Possible relation of prostaglandins to PMN-derived mediators of host metabolic responses to inflammation

Stimulated rabbit peritoneal polymorphonuclear leukocyte (PMN) preparations simultaneously produce prostaglandin-like material and mediators that induce metabolic alterations in experimental animals characteristic of the host's responses to inflammation. The alterations observed in rats include responses by: proteins, carbohydrates, hormones, trace metals, and total blood neutrophils. This study demonstrates a possible relationship between prostaglandins and PMN-derived substances that mediate plasma zinc depression, hepatic amino acid uptake, and increased numbers of blood neutrophils. Production of these mediators by stimulated-PMN preparations was prevented by 23 μM indomethacin or 93 μM aspirin. Conversely, morphine (2 mM or less) had no detrimental effect on production of these mediators, although, it consistently stimulated production of a substance stimulating total blood neutrophilia. In addition, 2 μM prostaglandin E and F stimulated production of substances mediating hepatic amino acid uptake and plasma zinc depression, respectively. At this concentration, neither prostaglandin significantly altered production of substances mediating increased numbers of total blood neutrophils. A partial-nitrogen atmosphere, dibutyryl cyclic analogs of AMP and GMP, or homogenization of the PMN had no effect on mediator production. The inhibitory effect of indomethacin and aspirin also was observed with PMN-homogenates. These experimental observations suggest that prostaglandin synthesis has a function in production of mediators by stimulated-PMN preparations.     

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 muM for 2,6-xylenol, 5 muM for tricresol, 6 muM for p-cresol, 7 muM for o-cresol, 15 muM for 3,5-xylenol, 30 muM for m-cresol and 100 muM for phenol. The corresponding values for aspirin and indomethacin were 4 muM and 0.02 muM, respectively. The substituted phenols also inhibited serotinin release, aggregation and prostaglandin synthesis in human platelets induced by arachidonic acid but not by PGG2.     

Effect of single oral administrations of non steroidal antiinflammatory drugs to healthy volunteers on arachidonic acid metabolism in peripheral polymorphonuclear and mononuclear leukocytes

The effects of a single oral administration of acetylsalicylic acid (500 mg), indomethacin (50 mg) and piroxicam (40 mg) to healthy volunteers on functional and biochemical parameters of platelets, polymorphonuclear (PMN) and mononuclear (MNL) leukocytes were evaluated. Blood was collected before and two hours after the drug intake and blood cells separated according to conventional techniques. The considered drugs almost completely suppressed the aggregation of platelets, whereas they did not affect either PMN and MNL aggregation. Superoxide anion generation by leukocytes was (PMN), or no effect (MNL) was observed after piroxicam and indomethacin respectively. The formation of arachidonate metabolites via the 5-lipoxygenase pathway by PMN and MNL challenged with 10 microM A23187 was unchanged following aspirin and indomethacin. In this respect a selective increase of 5-HETE and LTC4 synthesis by MNL only was detected after piroxicam administration. The three drugs similarly reduced TXB2 synthesis by platelets and PMN (-80% for aspirin and indomethacin, and -40% for piroxicam). As far as MNL is concerned, aspirin inhibited this metabolite by 80%, while indomethacin reduced it by 40% only. In contrast piroxicam increased TXB2 synthesis by stimulated MNL. It can be concluded that the considered antiinflammatory drugs 1) differently affect the cyclooxygenase enzyme in platelets and leukocytes; 2) at variance with the situation in platelets, the inhibition of thromboxane formation by leukocytes is not related to modifications of cellular function; 3) the formation of arachidonate metabolites via the 5-lipoxygenase pathway is affected by piroxicam only.     

Human endothelial cells inhibit granulocyte aggregation in vitro

Granulocyte aggregation in response to circulating or locally released inflammatory mediators may cause vascular injury. The factors that regulate the granulocyte aggregation response and prevent its occurrence are not defined. We found that primary monolayers of human endothelial cells (EC) derived from umbilical veins released products that inhibited granulocyte aggregation. When polymorphonuclear leukocytes (PMN) and EC were incubated together, the subsequent aggregation response to N-formyl-methionyl-leucyl-phenylalanine (fMLP) was inhibited by 40 to 60%, depending in part on the duration of incubation and the concentration of the agonist. Suspension of the granulocytes in albumin-containing buffer that had been rocked with EC monolayers had a similar effect, demonstrating that the EC release a soluble product that modulates the aggregation response. The fMLP concentration-response curve was shifted downward and to the right by EC. Incubation of the granulocytes with endothelial monolayers for various times indicated that the inhibition was maximal at 2 to 3 min, and the PMN responsiveness returned to control over the next 15 min. The inhibiting effect was not selectively directed against fMLP, because incubation of PMN with EC or suspending the PMN in supernatants from endothelial monolayers also inhibited aggregation stimulated by platelet-activating factor, leukotriene B4, and C5a desarg. Release of the inhibitory activity by EC was attenuated by indomethacin, suggesting that the activity is in part due to a cyclooxygenase pathway product. Prostacyclin (PGI2), an eicosanoid produced by EC via the cyclooxygenase pathway, inhibited granulocyte aggregation; however, PGI2 was much less potent as an inhibitor of PMN aggregation than of platelet aggregation. Furthermore, the concentration of PGI2 in buffer that had been incubated with EC was not sufficient to account for the magnitude of the PMN inhibition. The concentration of prostaglandin E2 (PGE2) was also insufficient to completely account for the inhibition. EC that had been treated with indomethacin or aspirin, which blocked the release of PGI2 and PGE2, retained the partial ability to release an activity that blunted granulocyte aggregation; this inhibiting activity was stable at 37 degrees C for 60 min. The results indicate that human EC have the biologic potential to modulate granulocyte aggregation stimulated by inflammatory mediators, and the activity is only partly due to PGI2 and other cyclooxygenase products of arachidonic acid.(ABSTRACT TRUNCATED AT 400 WORDS)     

