t-Butyl hydroperoxide stimulates alveolar macrophage biosynthesis of cyclooxygenase products

Rat alveolar macrophages, labeled with 3H-arachidonic acid, were treated with t-butyl hydroperoxide (tBOOH). Treatment of cells with 100 microM tBOOH led to a rapid increase in 12-hydroxyheptadecatrienoic acid (12-HHT) within 2.5 minutes. At 15 minutes, 12-HHT levels appeared to plateau as there was no further increase at 30 minutes. TxB2 levels increased in a similar manner to that found with 12-HHT; however, only the level at 15 minutes was statistically increased. TxB2 levels also appeared to plateau at 15 minutes. Indomethacin, at a concentration of 1 microM, significantly inhibited TxB2 and 12-HHT production by approximately 90%. Desferal, an iron chelator, had no effect on alterations of biosynthesis of cyclooxygenase products by macrophages treated with tBOOH. No evidence of lipoxygenase products was found. Thus, these results suggest that tBOOH rapidly and selectively stimulated arachidonic acid metabolism through the cyclooxygenase pathway in rat alveolar macrophages. The stimulation of cyclooxygenase activity was transient with a maximum rate observed at 100 microM tBOOH.     

14C-labeled arachidonic acid bioconversion in guinea pig placenta during the last third of gestation

In the presence study we investigated the arachidonic acid metabolism in guinea pig placenta during the last third of gestation. Homogenates were incubated with 14C-labeled subtrate, and eicosanoid formation was determined using rp HPLC. Arachidonic acid was substantially converted to cyclooxygenase products i.e.-keto-PGF_1α, TxB₂, PGF_2α, PGE₂, PGD₂ and 12-HHT. Lipoxygenase activity was also found but of a much lower degree and represented by the mono-hydroxy acid 12-HETE and 15-HETE. The total conversion of arachiodonic acid exhibited a progressive rise from day 50 to term, due principally to the increasing part of TxB₂, PGE₂ and 12-HHT throughout this gestational perid and in addition, near term, of 6-keto-PGF_1α and PGF_2α. The results suggest that there is an increasing concentration and/or activity of cyclooxygenase system enzymes with placenta development in guinea pig, which may contribute to the augmented intrauterine availability of prostanoids under parturition.Additional experiments were performed to compare the metabolism of exogenously added 14C-arachidonic acid and endogenously present 12C-arachidonic acid during placental homogenate incubation by means of isotopes dilution GC-MS. Although the 14C- and 12-C prostanoid patterns were comparable, the 14C/12C ratios of the prostanoids formed during incubation were significantly different. These data indicate that exogenous arachidonic acid and endogenous arachidonic acid in placental homogenate do not follow up extractly the same metabolic pathway so that assumption of biochemical identity between exogenous radio-tracer and studied endogenous substrate is not quite true.     

Metabolism of icosa-5,11,14-trienoic acid in human platelets and the inhibition of arachidonic acid metabolism in human platelets by icosa-5,8,14-triynoic and icosa-5,11,14-triynoic acids

Two fatty acids differing from arachidonic acid in lacking one of the internal double bonds (20:35,8,14 and 20:35,11,14) and their 1-C¹⁴ and acetylenic analogues were synthesized. 20:35,8,14 was not metabolized by human platelets but 20:35,11,14 yielded a small amount (1.5% conversion) of two hydroxy fatty acids in a three (11-hydroxy-5,12,14-icosatrienoic acid) to one (15-hydroxy-5,11,13-icosatrienoic acid) proportion. Indomethacin inhibited formation of both hydroxy fatty acids indicating that they are produced via cyclooxygenase. Both ethylenic acids were weak inhibitors of cyclooxygenase (substrate 20 μM arachidonic acid) (ID₅₀: 8.8 μM 20:3^{5,8,14; 11.2 μM} 20:3^5,11,14) but were inactive against lipoxygenase (RD₅₀ > 100 μM). Similarly, both acetylenic analogues were poor inhibitors of lipoxygenase (ID₅₀: 23.4 μM 20:3^5,8,14; 47.8 μM 20:3^5,11,14) but although 20:3^5,8,14 was inactive against cyclooxygenase (ID₅₀ > 100 μM) the 20:3^5,11,14 was a potent inhibitor (ID₅₀: 0.35 μM). The results are interpreted on the basis that hydrogen removal by the lipoxygenase is from C10 and by the cyclooxygenase from C13 but only in 20:3^5,11,14 are these hydrogens (C13) located at the center of a 1,4 pentadiene system (ethylenic) or a 1,4 pentadiyne system (acetylenic).     

