Prostaglandin biosynthesis and catabolism in the developing fetal sheep lung

The prostaglandin biosynthetic and catabolic capacity of homogenates of lungs fetal sheep of various gestational ages was measured. Prostaglandin biosynthesis was assayed by the deuterium-isotope dilution technique making us e of mas fragmentography whereas prostaglandin catabolism was measured by the radioisotope-dilution method described previously (Pace-Asciak, C.R. and Rangaraj, G. (1976) J. Biol. Chem. 251, 3381–3385).Homogenates of lung sform fetuses of all ages tested (40 days to term) formed both prostaglandins E₂ and F_2α; although prostaglandin F_2α was formed to a greater extent than prostaglandin E₂ by the 40 day lung, prostaglandin E₂ increased with increasing age until at term the ratio of both prostaglandins approached unity. Total prostaglandin biosynthesis (E₂ + F_2α) rose gradually with age (approx. 3 fold increase between 40 days and term). Prostaglandin F_2α catabolism occurred mainly by the prostaglandin 15-hydroxy dehydrogenase pathway; this activity was detectable even at 40 days and remained unchanged up to 80 days. Prostaglandin catabolic activity rose sharply at 90 days (approx. 3 fold) with a maximum around 110 days (approx. 4 fold) decreasing back to 40 day levels by term (143 days).The increasing prostaglandin catabolic activity around 90–100 days in this species is discussed in relation to the hemodynamic changes in the lungs starting around this age and the appearance of surfactant. Prostaglandin catabolism might play an important role in the developing organ controlling steady state concentrations of prostaglandins during certain periods of organogenesis.     

Prostaglandin biosynthesis and catabolism in the developing fetal sheep lung.

The prostaglandin biosynthetic and catabolic capacity of homogenates of lungs from fetal sheep of various gestational ages was measured. Prostaglandin biosynthesis was assayed by the deuterium-isotope dilution technique making use of mass fragmentography whereas prostaglandin catabolism was measured by the radioisotope-dilution method described previous (Pace-Asciak, C.R. and Rangaraj, G. (1976) J. Biol. Chem. 251, 3381-3385). Homogenates of lungs from fetuses of all ages tested (40 days to term) formed both prostaglandins E2 and F2alpha; although prostaglandin F2alpha was formed to a greater extent than prostaglandin E2 by the 40 days lung, prostaglandin E2 increased with increasing age until at term the ratio of both prostaglandins approached unity. Total prostaglandin biosynthesis (E2 + F2alpha) rose gradually with age (approx. 3 fold increase between 40 days and term). Prostaglandin F2alpha catabolism occurred mainly by the prostaglandin 15-hydroxy dehydrogenase pathway; this activity was detectable even at 40 days and remained unchanged up to 80 days. Prostaglandin catabolic activity rose sharply at 90 days (approx. 3 fold) with a maximum around 110 days (approx. 4 fold) decreasing back to 40 day levels by term (143 days). The increasing prostaglandin catabolic activity around 90-100 days in this species is discussed in relation to the hemodynamic changes in the lungs starting around this age and the appearance of surfactant. Prostaglandin catabolism might play an important role in the developing organ controlling steady state concentrations of prostaglandins during certain periods of organogenesis.     

Paraplacental passage of 3H-prostaglandin F2

Prostaglandins F_2α permeates the live and denaturated whole fetal membranes as well as their isolated components chorion and amnion. The permeability constant in our vitro method is 1.3 × 10^?3 cm/min for PG. If 40 mg PG are instilled intra-amniotically at term — as used in therapeutical abortion — then 3.7 mg prostaglandin F_2α would pass per hour from the amniotic fluid through the fetal membranes into the decidua.     

Prostaglandin induced early abortions in the bovine. Clinical outcome and endogenous release of prostaglandin F2α and progesterone

Peripheral blood plasma levels of progesterone and the main blood plasma metabolite of prostaglandin F_2α (15-keto-13, 14-dihydro-PGF_2α) were analysed in 12 heifers in which abortions were induced with a prostaglandin analogue (cloprostenol) at pregnancy stages from 39–146 days. All animals except one (treated on day 75 of pregnancy) aborted within 4 days following treatment.The peripheral plasma levels of progesterone decreased rapidly following the injection of cloprostenol. All heifers had shortlasting peaks of the prostaglandin metabolite in connection with luteal regression. In animals pregnant for less than 80 days this release ceased at the time of delivery of the fetuses, which were expelled within unruptured fetal membranes. Standing estrus was observed in connection with the expulsion of the fetuses. Two of the animals were mated at this estrus and became pregnant. In contrast, animals pregnant for more than 100 days released massive amounts of prostaglandin F_2α during a 2–5-days period post partum and had retained fetal membranes. No heat was observed in connection with these abortions. The animal that failed to abort showed no change in the prostaglandin metabolite levels.     

