Platelet activating factor (PAF) production by mouse embryos in vitro and its effect on embryonic metabolism

Factors affecting the production of platelet activating factor (PAF) by mouse embryos during culture in vitro were investigated. Detectable levels of embryo-derived PAF were produced within 1-4 hr with maximum PAF activity being observed after 6 hr of culture in vitro. The amount of PAF detected in media after 24 hr of culture of two-cell embryos was equivalent to 12.8 ng PAF/embryo. However, differences in activity were apparent with increased time in culture. Reduced synthesis of PAF during culture in vitro was supported by the observation that morulae stage embryos collected fresh from the reproductive tract displayed more PAF activity than morulae resulting from the 48 hr culture of two-cell embryos. In addition to determining production characteristics of PAF by embryos, we also show that the production of CO2 from carbon-1 position of lactate is positively correlated with the ability of embryos to develop during subsequent culture in vitro and therefore could be used as a measure of embryo viability. Furthermore, culture of embryos in media supplemented with PAF resulted in an increase in lactate utilization demonstrating a direct effect of PAF on the embryo. As PAF is produced by preimplantation embryos, an autocoid role of PAF in regulating embryo development is implicated. Therefore, the reduced production of PAF by embryos in vitro may explain the decreased viability of embryos commonly observed following their culture in vitro.     

Effects of cryopreservation on glucose metabolism and survival of bovine morulae and blastocysts derived in vitro or in vivo

Bovine morulae and blastocysts were either produced in vitro through maturation, fertilization and culture of immature oocytes recovered from slaughterhouse-derived ovaries, collected in vivo or obtained after 24 h in vitro culture of in vivo collected embryos. The morulae and blastocysts were classified into four categories of embryo quality and two stages of embryonic development. Embryos were frozen by a controlled freezing method using 10% glycerol as a cryoprotectant. The ability of individual embryos to withstand freeze/thawing was measured immediately before and after cryopreservation by changes in CO2 production from (U-14C)glucose during a 2 h incubation period in a non-invasive closed system immediately before and after cryopreservation. Post-thaw survival was assessed by development in vitro during a 48 h culture period. Survival rates and oxidative metabolism after freeze/thawing were similar in embryos of the two developmental stages. However, after freeze/thawing, the rate of CO2 production of in vitro produced embryos was reduced to one half of their pre-freeze levels and was associated with poor survival rates. In vivo collected embryos had a significantly better tolerance to freezing and higher survival rates. However, when in vivo embryos were exposed to in vitro culture conditions, the rates of CO2 production and survival were significantly reduced. Pre-freeze embryo quality affected post-thaw in vitro development and metabolic activity markedly in embryos produced in vitro or pre-exposed to in vitro culture conditions. While there was no relationship between pre-freeze levels of CO2 production and post-thaw in vitro embryo development, all embryos which developed in vitro after freezing/thawing retained at least 58% of the pre-freeze levels of CO2 production regardless of their origin. Results of the present study indicate that embryos produced in vitro or pre-exposed to in vitro culture conditions are more sensitive to cryo-injury. This sensitivity is affected by embryo quality and is similarly reflected at the biochemical level. Determination of oxidative metabolism offers a feasibility for selection of viable morulae/blastocysts after freezing/thawing.     

8-Iso-PGF(2alpha) administration generates dysmorphogenesis and increased lipid peroxidation in rat embryos in vitro