Naturally occurring conjugated octadecatrienoic acids are strong inhibitors of prostaglandin biosynthesis

Fatty acids from natural sources (mostly seed oils) were isolated and assayed for their effect on the bioconversio of arachidonic acid into prostaglandin E₂, using sheep vesicular gland microsomes. Homologues and isomers of the naturally occurring fatty acids, obtained by chemical modification and/or organic synthetic methods, were also tested. Two very active cyclooxygenase inhibitors were discovered, namely jacarandic acid (8 , 10 , 12 -octadecatrienoic acid), isolated from , the concentration which gives 50% inhibition ([I]₅₀) being 2.4 μM and the synthetic 8 , 10 , 12 -octadecarienoic acid, having an [I]₅₀ of 1.0 μM. Under the conditions of the assay (75 μM substrate), earlier described potent inhibitors showed the following [I]₅₀′s: indomethacin: 1.3 μM; 9,12-octadecadiynoic acid: 1.3 μM, 8 , 12 , 14 -eicosatrienoic acid: 2.7 μM; 5,8,11,14-eicosatetraynoic acid: 4.4 μM. At a concentration of about half that of the substrate, the following naturally occurring fatty acids revealed inhibition ([I]₅₀): columbinic acid (29 μM), calendulic acid (31 μM), liagoric acid (31 μM), ximenynic acid (39 μM), crepenynic acid (40 μM) and timnodonic acid (43 μM). Other fatty acids, and some of the above acids, were converted themselves more or less rapidly, mostly into conjugated monohydroxy fatty acids.     

Dose-dependent effects of a pyridoquinazoline thromboxane synthetase inhibitor on arachidonic acid metabolites and hemodynamics during E. Coli endotoxemia in anesthetized sheep

We investigated the effects of a new pyridoquinazoline thromboxane synthetase inhibitor infused before administering endotoxin into 18 anesthetized sheep with lung lymph fistulas. In normal sheep increasing plasma Ro 23-3423 concentrations were associated with increased plasma levels of 6-keto-PGF_1α, a reduced systemic vascular resistance (SVR, r = −0.80) and systemic arterial pressure (SAP, r = −0.92), the mean SAP falling from 80 to 50 mm Hg at the 20 and 30 mg/kg doses. Endotoxin infused into normal sheep caused transient pulmonary vasoconstriction associated with increased TxB₂ and 6-keto-PGF_1α levels while vasoconstriction and TxB₂ increase were significantly inhibited by pretreatment with Ro 23-3423 in a dose-dependent manner. When compared to controls, plasma and lymph levels of 6-keto-PGF_1α, PGF_2α and PGE₂ after endotoxin infusion were increased several-fold by administering Ro 23-3423 up to plasma levels of 10 μg/ml. Doses over 30 mg/kg with blood levels above 10 μg/ml reduced plasma and lymph levels of 6-keto-PGF_1α, PGF_2α and PGE₂, suggesting cyclooxygenase blockade at this dose. The peak 6-keto-PGF_1α levels at 60 min after endotoxin infusion in sheep with Ro-23-3423 levels below 10 μg/ml were associated with the greatest systemic hypotension due to a reduced SVR (r = −0.86). After endotoxin infusion the leukotrienes B₄, C₄, D₄ and E₄ in lung lymph were assayed by radioimmunoassay and high pressure liquid chromatography and remained at baseline values.     