PRESENCE OF 15-HYDROXY PROSTAGLANDIN DEHYDROGENASE, PROSTAGLANDIN-Δ13-REDUCTASE AND PROSTAGLANDIN E-9-KETO(α)-REDUCTASE IN THE FROG SPINAL CORD

Metabolism of prostaglandin E₁ (PGE₁) and F_1α (PGF_1α) was studied in the frog spinal cord, using a hemisected preparation in vitro and tissue homogenates (whole honiogenate and tissue fractions). In the intact tissue, PGE, was converted to three Metabolites, 1 to 111, whereas only Metabolites 11 and 111 werc detected in experiments with PGF_1α. Work with tissue homogenatcs confirmed that PG transformation is enzymatic, and endproducts were identified as PGF_1α (Metabolite 1), 15-kcto metabolite (Metabolite 11) and 15-keto-13,14-dihydro metabolite (Metabolite 111). The 15-keto-13,14-dihydro metabolite was formed via the 15-keto metabolite which is consistent with findings elsewhere. These results establish the presence in the frog spinal cord of two pathways for PG metabolism, consisting one of the 15-hydroxy prostaglandin dehydrogenase (15-PGDH) and the prostaglandin-A13- reductase (13-PGR), the other of the prostaglandin E 9-keto(α)-reductase (9K-PGR). 9K-PGR is regarded as an inactivating enzyme because amphibian spinal neurons are less responsive to PGF, than to PGE₁. In the intact or in the homogenized tissue, PGE, is metabolized more efficiently by the 15-PGDH/13-PGR than by the 9K-PGR route. The 15-PGDH metabolizes PGE, more readily than PGF_1α. The present findings, together with the previous demonstration of active PG synthesis in the tissue and the potent actions of exogenous PGs, strongly suggest that the PGs play an important role in the function of neurons in the frog spinal cord.     

Maternal and fetal prostaglandin concentrations during late gestation in dairy cattle

A study was conducted to measure the blood plasma concentrations of prostaglandin F_2α (PGF_2α), 13,14-dihydro-15-keto-prostaglandin F_2α (PGFM), prostaglandin E₂ (PGE₂) and 13,14-dihydro-15-keto-prostaglandin E₂ (PGEM) in the jugular vein, umbilical vein and artery and uterine vein of 18 Holstein Friesian cows during late gestation. A caesarean section was performed on all cows before term in order to obtain blood samples from the different sources. Plasma PG concentrations in the uterine or fetal circulation were significantly higher than in jugular vein plasma. Correlations between peripheral PG metabolite concentrations and primary PG concentrations in the various sources of the uterus or fetus were not significant (r = .17 − .47) and demonstrated that prostaglandin values based upon peripheral blood alone are of limited value.     

Prostaglandins in the isolated testicular capsule of immature and young adult rats

The presence of prostaglandin (PGs) E₁, E₂, F_1α, F_2α and the metabolite 13, 14-Dihydro-15-keto PG Fa (1+2) has been studied in the isolated testicular capsule of Wistar rats (22 to 90 days of age). Handling and homogenization of tissues were controlled and the in vitro synthesis and degradation were prevented by immediated freezing of samples and homogenization in a solution containing of PG synthetase inhibitor. The PGs were measured by specific and sensitive radioimmuoassay. The isolated rat testicular capsule was found to contain mainly PG E₂ and PG_2α at concentrations about 100 times higher than those in decapsuled testes (ng/g of tissue).     