BACKGROUND: Diabetic pregnancy displays increased incidence of congenital malformations and elevated levels of lipid peroxides in the offspring. The aim of the present work was to study if exogenous administration of one lipid peroxide, the isoprostane 8-iso-PGF(2alpha), is teratogenic per se in rat embryos in vitro, and if such teratological effects may be diminished by supplementation of an antioxidative agent, i.e., N-acetylcysteine or superoxide dismutase, to the culture medium. METHODS: Day-9 embryos were cultured in vitro for 48 hr and subjected to 8-iso-PGF(2alpha) with and without N-acetylcysteine or superoxide dismutase. RESULTS: Addition of 2 micromol/l of the isoprostane 8-iso-PGF(2alpha) to the culture medium caused high malformation rate, decreased protein and DNA contents, decreased somite number and crown-rump-length as well as marked accumulation of the isoprostane in the embryonic tissues. Adding N-acetylcysteine or superoxide dismutase to the culture medium with isoprostane normalized almost all morphological and biochemical parameters, including the elevated tissue concentration of 8-iso-PGF(2alpha). CONCLUSIONS: Results indicate that the isoprostane (8-iso-PGF(2alpha)) serves both as an oxidative stress indicator and a teratogenic agent. The findings support earlier studies of enhanced oxidative stress and increased malformation rate in embryos exposed to a diabetes-like environment, and suggest prevention of dysmorphogenesis by administration of antioxidative agents.     

Assay of embryo-derived platelet activating factor (EDPAF) by an equine platelet aggregation assay: Preliminary data concerning its presence in bovine embryo culture media

This study was designed to establish a sensitive bioassay for bovine platelet-activating factor (PAF), to determine if the bovine embryo secretes PAF in vitro and if PAF release is correlated with the embryo's potential to establish a pregnancy. Using an equine platelet aggregation assay, lipid extracted culture media from 33 Day-7 embryos (individually cultured for 18 hours in 1 ml of Ham's F10 containing 0.4% BSA at 37 degrees C in an air: CO2 mixture of 95:5 prior to their transfer to recipient heifers) and from control media (n=15, Ham's F10+0.4% BSA incubated simultaneously without embryos) were investigated. In addition, culture media from Day-6 (n=6) and Day-1 (2-cell, n=12) bovine embryos that were cultured for 4 hours but not transferred were examined. The aggregation assay proved to be sensitive to 5 pg of PAF. The assay proved to be specific, since the PAF receptor antagonist SRI 63-441 inhibited platelet aggregation induced by culture media in dosages comparable to aggregation induced by synthetic PAF18. From the 15 Day-7 embryos that established a pregnancy 2 contained measurable amounts of PAF in their culture media. No PAF was detected in the culture media from 13 embryos that succeeded, in the 18 embryos that failed to establish a pregnancy, or in the control media. One of 6 Day-6 embryos and 3 of 12 Day-1 (2-cell) embryos secreted detectable amounts of PAF into the culture media. Although the results indicate that some bovine embryos release PAF or a PAF-like substance in vitro, PAF measurements in the culture medium seem not to be a suitable method for the evaluation of bovine embryos prior to transfer.     

Exogenous platelet-activating factor stimulates cell proliferation in mouse pre-implantation embryos prior to the fourth cell cycle and shows isoform-specific stimulatory effects