Correlation of the biosynthesis of prostaglandin and cyclic AMP in monolayer cultures of rabbit articular chondrocytes

We have utilized ionophores to test whether stimulation of chondrocyte prostaglandin biosynthesis is accompanied by an increase in cyclic nucleotide levels in these cells. Radioimmunoassay of prostaglandin E2, 6-oxo-prostaglandin F1 alpha (the stable metabolite of prostaglandin I2) and prostaglandin F2 alpha showed that synthesis of each was stimulated by the divalent-cation ionophore, A23187 after short-term incubation (1-7 min) in serum-free medium. No stimulation of thromboxane B2 was detected. Two monovalent ionophores, lasalocid and monensin failed to stimulate prostaglandin biosynthesis after short-term incubation. Ionophore A23187-stimulated prostaglandin biosynthesis was variably and partially inhibited by sodium meclofenamate, indomethacin and aspirin, but not by sodium salicylate. Ionophore A23187-stimulated prostaglandin biosynthesis was accompanied by a 7.5-fold increase in cyclic AMP levels after 15 min. Sodium meclofenamate, indomethacin and aspirin which inhibited prostaglandin E2 biosynthesis also reduced cyclic AMP levels. Exogenous prostaglandin E2 (1 microgram/ml) stimulated cyclic AMP biosynthesis, which was not inhibited by aspirin. These results indicated that prostaglandins can be considered as one of the local effectors controlling cyclic AMP production in articular cartilage.     

Stimulation of microsomal prostaglandin synthesis by a vasoactive material isolated from blood plasma

Stimulation of prostaglandin synthesis by a material with coronary vasoconstrictor activity extracted from blood plasma was examined. The vasoactive material decreased the Km for arachidonate in the overall synthesis of prostaglandins by rabbit renal microsomal preparations but did not change Vmax. Increases in prostaglandin synthesis caused by the vasoactive material and L-tryptophan or L-epinephrine were additive or synergistic, whereas increases produced by the vasoactive material and hemin or hemoglobin were not. However, hemin and hemoglobin stimulated synthesis of all prostaglandins equally whereas the active material increased the synthesis of prostaglandin F_2α at the expense of other prostaglandins, both in the presence and absence of heme compounds. The increase in prostaglandin F_2α with respect to the other prostaglandins occurred in the presence of reduced glutathione. The vasoactive material attenuated inhibition of prostaglandin synthesis induced by indomethacin or aspirin but not that produced by 5,8,11,14-eicosatetraynoic acid. The interaction of the vasoactive material and indomethacin was competitive whereas hemin attenuated the effects of only low concentrations of indomethacin. Epinephrine enhanced indomethacin inhibition. These data indicate that mode of action of the vasoactive material in prostaglandin synthesis is unlike that of glutathione, aromatic amines, or heme containing compounds.     

Cytostatic and cytolytic activities of macrophages regulation by prostaglandins

Murine peritoneal macrophages (M phi), activated in vivo or in vitro, remarkably inhibited the uptake of thymidine by a lens epithelial cell line, while resident M phi, or M phi induced by thioglycollate, exhibited much lower or no cytostatic capacity. The target cells were partially protected from the cytostatic activity by the anti-inflammatory agents indomethacin, aspirin, and dexamethasone, but not by lipoxygenase inhibitors. The protective activity of indomethacin and aspirin, but not of dexamethasone, was completely counteracted by prostaglandin E2 (PGE2). Yet, PGE2 alone has no effect on the uptake of [3H]thymidine by lens epithelial cells. PGE1 resembled PGE2 in its effect on this system, whereas PGA2, PGB2, or PGF2 alpha had no detectable activity. The counteracting effect of PGE2 was mimicked by dibutyryl cAMP or by cholera toxin, an agent which increases cAMP levels. These findings suggest that PGEs are not direct cytostatic agents, but rather, are essential mediators for the development of the cytostasis. Activated M phi did not lyse cells of the original lens epithelial cell line, but caused substantial cytolysis of cells of a subline derived from it. In contrast to its aforementioned effect on the cytostasis, PGE2 inhibited the cytolytic activity of M phi. Thus, this study provides a first demonstration in a single system of the opposite effects of PGEs on M phi activity on target cells, i.e., mediating the cytostasis and inhibiting the cytolysis.     