Characterization of leukotriene A4 and B4 bioysnthesis

We have studied LTA₄ and LTB₄ synthesis in a cell-free system from RBL-1 cells. All the enzymes leading to the formation of LTB₄ from arachidonic acid are localized in the soluble fraction (100, 000 x g supernatant) of these cells. The formation of LTA₄ and LTB₄ is complete by 10 min. When we varied the arachidonic acid concentration from 1 to 300 μM, the synthesis of LTB₄ leveled off at 30 μM and of LTA₄ at 100 μM while 5-HETE had not reached a plateau at 300 μM. This enzyme system has the capacity to generate relatively large amounts of 5-HETE and LTA₄ and only a relatively small amount of LTB₄. Therefore, the rate limiting step is not the 5-lipoxygenase, the first step in the pathway, but the conversion of LTA₄ to LTB₄. This is in contrast to cyclooxygenase pathway where the first step is rate limiting. A second addition of arachidonic acid at submaximal concentration for LTA₄ synthesis did not produce any additional LTA₄ or LTB₄. Further study of this phenomenon showed that the 5-lipoxygenase and LTA-synthase were inactivated with time by preincubation with arachidonic acid and that peroxy fatty acids seem to be the inactivating species.     

6,7,4′-trihydroxyisoflavan: A potent and selective inhibitor of 5-lipoxygenase in human and porcine peripheral blood leukocytes

The effect of 6,74′-trihydroxyisoflavan on human platelet 12-lipoxygenase and human and porcine PMNL 5-lipoxygenase activities has been studied. 6,7,4′-Trihydroxyisoflavan was found to inhibit 5-lipoxygenase more strongly than 12-lipoxygenase; its concentration for 50% inhibition (IC₅₀) was 1.6 μm for human and porcine 5-lipoxygenase adn 22 μM for human platelet 12-lipoxygenase. Inhibition of microsomal cyclooxygenase from ram seminal vesicles is exhibited at much higher concentrations of 6,7,4′-trihydroxyisoflavan (IC₅₀ = 200 μM).     

Antagonism by ETYA of the effects of leukotrienes on ileum and lung parenchymal strips independent of effects on arachidonic acid metabolism

5,8,11,14-Eicosatetraynoic acid (ETYA), a compound which inhibits both the cyclooxygenase and lipoxygenase pathways of arachidonic acid metabolism, antagonized the contraction of segments of guinea-pig ileal longitudinal muscle produced by SRS-A (IC₅₀ = 2.73 μM). This activity was unaffected by pretreatment of the tissues with 10 μM indomethacin. Phenidone, another mixed cyclooxgenese-lipoxygenese inhibitor, was inactive. FPL-55712, an SRS-A antagonist, was a very potent inhibitor (IC₅₀ = 0.011 μM).BW755C and NDGA nonselectively inhibited the contractions of the guinea-pig ileal longitudinal muscle induced by SRS-A or histamine.ETYA antagonized the contraction of the guinea-pig ileal strip produced by 6 nM synthetic LTC₄ (IC₅₀ = 9.3 μM). FPL-55712 demonstrated an IC₅₀ of 0.3 μM in a similar series of experiments. ETYA, 1, 3 or 10 μM did not inhibit the contractions elicited by 0.5 μM of histamine.This was not a tissue-selective effect since 100 μM ETYA antagonized the LTC₄-induced contraction of the guinea-pig lung parenchymal strip preparation.These data demonstrate that ETYA antagonized the contractile effect of the leukotrienes on tissues from the gastrointestinal tract and lung. Furthermore, the inability of indomethacin or phenidone to inhibit the contractile response suggests that antagonism by ETYA may occur by a mechanism independent of cyclooxygenase and lipoxygenase enzymes.     