Mouse embryos secrete molecules homologous to platelet-activating factor (PAF), termed embryo-derived PAF (EPAF), which act in an autocrine/paracrine fashion to stimulate embryonic development in vitro. Mouse EPAF is thought to consist predominantly of hexadecyl (C16) and octadecyl (C18) PAF-like components. Mouse pre-implantation embryos cultured with exogenous PAF from the early cleavage stages exhibit increased blastocyst cell numbers and rates of mitosis around the 8-cell stage. We investigated whether exogenous PAF could specifically stimulate embryonic cell proliferation prior to the blastocyst stage in the mouse and also compared the biological activities of the C16 and C18 PAF isoforms as follows. Embryos were cultured for either 24 h or 120 h from the 2-cell stage and their total cell numbers were determined or their development assessed in terms of their incidence of successful zona-hatching respectively. In each case, embryos were cultured in unsupplemented medium or in medium supplemented with either C16 or C18 PAF (0.5 microM). Compared with controls, culture with C16 PAF produced a significant stimulation of mean total per number per embryo and a significant increase in the incidence of successful zona-hatching, whilst culture with C18 PAF had no significant effect. We then cultured 1-cell zygotes for 48 h in unsupplemented medium or medium supplemented with either an equimolar mixture of C16 and C18 PF or with either C16 or C18 PF alone (each at 0.2 microM). Embryos were also scored for cell number at 4 h and 30 h of culture. Although no significant effect on mean cell number per embryo was seen following 4 h or 30 h of culture with a mixed C16/C18 PAF preparation, culture for 48 h with a mixed C16/C18 PAF preparation or with C16 PAF alone produced a significant increase in mean cell number per embryo compared with controls - an effect that is likely to be receptor-mediated, since culture with an equivalent concentration of C18 PAF had no significant effect compared with controls. We have demonstrated that mouse zygotes/embryos can respond in a specific manner to exogenous hexadecyl PAF in terms of increased rates of cell proliferation prior to cavitation, and must be capable of doing so at some time between the first and third, and also between the second and fourth, cell cycles. Such embryos presumably express one or more classes of functional PAF-receptor molecule during this period (i.e. as early as during the 1-, 2- or 4-cell stages). We have also demonstrated that embryonic response to exogenous PAF is significantly isoform-specific, which may reflect differences between the two isoforms either in affinity for binding to putative embryonic PAF-receptor molecules or in their ability to elicit a stimulatory response following binding. This observation calls into question the use of preparations containing a mixture of hexadecyl and octadecyl PAF isoforms, particularly in dose-response studies, in the mouse.     

Oxidative metabolism of energy substrates by preimplantation mouse embryos in the presence of platelet-activating factor

The effects of exogenous platelet-activating factor (PAF, 0.0186-18.6 microM) on the production of CO2 from [U-14C]glucose and [1-14C]lactate by mouse embryos in vitro were investigated. Two-cell embryos displayed significant dose-dependent responses for both energy substrates. The maximal response was observed at 9.3 microM-PAF for glucose metabolism and 1.86 microM-PAF for lactate with increases of 62% and 18%, respectively, over control treatments. After culture from the 2-cell stage for 72 h in the presence of PAF, the resulting blastocysts exhibited a significant dose-dependent increase in metabolism of lactate. It was also apparent that such embryos were not desensitized to PAF as demonstrated by a further enhancement of the metabolic response after re-exposure to PAF. The specificity of action of PAF was confirmed by the absence of any effect on the oxidative metabolism of glucose by lyso-PAF (a catabolite of PAF) over a concentration range of 0.0202-20.2 microM and by the demonstration that SRI 63-441 (a PAF-receptor antagonist) significantly reduced the amount of CO2 produced from glucose in response to 9.3 microM-PAF and abolished the effect on lactate metabolism in response to 1.86 microM-PAF. These results demonstrate a specific, direct influence of exogenous PAF on the oxidative metabolism of glucose and lactate by the preimplantation mouse embryo and suggest an autocrine role for embryo-derived PAF in early pregnancy.     

Respiratory changes in 9-methyl PGA teratogenesis

Cellular respiration was accurately measured following dispersion of rat embryos too large for reliable assessments in the intact condition. The technique used in this study for cell dispersion of day 13 embryos effectively eliminated restrictions to oxygen diffusion caused by thickness of the intact animals and permitted valid measurements of oxygen consumption in these embryos. Significantly decreased rates of oxygen consumption were measured by the Warburg technique in such embryonic rat cells following a teratogenic maternal folate deficiency and folate-antagonism using 9-methyl pteroyl-glutamic acid. These results suggest an association between altered embryonic oxidative metabolism and induction of malformations.     