Ontogeny of ovine fetal liver and kidney plasma membrane insulin receptors and fetal growth

This investigation was performed to define certain characteristics of insulin-receptor interaction during the last 2 months of gestation in fetal sheep liver and kidney. Twenty-one sheep carrying a total of 46 fetuses were sacrificed at various gestational ages from 94 days to term; fetal and maternal livers and kidneys were analyzed by a radioreceptor assay for insulin binding characteristics. Specific binding of insulin to partially purified ovine fetal liver and kidney plasma membranes increased as gestation approached term, at which time specific binding was two- to fourfold greater to fetal than to maternal tissues. Associated with increased specific binding were late gestational increases in affinity of insulin for receptors in both fetal liver and kidney and an earlier increase in insulin receptor concentration in fetal kidney. These observations in fetal sheep liver and kidney are similar to reported observations in other species. However, the increase in specific binding of insulin to male fetal liver membranes was exponential; in contrast, there was no apparent increase in specific binding to female fetal liver membranes during the gestational interval surveyed. Both the weights and the vertebral column lengths of these fetuses were shown by multivariate analysis to be significantly affected by the interaction between specific binding of insulin and fetal sex. However, in 30 additional sheep fetuses we observed no difference between male and female fetuses in the increase with time in liver glycogen content. The lack of sex difference in this postreceptor event is consonant with the demonstrated dissociation between liver insulin receptors and glycogen synthesis in the late fetal rat. Our observations suggest that late gestational differences between male and female sheep fetuses in insulin specific binding to liver and, possibly, to other tissues such as cartilage, muscle, and/or fat, that are coupled to postreceptor events may account for differences in fetal growth between the sexes.     

Folic acid effects on glycoprotein-galactosyltransferase: a re-assessment

Prostaglandin Δ¹³-reductase was purified extensively by ammonium sulfate fractionation, and DEAE-Sephadex-, hydroxylapatite-, and phosphocellulose chromatography. Enzyme activity was followed by radioimmunoassay with the use of an antiserum directed toward 15-keto-prostaglandin F_2α and antibodies directed toward 13, 14 dihydro-15-keto-prostaglandin F_2α. The purified enzyme used NADPH as a cofactor much more effectively than NADH. It specifically reduced 15-keto-prostaglandins but not 15-hydroxy-prostaglandins. The enzyme was inhibited by p-chloromercuribenzoate. It had a relatively broad pH optimum (pH 7.4 to pH 8.5), and has a molecular weight estimated to be 70,000 to 80,000.     

Abortion after PGF2α in heifers with multiple pregnancies following superovulation with FSH and PGF2α

Multiple ovulations were induced with follicle stimulating hormone and estrus was synchronized with prostaglandin F_2α (PGF_2α) in 23 Holstein heifers. In 19 heifers which responded to the treatments, an average of 1.8 corpora lutea were formed after the induced estrus and 6 of 19 heifers conceived (total of ten fetuses at 39 days gestation) to artificial insemination at 60 and 84 hr after the PGF_2α injection. Injection of 33 mg PGF_2α Tham salt into the six pregnant heifers on day 40 of gestation caused abortion between 54 and 66 hr after treatment in all heifers.     

Effect of partial fetectomy on plasma 13,14-dihydro-15-keto-prostaglandin F2α in late pregnancy of sows

The aim of this study was to ascertain if partial fetectomy in late pregnancy affected prostaglandin F_2α levels, thereby influencing the time of delivery of the remaining fetuses in the sow. Sham fetectomy or surgical removal of one, two, three or four fetal piglets was performed on each of ten sows during the last 3 weeks of pregnancy. Removal of no fetuses (two sows) and in one sow a single fetus was followed by a continuation of pregnancy to the expected time of parturition. Plasma values for oestrone, progesterone and 13,14-dihydro-15-keto-prostaglandin F_2α (PGFM) were similar to those reported previously for normal sows. Removal of one (two sows), two (two sows), three (two sows) or four (one sow) fetuses was followed by premature parturition, within 42–144 h of surgery. Labour lasted 24 to 30 h. Almost immediately after fetectomy, PGFM levels in plasma increased and were accompanied by a decline in progesterone concentrations. High PGFM values (13–60 ng/ml) were present at parturition. Oestrone concentrations were variable or rose slightly at this time. The results suggest that all fetuses in a litter must be present to maintain pregnancy to term. Pregnancy may depend upon fetal suppression of prostaglandin F_2α production and release until the appropriate time for parturition.     