Ebselen reduces the formation of LTB4 in human and porcine leukocytes by isomerisation to its 5S, 12R-6-trans-isomer

Ebselen, a new organoselenium compound with pronounced anti-inflammatory properties, selectively inhibits the formation of leukotriene B₄ in human and porcine leukocytes with half-maximal inhibition at 4.0 and 2.7 μmol/l, respectively. The underlying mechanism was found to be a cis-trans-isomerisation of leukotriene B₄ to the 5S,12R-6-trans-isomer. 5-Hydroxy-eicosatetraenoic acid was also isomerised to the 8-trans-isomer. At higher concentrations, ebselen induces a dose-dependent decrease in the sum of total 5-lipoxygenase products with half-maximal inhibition at 30 μmol/l. Additionally, the effects of ebselen on human platelet 12-lipoxygenase and cyclooxygenase were investigated. Human platelet 12-lipoxygenase and cyclooxygenase were inhibited in a dose dependent manner with half-maximal inhibition at 20 μmol/l and 5 μmol/l, respectively. We suggest that suppression of leukotriene B₄-formation by isomerisation to a biologically inactive compound represents a promising approach to the therapy of inflammation.     

Chemotactic activity of thromboxane B2, prostaglandins and their metabolites for polymorphonuclear leucocytes

(1) The chemotactic activities of thromboxane B₂ (TxB₂, PGE₂, PGF_2α, the 15-oxo, 15-oxo-13,14-dihydro and 13,14-dihydro metabolites of PGE₂, PGF_2α, and a metabolite of TxB₂ for polymorphonuclear leucocytes (PMN) have been investigated.(2) Thromboxane B₂ increased the directional migrationm of rat peritoneal PMN at a concentration of 2.0 μg/ml and of human peripheral neutrophils at a concentration of 0.5 μg/ml.(3) Neither PGE₂, PGF_2α nor their metabolites showed chemotactic activity for rat peritoneal PMN.(4) PGF_2α and 15-oxo-13,14-dihydro-thromboxane B₂ showed no chemotactic activity for human peripheral PMN.(5) The possible role of thromboxane B₂ in inflammation is discussed.     

Prostaglandin synthesis by enterocyte microsomes of rabbit small intestine

We studied the prostaglandin (PG) synthetic capacity of microsomes of a relatively pure population of rabbit enterocytes and determined ideal conditions for product synthesis. The epithelial cells were freed from the basement membrane by a combination of calcium chelation and mechanical vibration, and 100,000 x g microsomes were prepared. These microsomes were found to synthesize PG from exogenously added arachidonic acid. The ideal conditions for the reaction were a microsomal protein concentration of 1.0 mg/ml, an arachidonic acid concentration of 33 μM, a reaction mixture pH of 8.0 − 9.5 and with epinephrine 1.5 mM added as a cofactor. The product yields increased linearly with time up to 30 min, of incubation and were inhibited by 100 μM indomethacin. Under the above ideal conditions enterocyte microsomes yielded the following products expressed as pmole/mg protein/20 min, incubation: PGF_2α 98±7, PGE₂ 48±9, PGD₂ 28±7, TxB₂ 40±5, 6 Keto PGF_1α 15 ± 6.     

Inhibition of production of LTB4 and chemotactic agent from rat alveolar macrophages treated with t-butyl hydroperoxide is independent of ATP depletion

In rat alveolar macrophages treated with 100 microM t-butyl hydroperoxide (tBOOH), leukotriene B4 (LTB4) synthesis was significantly lower than the basal level while levels of cyclooxygenase pathway products were increased. LTB4, 5,6-dihydroxyeicosatetraenoic acid (5,6-DiHETEs), and 5-hydroxyeicosatetraenoic acid (5-HETE) production in macrophages was significantly stimulated by 2 microM A23187, but this was suppressed 40% by simultaneous addition of 10 microM tBOOH and completely abolished by 100 microM tBOOH. Basal and A23187-stimulated macrophage production of chemotactic agents were similarly suppressed by addition of tBOOH; this effect paralleled depression of cellular LTB4 synthesis. In contrast to the significant depression of A23187-stimulated formation of 5-lipoxygenase products by 10 microM tBOOH, cellular adenosine triphosphate (ATP) was unchanged. Macrophages pretreated with KCN led to a 42% decline in ATP levels; however, LTB4, 5,6-DiHETEs, and 5-HETE production in response to A23187 was not suppressed. The results indicate that inhibition of 5-lipoxygenase pathway products in macrophages treated with tBOOH did not occur by depletion of cellular ATP levels.     