Platelet-activating factor and leukotriene biosynthesis in whole blood. A model for the study of transcellular arachidonate metabolism

As a model to perhaps better indicate potential in vivo tissue inflammatory events, the generation of leukotriene (LT)B4, 20-OH-LTB4, sulfidopeptide LT, and platelet-activating factor (PAF) from human whole blood stimulated with zymosan was compared with that produced by isolated human neutrophils suspended either in buffer or plasma. Several reports have shown that substantial LTB4 biosynthesis could be induced after addition of zymosan to whole blood, but little was known concerning the generation of other important lipid mediators, or the cellular source of these. We have shown that, in spite of some subject variation, the zymosan-induced production of 20-OH-LTB4, LTB4, and LTE4 reached maxima within 30 to 60 min with 1.1, 2.8, and 0.60 ng/10(6) neutrophils, respectively. These concentrations would be sufficient to induce significant biologic effects. Studies with isolated cell mixtures suggested that the neutrophil was the primary source of the lipid mediators or their precursors in this system, although a number of other cell types contributed as accessory cells to the final amounts and mix of mediators produced. The ratio of neutrophils to accessory cells in mixed cell experiments dramatically modified the metabolic pattern of leukotriene generation. The concentration of LTB4 was increased in the presence of RBC and that of LTE4 when platelets were present. These results suggested that cellular cooperation and transcellular biosynthesis played a key role in the overall production of eicosanoids such as LTB4 and LTC4. The concomitant synthesis of PAF in isolated cells and in whole blood was also determined as another member of the complex lipid mediator network. Maximal production of cell-associated PAF was observed within 30 min after the initiation of phagocytosis and reached levels of 3 to 5 ng PAF/10(6) neutrophils. When other cells were present in a coincubation system, the time course for production of PAF was not altered, but maximal concentration of PAF was lower, perhaps as a result of enhanced PAF metabolism. Study of eicosanoids and other lipid mediator production in mixed cell populations provides insight into those events occurring within tissues, where cross-cell signaling and transcellular biosynthesis may occur.     

Arachidonic acid metabolism and prostaglandin production by primate preimplantation blastocysts.

Preimplantation embryos of many species are known to synthesize prostaglandins. These tissue hormones are believed to influence embryonic metabolism, as well as embryo-maternal interaction during implantation although their putative role(s) remains obscure. Here, prostaglandin production by blastocysts from cynomolgus monkeys (Macaca fascicularis) was examined qualitatively during in vitro culture. Tritium labelled arachidonic acid was metabolized to 6 keto-prostaglandin F1 alpha, 2,3-dinor-prostaglandin F1 alpha and thromboxane B2, as characterized by HPLC separation. Also, 6-keto-prostaglandin F1 alpha, and thromboxane B2 as characterized by HPLC separation. Also, 6-keto-prostaglandin F1 alpha and thromboxane B2 were identified by specific RIA's. Our data suggest that the main arachidonic acid metabolites produced by blastocysts of cynomolgus monkeys are prostacyclin and thromboxane.     

Heat production and lipid metabolism in broiler and layer chickens during embryonic development

We compared heat production (HP) and lipid metabolism in broiler and layer chickens (Gallus gallus) during embryonic development. To investigate HP and respiratory quotient (RQ), oxygen (O2) consumption and carbon dioxide (CO2) production were measured using an open-circuit calorimeter system. HP consistently had a tendency (P = 0.06) to be lower in broilers than in layers during embryonic development, and HP gradually decreased with developmental stage in both strains. RQ values of both strains were approximately 0.7 at every embryonic stage investigated. These results suggest that chicken embryos mainly use lipid for energy, and the RQ was significantly lower in broilers than in layers during embryonic development. Consumption of the yolk sac as a lipid source was faster in broilers than in layers. Plasma D-3-hydroxybutyrate (D3HB) and glycerol concentrations, associated with fatty acid oxidation, were lower in broiler than layer embryos. These results demonstrate that HP and lipid metabolism are different between the strains during embryonic development, and may be one factor for the growth difference between broiler and layer embryos.     