Gestational age-dependent effects of lipopolysaccharide on prostaglandin production by murine decidual caps

We sought to determine whether the gestational age of the pregnant mouse had any relationship with its lipopolysaccharide (LPS) responsiveness. Murine decidual caps from days 13, 15 and 17 of gestation (term is day 20) were dissected out, placed in inserts and equilibrated in media overnight. The following day, media were removed, replaced with fresh media (+/-LPS at 10 microg/mL). After LPS stimulation (24 h), prostaglandin (PG)E2 production by decidual caps from days 13 and 15 increased by 80-fold and 5-fold, respectively. PGF2alpha, 6-keto-PGF1a and TxB2 production also increased. Day 17 decidual caps were unaffected by LPS, pregnant mice inoculated i.p. with LPS (50 microg) at day 13 of gestation induced 100% delivery within 24 h. However, mice treated at days 15 and 17 had an equal occurrence of premature delivery or fetal resorption. This change in LPS responsiveness may indicate changes in the fetal-maternal immune system in late pregnancy.     

Prostaglandin catabolism in fetal and maternal tissues--a study of 15-hydroxyprostaglandin dehydrogenase and delta 13 reductase with specific assay methods

Recent studies have demonstrated that extraductal tissues such as lung are important sources of prostaglandin E2 which maintains the patency of ductus arteriosus in fetuses and prematurely-born infants. Also, organs such as lung are known to be active in the catabolism of PGE2. Earlier studies of enzymes involved in the catabolism of PGE2 such as 15-hydroxyprostaglandin dehydrogenase (15-PGDH) and delta 13 reductase all used non-specific methods. In the present report, we studied 15-PGDH in fetal and maternal rat lung, kidney, and fetal lamb lung, kidney and ductus arteriosus with the use of a specific substrate (15-S)-[15(3)H-PGE2]. In addition, we measured the activity of delta 13 reductase in these tissues by measuring the conversion of [1-14C]-15-keto PGE2 to [1-14C]-15-keto-13,14-dihydro PGE2. The results from these studies demonstrated that in fetal rat lung and kidney, 15-PGDH activities increased rapidly while delta 13 reductase remained unchanged during late gestation. Ductus arteriosus possessed little 15-PGDH activities. These results strongly suggest that extraductal regulation of PGE2 metabolism is important in determining ductal caliber in fetuses and prematurely delivered neonates.     

Cyclic nucleotide phosphodiesterase and protein activator in fetal rabbit tissues.

Cyclic nucleotide phosphodiesterase activity (EC 3.1.4.17) was studied in fetal and newborn rabbit brain, heart, liver, kidney, and lung. Kinetic analysis of phosphodiesterase activity from homogenates of organs from the 25-day embryo suggested the presence of a high K_m and a low K_m activity for both cyclic AMP and cyclic GMP hydrolysis. The addition of 1 μm cyclic GMP to the assay stimulated the hydrolysis of cyclic AMP by whole homogenates of liver, brain, lung, and kidney, but not heart, at all of the ages studied. The addition of micromolar levels of calcium ion stimulated cyclic GMP hydrolysis by homogenates of fetal brain, heart, and kidney, with or without added protein activator. Cyclic GMP phosphodiesterase activity was not stimulated by the addition of calcium ion in homogenates of early fetal rabbit liver and lung, but stimulation was detected in the late embryo and newborn. The presence of the heat-stable protein activator was demonstrated in brain, heart, kidney, liver, and lung tissue at all of the fetal ages studied, and in the newborn rabbit. DEAE-cellulose chromatography demonstrated the presence of three separable enzymes in brain and liver at 15 days, heart at 19 days, and lung and kidney at 25 days of gestation, with no changes in the kinetic properties of the isolated enzymes during development. These experiments suggest that all of the organs studied have the mature array of phosphodiesterases early in development, but an enzyme from liver and lung becomes sensitive to regulatory control by calcium only late in gestation.     

A radioimmunoassay for 13,14-dihydro-15-keto prostaglandin F2α with chromatography and internal recovery standard

Antibodies to the 13,14-dihydro-15-keto metabolite of prostaglandin F_2α(PGF_2αM) were raised in sheep using a bovine thyroglobulin conjugate of PGF_2αM. Labeled 13,14-dihydro-15-keto prostaglandin A₂ (PGA₂M), 13,14-dihydro-15-keto prostaglandin E₂ (PGE₂M) and PGF_2αM were prepared from their corresponding high specific activity parent prostaglandins with swine kidney homogenate and purified using reverse phase liquid-liquid partition chromatography. A rapid method of column chromatography for use prior to radioimmunnoassay was developed.Mathematical corrections for the effect of recovery tracer on the logit/log transformation are presented with a new approach to expression of radioimmunoassay cross reactions allowing continuous expression of the variation of these cross reactions with displacement. These mathematical approaches are widely applicable to other radioimmunoassay systems and transformations.The assay was used for measurement in groups of human volunteers: males, females, women at delivery and paired venous umbilical cord bloods. A correlation between venous cord and maternal peripheral PGF_2αM levels is demonstrated with a gradient from the cord plasma to maternal plasma.     