Effect of hypoxia on prostacyclin production in cultured pulmonary artery endothelium

Exposure of cultured bovine pulmonary artery endothelial cells to varying levels of hypoxia (10% or 0% O₂) for 4 hours resulted in a significant dose-dependent inhibition in endothelial prostacyclin synthesis (51% and 98%, at the 10% and 0% O₂ levels respectively, p <0.05, compared to 21% O₂ exposure values). Release of ³H-arachidonic acid from cellular pools was not altered by hypoxia. Some of the cells were incubated with arachidonic acid (20 μM for 5 min) or PGH₂ (4 μM for 2 min) immediately after exposure. Endothelium exposed to 0% O₂, but not to 10% O₂, produced significantly less prostacyclin after addition of either arachidonic acid (25 ± 5% of 21% O₂ exposure values, n=6, p <0.01) or PGH₂ (31 ± 3% of 21% O₂ exposure values, n=6, p <0.05). These results suggest that hypoxia inhibits cyclooxygenase at the 10% O₂ level and both cyclooxygenase and prostacyclin synthetase enzymes at the 0% O₂ exposure levels. Exposure of aortic endothelial cells resulted in a 44% inhibition of prostacyclin at the 0% exposure level. No significant alteration in prostacyclin production was found in pulmonary vascular smooth muscle cells exposed to hypoxia. These data suggest that the increased prostacyclin production reported in lungs exposed to hypoxia is not due to a direct effect of hypoxia on the main prostacyclin producing cells of the pulmonary circulation.     

Effects of acute and chronic ethanol administration on thromboxane and prostacyclin levels and release in rat brain cortex

The effects of acute (3 g/kg i.p. two jours before sacrifice) and chronic (6% in drinking water and libitum for 15 days) ethanol administration to male rats (200 g body weight) on basal levels and release of TxB_2n2 and 6-keto-PGF_1α in brain cortex were studied. Also the effects of chronic ethanol (30 days) on the fatty acid composition of brain cortical tissue and liver phospholipids were investigated. Acute treatment reduced basal levels of 6-keto-PGF_1α in brain cortical tissue (rats sacrificed by microwave radiation) and decreased the accumulation of 6-keto-PGF_1α in brain cortex after post-decapitation ischemia (PDI). Basal TxB₂ levels were also reduced in brain cortex, but TxB₂ release during PDI was enhanced. Chronic treatment (15 days) induced changes of TxB₂ and 6-ketoPGF_1α levels and release during PDI in brain cortex less pronounced than those observed after acute treatment. The reduced effectiveness of chronic ethanol on brain vasoactive eicosanoids suggest adaptation processes. After chronic treatment (30 days), the fatty acid composition of brain cortex total phospholipids were not significantly modified. Changes of eicosanoid production after ethanol were thus independent from modifications of the fatty acid precursor pool(s). Ethanol-induced changes in the production of vascular eicosanoids in the CNS may be of relevance to the action of the compound on the CNS and may also have implications for the clinic.     

Characterisation of (R)-2-(2-Fluorobiphenyl-4-yl)-N-(3-Methylpyridin-2-yl)Propanamide as a Dual Fatty Acid Amide Hydrolase: Cyclooxygenase Inhibitor

Background

Increased endocannabinoid tonus by dual-action fatty acid amide hydrolase (FAAH) and substrate selective cyclooxygenase (COX-2) inhibitors is a promising approach for pain-relief. One such compound with this profile is 2-(2-fluorobiphenyl-4-yl)-N-(3-methylpyridin-2-yl)propanamide (Flu-AM1). These activities are shown by Flu-AM1 racemate, but it is not known whether its two single enantiomers behave differently, as is the case towards COX-2 for the parent flurbiprofen enantiomers. Further, the effects of the compound upon COX-2-derived lipids in intact cells are not known.