Platelet-activating factor in human luteal phase endometrium

Platelet-activating factor (PAF; 1-O-alkyl-2-acetyl-sn-glycero-3-phosphorylcholine) is one of the most potent mediators of vascular permeability. PAF levels change in the rabbit endometrium just prior to implantation, which suggests that PAF may be a key substance transducing preimplantation embryonic signals. To study whether PAF was present in the human endometrium, and if so, to determine the cellular origin and hormonal regulation of endometrial PAF, specimens were obtained from 14 women (aged 23-42 yr) undergoing elective hysterectomy during the luteal phase of the cycle (plasma progesterone levels greater than 2 ng/ml). No specimens were taken from women with malignant uterine pathology. Stromal cells and epithelial glandular cells were separated by collagenase and DNAse digestion, and then cultured to confluence in vitro in medium 199. Radioimmunoassays of prostaglandin F (PGF) and prolactin in the culture media were used to confirm cell type and viability. PGF release into the culture medium from stromal cells was low (control 1.52 +/- 0.20 ng/ml), and unchanged by hormone treatment. In contrast, release of PGF from unstimulated glandular cells was 6.05 +/- 0.52 ng/ml, and was significantly increased (p less than 0.05) by estradiol or progesterone plus estradiol, to 12.17 +/- 1.67, and 8.60 +/- 0.81, respectively. Progesterone alone was without effect. Prolactin was secreted by stromal cell cultures, increasing steadily from 24 to 120 h. The levels in the medium were increased by progesterone. PAF activity was assessed by rabbit platelet aggregation and serotonin-release bioassays after lipid extraction and separation by thin-layer chromatography.(ABSTRACT TRUNCATED AT 250 WORDS)     

Differential expression of platelet-activating factor acetylhydrolase in macrophages and monocyte-derived dendritic cells

Although macrophages (Mphi) and monocyte-derived dendritic cells (MDDC) come from a common precursor, they are distinct cell types. This report compares the two cell types with respect to the metabolism of platelet-activating factor (PAF), a biologically active lipid mediator. These experiments were prompted by our studies of localized juvenile periodontitis, a disease associated with high IgG2 production and a propensity of monocytes to differentiate into MDDC. As the IgG2 Ab response is dependent on PAF, and MDDC selectively induce IgG2 production, we predicted that PAF levels would be higher in MDDC than in Mphi. To test this hypothesis, human MDDC were prepared by treating adherent monocytes with IL-4 and GM-CSF, and Mphi were produced by culture in M-CSF. Both Mphi and MDDC synthesized PAF; however, MDDC accumulated significantly more of this lipid. We considered the possibility that PAF accumulation in MDDC might result from reduced turnover due to lower levels of PAF acetylhydrolase (PAFAH), the enzyme that catabolizes PAF. Although PAFAH increased when monocytes differentiated into either cell type, MDDC contained significantly less PAFAH than did Mphi and secreted almost no PAFAH activity. The reduced levels of PAFAH in MDDC could be attributed to lower levels of expression of the enzyme in MDDC and allowed these cells to produce PGE(2) in response to exogenous PAF. In contrast, Mphi did not respond in this manner. Together, these data indicate that PAF metabolism may impinge on regulation of the immune response by regulating the accessory activity of MDDC.     

Studies of mechanisms of niridazole-elicited embryotoxicity: evidence against a major role for covalent binding