Formation of 6-oxoprostaglandin F1α by arteries of the fetal calf

Homogenates from fetal calf aorta converted arachidonic acid to two main products which were shown by gas chromatography-mass spectrometry to be different forms of 6-oxoprostaglandin F_1α. Aortas from fetal calves of all gestational ages investigated (100 to 240 days of gestation) as well as ductus arteriosus and brachiocephalic artery were active in converting arachidonic acid to these products.     

Prostaglandin 15-hydroxy dehydrogenase and Δ13 reductase levels in the lungs of maternal,fetal and neonatal rabbits

The levels of prostaglandin 15-hydroxy dehydrogenase and reductase have been studied in the lungs of maternal, fetal and neonatal rabbits. Fetal lungs obtained at gestational age of 28–30 days (full term 31 days) had the same levels of prostaglandin dehydrogenase as the adults, while the reductase levels in the fetal lungs were only one fourth that in the adults. The lungs of maternal rabbits at near term possessed very high levels of prostaglandin dehydrogenase — approximately twenty-fold higher than in the adult non-pregnant female controls. The Δ¹³ reductase appeared slightly elevated during pregnancy. Neonatal animals at different ages showed the same levels of both enzymes as the near term fetus and/or the non-pregnant adults, which suggests that the development of the ability for prostaglandin metabolism is completed at least several days before birth. The high dehydrogenase levels in the near term maternal lungs indicated the requirement for extra protection against prostaglandin release during late pregnancy.     

Termination of pregnancy in cases of fetal death in utero by intravenous prostaglandin F2α

Delivery was induced by an intravenous infusion of prostaglandin F_2α (PGF_2α) in gradually increasing doses in 30 consecutive cases of fetal death in utero after the 28th week of gestation. Twenty patients delivered during the first day of prostaglandin administration, 9 on the second day, and 1 patient not until the third day of infusion. It is concluded, that intravenous PGF_2α appears to be superior to oxytocin in termination of pregnancy under these conditions.     

Ontogenic changes in multiplication-stimulating activity binding to tissues and serum somatomedin-like receptor activity in the ovine fetus

Fetal serum somatomedin-like receptor activity and the specific binding of Multiplication-stimulating activity to preparations of a variety of fetal and maternal tissues were measured in sheep throughout the latter half of gestation. Serum activity and the specific binding to fetal liver and lung preparations increased as gestation progressed, while the binding to fetal heart and placenta, and maternal kidney decreased. Most tissues exhibited greater specific binding of Multiplication-stimulating activity than insulin at term. At all ages fetal liver had the highest and fetal brain exhibited the lowest binding of Multiplication-stimulating activity. The results indicate that a factor which is similar to Multiplication-stimulating activity is present in ovine serum and that ovine tissues possess receptors for this factor. The ontogenic changes observed suggest that this factor is involved in the regulation of growth of the fetus.     

Prostaglandin 15-hydroxy dehydrogenase and Δ reductase levels in the lungs of maternal, fetal and neonatal rabbits

The levels of prostaglandin 15-hydroxy dehydrogenase and reductase have been studied in the lungs of maternal, fetal and neonatal rabbits. Fetal lungs obtained at gestational age of 28–30 days (full term 31 days) had the same levels of prostaglandin dehydrogenase as the adults, while the reductase levels in the fetal lungs were only one fourth that in the adults. The lungs of maternal rabbits at near term possessed very high levels of prostaglandin dehydrogenase — approximately twenty-fold higher than in the adult non-pregnant female controls. The Δ¹³ reductase appeared slightly elevated during pregnancy. Neonatal animals at different ages showed the same levels of both enzymes as the near term fetus and/or the non-pregnant adults, which suggests that the development of the ability for prostaglandin metabolism is completed at least several days before birth. The high dehydrogenase levels in the near term maternal lungs indicated the requirement for extra protection against prostaglandin release during late pregnancy.