Methodology/Principal Findings

COX inhibition was determined using an oxygraphic method with arachidonic acid and 2-arachidonoylglycerol (2-AG) as substrates. FAAH was assayed in mouse brain homogenates using anandamide (AEA) as substrate. Lipidomic analysis was conducted in unstimulated and lipopolysaccharide + interferon γ- stimulated RAW 264.7 macrophage cells. Both enantiomers inhibited COX-2 in a substrate-selective and time-dependent manner, with IC₅₀ values in the absence of a preincubation phase of: (R)-Flu-AM1, COX-1 (arachidonic acid) 6 μM; COX-2 (arachidonic acid) 20 μM; COX-2 (2-AG) 1 μM; (S)-Flu-AM1, COX-1 (arachidonic acid) 3 μM; COX-2 (arachidonic acid) 10 μM; COX-2 (2-AG) 0.7 μM. The compounds showed no enantiomeric selectivity in their FAAH inhibitory properties. (R)-Flu-AM1 (10 μM) greatly inhibited the production of prostaglandin D₂ and E₂ in both unstimulated and lipopolysaccharide + interferon γ- stimulated RAW 264.7 macrophage cells. Levels of 2-AG were not affected either by (R)-Flu-AM1 or by 10 μM flurbiprofen, either alone or in combination with the FAAH inhibitor URB597 (1 μM).

Conclusions/Significance

Both enantiomers of Flu-AM1 are more potent inhibitors of 2-AG compared to arachidonic acid oxygenation by COX-2. Inhibition of COX in lipopolysaccharide + interferon γ- stimulated RAW 264.7 cells is insufficient to affect 2-AG levels despite the large induction of COX-2 produced by this treatment.     

Inhibition of prostaglandin synthesis in mouse 3T3 fibroblasts and human platelets by substituted phenols

Several substituted phenols with antioxidant properties were potent reversible inhibitors of prostaglandin synthesis in 3T3 cell cultures. The ID₅₀'s for prostaglandin (PG) E₂ synthesis in these cells were 0.1 μM for 2,6-xylenol, 5 μM for tricresol, 6 μM for -cresol, 7 μM for -cresol, 15 μM for 3,5-xylenol, 30 μM for -cresol and 100 μM for phenol. The corresponding values for aspirin and indomethacin were 4 μM and 0.02 μM, respectively.The substituted phenols also inhibited serotonin release, aggregation and prostaglandin synthesis in human platelets induced by arachidonic acid but not by PGG₂.     

Arachidonic acid stimulates interleukin-6 release from rat peritoneal macrophages in vitro: Evidence for a prostacyclin-dependent mechanism

Interleukin-6 (IL-6) is a cytokine involved in the differentiation of B-cells to antibody secreting plasma cells, the activation of T-cells, and the stimulation of hepatocyte production of acute phase proteins. Because of the pro-inflammatory effects of this cytokine, we investigated the ability of the fatty acid arachidonic acid (AA) to regulate the release of IL-6 from rat resident peritoneal macrophages (Mø) in vitro. AA (0.5–16 μM) stimulated IL-6 release during a 4 h incubation period in a biphasic manner, with 4 μM AA generating a peak of IL-6 release (3-5-fold). AA (0.5–16 μM) also induced an increasing release of the AA metabolite thromboxane B₂ (TXB₂). The AA-induced release of IL-6 occurred within 1–2 h of incubation, whereas TXB₂ concentrations were elevated within 5 min of AA treatment. The TX synthetase inhibitor CGS 12970 (4.0 μM and 40.0 μM) effectively blocked the generation of TXB₂, but increased prostacyclin (PGI₂) generation and potentiated the release of IL-6. In addition, PGI₂, as well as the PGI₂ agonists iloprost and cicaprost, stimulated IL-6 release from Mø by greater than 5-fold over vehicle-treated basal levels. These data suggest that PGI₂ (but not TXA₂) is involved in AA-induced IL-6 release from peritoneal Mø.     

