4-¹⁴C-testosterone was investigated in human, rat and rabbit fetal lung subcellular fractions and also in rabbit neonatal lungs. Androst-4-ene-3,17-dione, 17β-hydroxy-5α-androstan-3-one and both 5α- and 5β-androstane-3α,17β-diols were identified as metabolites of testosterone.
• 2.2. The microsomal fraction produced mainly 5α-reduced epimers while the cytosol incubations resulted in 5β-reduced metabolites.
• 3.3. No conjugation was found.
• 4.4. The amounts of polar metabolites in the microsomal incubations and the amounts of dihydroxy-lated metabolites in the soluble fraction incubations were statistically significantly greater in the neonatal rabbit lung incubations compared with those of fetal lungs.

     

Halothane decreases both tissue and airway resistances in excised canine lungs

Studies of the anesthetic effects on the airway often use pulmonary resistance (RL) as an index of airway caliber. To determine the effects of the volatile anesthetic, halothane, on tissue and airway components of RL, we measured both components in excised canine lungs before and during halothane administration. Tissue resistance (Rti), airway resistance (Raw), and dynamic lung compliance (CL, dyn) were determined at constant tidal volume and at ventilatory frequencies ranging from 5 to 45 min-1 by an alveolar capsule technique. Halothane decreased RL at each breathing frequency by causing significant decreases in both Raw and Rti but did not change the relative contribution of Rti to RL at any frequency. Halothane increased CL,dyn at each breathing frequency, although there was little change in the static pressure-volume relationship. The administration of isoproterenol both airway and tissue components of RL; it may act by relaxing the contractile elements in the lung. Both components must be considered when the effects of volatile anesthetics on RL are interpreted.     

MEK-1/2 inhibition reduces branching morphogenesis and causes mesenchymal cell apoptosis in fetal rat lungs

The roles of the mitogen-activated protein (MAP) kinases extracellular signal-regulated kinases-1 and -2 (ERK-1/2) in fetal lung development have not been extensively characterized. To determine if ERK-1/2 signaling plays a role in fetal lung branching morphogenesis, U-0126, an inhibitor of the upstream kinase MAP ERK kinase (MEK), was added to fetal lung explants in vitro. Morphometry as measured by branching, area, perimeter, and complexity were significantly reduced in U-0126-treated lungs. At the same time, U-0126 treatment reduced ERK-1/2, slightly increased p38 kinase, but did not change c-Jun NH(2)-terminal kinase activities, indicating that U-0126 specifically inhibited the ERK-1/2 enzymes. These changes were associated with increased apoptosis as measured by terminal deoxynucleotidyl transferase-mediated dUTP nick end labeling and immunofluorescent labeling of anti-active caspase-3 in the mesenchyme of explants after U-0126 treatment compared with the control. Mitosis characterized by immunolocalization of proliferating cell nuclear antigen was found predominantly in the epithelium and was reduced in U-0126-treated explants. Thus U-0126 causes specific inhibition of ERK-1/2 signaling, diminished branching morphogenesis, characterized by increased mesenchymal apoptosis, and decreased epithelial proliferation in fetal lung explants.     

Neuro-epithelial bodies in organ cultures of fetal rabbit lungs

Lung explants from fetal rabbit at the late glandular stage of development (20 days' gestation) and near term (31 days' gestation) were maintained in organ culture for up to 22 days. They were studied by light and electron microscopy to determine whether neuro-epithelial bodies (NEB) of the lung retain structural integrity in vitro. Cultured NEB retained argyrophilia and specific amine fluorescence after formaldehyde condensation. Their ultrastructural morphology showed some differences from that of uncultured NEB: the terminal axons had degenerated and the secretory granules (dense-core vesicles, DCV) were slightly larger, more pleomorphic, more electron-dense, and redistributed throughout the cytoplasm rather than being confined chiefly to the basal regions. These changes, together with hypertrophy of Golgi zones, suggest increased synthesis and storage of secretory products in the DCV during culture. In NEB from near-term explants cultured for 7 days and incubated with reserpine, the core of DCV decreased in size and electron-density and became finely granular, a sign of amine release. Ca++ ionophore No. A-23187, also, induced changes in the ultrastructure of DCV, suggesting that the secretory process in lung neuro-endocrine cells, as in other secretory cells, is Ca++-dependent.     

Spatial distribution of collagen and elastin fibers in the lungs

Surface tension forces acting on the thin-wall alveolar septa and the collagen-elastin fiber network are major factors in lung parenchymal micromechanics. Quantitative serial section analysis and morphometric evaluations of planar sections were used to determine the spatial location of collagen and elastin fibers in Sprague-Dawley rat and normal human lung samples. A large concentration of connective tissue fibers was located in the alveolar duct wall in both species. For rats, the tissue densities of collagen and elastin fibers located within 10 microns of an alveolar duct were 13 and 9%, respectively. In human lung samples, the tissue densities of collagen and elastin fibers within 20 microns of an alveolar duct were 18 and 16%, respectively. In both species, bands of elastin fibers formed a continuous ring around each alveolar mouth. In human lungs, elastin fibers were found to penetrate significantly deeper into alveolar septal walls than they did in rat lungs. The concentration of connective tissue elements in the alveolar duct walls of both species is consistent with their proposed roles as the principal load-bearing elements of the lung parenchyma.     

Type V collagen. Quantitation in normal lungs and in lungs of rats with bleomycin-induced pulmonary fibrosis

Type V collagen was first isolated in 1976; there is still controversy as to how many molecular species of type V collagen exist. Although its structural and functional roles remain unclear, reports of changes in the relative amount of type V collagen from that present in normal tissue have been reported in such diverse pathologic conditions as atherosclerotic aortas, prolapsed mitral valves, and fibrotic lungs. Methods for quantitating type V collagen relative to other collagens have consisted of solubilizing the collagen with pepsin and then analyzing the ratios of the intact chains by gel electrophoresis or by column chromatography. In tissues in which only a small percentage of the total collagen can be solubilized by pepsin, such analyses may not accurately reflect changes in the total collagen present. In this report, a method for quantitating type V collagen relative to types I and III collagens based on CNBr peptide mapping is presented. CNBr solubilizes virtually all the collagen present in any tissue. The method is applied to a model of bleomycin-induced pulmonary fibrosis in rats. It was found that type I collagen increased relative to types III and V collagens, which seemed to remain at values comparable to those observed in lungs from control (normal) rats, both in terms of newly synthesized collagen (collagen synthesized by lung minces during 4 h in culture) and total unlabeled lung collagen (collagen synthesized during the life of the animal).