Studies reported here were designed to examine the hypothesis that covalent binding of reactive intermediates to macromolecules of the conceptus represents a major mechanism for the embryotoxicity of niridazole (NDZ). The roles of embryonic thiol content and oxygenation on: 1) malformation incidence; 2) reductive metabolism; and 3) covalent binding to embryonic macromolecules of metabolites resulting from reductive biotransformation of NDZ were studied. Results were compared with those from studies with the nondysmorphogenic analog of NDZ, 4'-methylniridazole (MNDZ). Day 10 rat embryos were pretreated for 5 hours in vitro with either L-buthionine-S, R-sulfoximine (BSO) or N-acetylcysteine (NAC) to modulate their glutathione (GSH) content. BSO reduced GSH levels, but NAC was ineffective. Following pretreatment, embryos were cultured for an additional 15 hours in the presence of [14C]NDZ or [14C]MNDZ with an initial oxygen concentration of 5%. At the end of the culture period (day 11, AM), those embryos with active heartbeat and vitelline circulation were examined for asymmetric malformations. Drug metabolites were subjected to multiple extractions from the culture medium and subjected to quantitative high-performance liquid chromatography (HPLC) analysis. Homogenates of the embryos were extracted with trichloroacetic acid (TCA) to estimate the covalent binding of radiolabeled parent compound/metabolites. Autoradiographic analyses were performed on other embryos. BSO pretreatment, which reduces embryonic GSH tissue levels, dramatically increased both the conversion of NDZ to 1-thiocarbamoyl-2-imidazolidinone (TCI) (generated via reductive metabolism of NDZ) and covalently bound label but failed to increase embryotoxicity. NAC, by contrast, did not significantly affect embryonic GSH levels, TCI generation, or covalent binding. Because both rates of metabolism of NDZ to TCI and covalent binding could vary independently of malformation incidence, we concluded that they do not represent critical mechanistic factors for the embryotoxicity of NDZ and related nitroheterocycles.     

Implantation potential and fetal viability of mouse embryos cultured in media supplemented with platelet-activating factor

Supplementation of culture media with PAF failed to increase the proportion of 2-cell mouse embryos which developed through to the expanded blastocyst stage after 72 h of culture in vitro. Culture of embryos with 1.86 microM-PAF, however, significantly increased the number of cells in expanded blastocysts. Culture in vitro with 0.186 or 1.86 microM-PAF significantly increased the ability of embryos to implant upon transfer to pseudopregnant recipients. The specificity of this effect was demonstrated by its inhibition by the specific PAF-receptor antagonist, SRI 63-441. Of the embryos which implanted, there was no difference in the proportions of PAF-treated or control embryos which resorbed nor was there any effect of PAF on fetal weight or crown-rump length measurements. Embryos cultured with 1.86 microM-PAF did have slightly heavier placentae than their respective controls. These results demonstrate the ability of exogenous PAF to enhance the viability of preimplantation mouse embryos cultured in vitro and support the hypothesis that a major site of the action of PAF during early pregnancy is the embryo itself.     

Meconium enhances platelet-activating factor and tumor necrosis factor production by rat alveolar macrophages

Meconium aspiration syndrome (MAS) frequently results in inactivation of surfactant, persistent pulmonary hypertension (PPHN) and respiratory failure among newborn infants. Inflammation and inflammatory mediators play an important role in MAS. Since alveolar macrophages are thought to be very important cells in the pathogenesis of various inflammatory diseases, we evaluated whether meconium could stimulate rat alveolar macrophages to generate platelet-activating factor (PAF) and tumor necrosis factor (TNF)-alpha in vitro. We also examined the response to A23187 (calcium ionophore), 1-0-Hexadecyl-2-acetyl-sn-glycero-3-phosphocholine (synthetic PAF) and dexamethasone on meconium-induced release of PAF and TNF-alpha. PAF and TNF-alpha concentrations from supernatant fluid were measured after high-performance liquid chromatography purification by specific radioimmunoassay, and TNF-alpha concentrations were determined by using an enzyme-linked immunosorbent assay. Our results showed that alveolar macrophages exposed to meconium could enhance PAF and TNF-alpha production in a dose (0.1, 1, 5 and 10%, P<0.01)-dependent way. In the presence of A23187, the capability of meconium to stimulate PAF production was further enhanced in the supernatant fluids. Furthermore, treatment with synthetic PAF significantly increased the generation of TNF-alpha in response to meconium. On the other hand, dexamethasone effectively inhibited both PAF and TNF-alpha production stimulated by 5% meconium (P<0.01, P<0.01; respectively). We suggest that alveolar macrophages and PAF, TNF-alpha play an important role in the pathogenesis of lung injury and severe complications in MAS. Furthermore, the protective effect of glucocorticoids in MAS could be due, at least in part, to a suppression of PAF and TNF-alpha generation.