Opposite effects of adrenalectomy on eicosanoid release in rat peritoneal macrophages and spleen

The effect of adrenalectomy on the formation of cyclo-oxygenase and lipoxygenase products by activated peritoneal rat macrophages was determined and compared with that of the spleen. After isolation, the cells and tissues were incubated with [1-¹⁴C] arachidonic acid and the Ca-ionophore A23187 and the metabolites isolated by HPLC chromatography. The main components formed in the macrophages of the controls are 6-keto-PGF_1α, TxB₂ and 12-HETE. One peak represents 5, 12 di HETE. Smaller amounts of PGF_2α, PGE₂, PGD₂, LTB₄ and 15-HETE are also present. After adrenalectomy, a considerable increase occurs in the amounts of LTB₄, 15-HETE and 12-HETE. The increase in the PG is smaller. The compounds formed from endogenous arachidonic acid are also determined. In the cells of the controls, the formation of LTB₄ is considerably increased after adrenalectomy. In the spleen, PGD₂ and 12-HETE are decreased after adrenalectomy.The effect of the macrophages is most probably related to a diminished amount or inactivation of lipocortin, a glucocorticosteroid induced peptide with PlA₂ inhibitory activity in adrenalectomized animals. In the decrease in formation in the spleen, the absence of the permissive effect of glucocorticosteroids on the hormone-induced lipolysis may play a role.     

Differential response of articular chondrocyte populations to thromboxane B2 and analogs of prostaglandin cyclic endoperoxides

The effects of two unsaturated fatty acids, prostaglandin E₂, thromboxane B₂ (TxB₂) and 2 analogs of PG endoperoxide on monolayer cultures of rabbit articular chondrocytes have been studied. Arachidonic and linoleic acids had no effect on either DNA or sulfated-glycosaminoglycan biosynthesis, while 13,14 dihydro-PGE₂ and PGE₂ markedly inhibited the former. Two epoxymethano analogs of endoperoxide PGH₂ (Em-PGH₂) at concentrations of 2.5 and 25 μg/ml stimulated cell proliferation while reducing ³⁵SO₄ incorporation. By contrast, Em-PGH₂ at lower concentrations (0.25 – 250 ng/ml) inhibited DNA synthesis in a dose-dependent manner. TxB₂ at 2.5 μg/ml did not alter cellular proliferation. At lower concentrations, 2.5 and 25 ng/ml, TxB₂ significantly stimulated sulfated-glycosaminoglycan biosynthesis in at least one of the chondrocyte populations tested. The results also demonstrated marked differences in the effects of TxB₂ and the Em-PGH₂ analogs on the partitioning of newly synthesized sulfated-proteoglycan between the cells and medium of these cell cultures.     

Stimulation by melittin of adrenocorticotropin and beta-endorphin release from rat adenohypophysis in vitro

The effect of melittin on the release of adrenocorticotropin (ACTH) and β-endorphin from the corticotropic cells of the rat adenohypophysis was examined in vitro. Anterior pituitary quarters were perifused or incubated in vitro and ACTH- (ACTH-IR) or β-endorphin-like immunoreactivity (β-End-IR) in the medium was measured by radioimmunoassays. Melittin stimulated ACTH-IR and β-End-IR release. This effect was rapid in onset, reversible, and concentration-related (50–5000 ng/ml) and dependend on the presence of calcium ions in the incubation medium. Melittin also elevated the tissue content of unesterified ³H-arachidonic acid that had previously been incorporated into lipids. Purported phospholipase A₂ inhibitors, mepacrine (up to 1 mM), dexamethasone (0.5 mg/kg in vivo, 50 nM in vitro), or p-bromophenacylbromide (100 μM), did not decrease the Melittin (500 ng/ml) — induced β-End-IR release, although mepacrine and dexamethasone may have inhibited phospholipase A₂ activity as indicated by an inhibition of melittin-evoked prostaglandin E₂ formation. After stimulation by melittin (500 ng/ml), β-End-IR release was not affected by the cyclooxygenase inhibitor inddomethacin (up to 140 μM), whereas nordihydroguaiaretic acid (100 μM), a lipoxygenase inhibitor, or BW755C (250 μM), an inhibitor of both cyclooxygenase and lipoxygenase, abolished melittin-induced hormone secretion. We conclude that melittin generates a signal in the corticotropic cells of the rat adenohypophysis which induces hormone secretion by exocytosis. This signal may be unrelated to the activation by melittin of phospholipase A₂.