Prostanoid synthesis in peripheral nerve

The transformation of [1-14C]arachidonic acid into radiolabeled prostanoids was studied with homogenates and desheathed sciatic nerves of rats and frogs. All of the preparations studied were shown to synthesize prostaglandins; the specific prostanoids made were characterized by their migration on thin-layer chromatograms in three separate solvent systems. Both desheathed rat nerve and homogenates synthesize prostaglandin E2, prostaglandin F2 alpha, prostaglandin D2, 6-ketoprostaglandin F1 alpha and thromboxane B2. With preparations from frog nerve, prostaglandin E2 was the major prostanoid product formed. Several conditions were able to modulate the production of prostaglandin E2 with desheathed frog nerve. Electrical stimulation at high frequency (100 Hz) for 30 min increased the formation of labeled prostaglandin E2. Inclusion of glutathione also affected prostaglandin E2 formation. A lower concentration (0.1 mM) stimulated prostaglandin synthesis, while 1 mM glutathione was partially inhibitory. In both the rat and frog system, prostanoid synthesis was suppressed by indomethacin and aspirin.     

Activation of a 15-lipoxygenase/leukotriene pathway in human polymorphonuclear leukocytes by the anti-inflammatory agent ibuprofen

Human peripheral blood polymorphonuclear leukocytes (PMNs) metabolized [14C]arachidonic acid predominantly by lipoxygenase pathways. The major products were 5-hydroxy-6,8,11,14-eicosatetraenoic acid (5-HETE) and 15-HETE. These and other lipoxygenase products, including their derived leukotrienes, have been implicated as mediators of inflammatory and allergic reactions. In human platelets, the nonsteroidal anti-inflammatory drug ibuprofen inhibited production of the cyclooxygenase product thromboxane B2 (I50 = 65 microM), whereas the lipoxygenase product 12-HETE was not appreciably affected even at 5 mM ibuprofen. The 5-lipoxygenase of human PMNs (measured by 5-HETE formation) was inhibited by ibuprofen but was about six times less sensitive (I50 = 420 microM) than the platelet cyclooxygenase. The unexpected observation was made that the human PMN 15-lipoxygenase/leukotriene pathway was selectively activated by 1-5 mM ibuprofen. Metabolites were identified by ultraviolet spectroscopy, by radioimmunoassay, or by retention times on high pressure liquid chromatography in comparison with authentic standards. The major product was 15-HETE; and in all of 19 donors tested, 15-HETE formation was stimulated up to 20-fold by 5 mM ibuprofen. Other identified products included 12-HETE and 15- and 12-hydroperoxyeicosatetraenoic acid. Activation of the 15-lipoxygenase by ibuprofen occurred within 1 min and was readily reversible. The effects of aspirin, indomethacin, and ibuprofen on the PMN 15-lipoxygenase were compared in six donors. Ibuprofen produced an average 9-fold stimulation of the enzyme, whereas aspirin and indomethacin resulted in an average 1.5- and 2-fold enhancement, respectively.     

The role of the neutrophil and formed elements of the blood in an in vitro model of reperfusion injury

Using The globally ischaemic isolated guinea-pig heart we conducted studies to assess the role of activated neutrophils (PMNs) and the role of the endothelium in reperfusion injury. Reperfusion injury was induced by a 20 min period of global ischaemia followed by a 30 min reperfusion with Krebs' buffer supplemented with f-Met-Leu-Phe (fMLP) and heparinized blood. Ischaemia alone or blood alone resulted in a complete recovery in contractile function measured by developed pressure, fMLP (500 muM) and blood, administered to normoxic hearts did not affect contractile function. The combination of 100 muM fMLP and blood beginning at reperfusion and continuing for 30 min decreased the recovery in contractile function (max. 33 +/- 6% reovery) while buffer and 100 pM fMLP resulted in a complete recovery in function. In hearts infused with buffer and neutropenic blood incubated with 100 muM fMLP a complete recovery in function was observed. Isolated peritoneal neutrophils, 7-70 x 10(5) PMN/ min, incubated with 100 muM fMLP and Krebs' solution decreased contractile function in a concentration-related manner (max. 44 +/- 11% recovery). Platelets, plasma or red blood cells alone incubated with fMLP did not decrease recovery in developed pressure. Platelets and PMN incubated with 100 muM fMLP did not, while red blood cells and PMN did, elicit a reduction in recovery in contractile function (34 +/- 4% recovery). A 20 min period of global ischaemia destroys the functional integrity of the endothelium (response to Ach). Pre-treatment of the heart with sufficient H(2)O(2) to functionally damage the endothelium, followed by infusion of Krebs' solution supplemented with blood and 100 muM fMLP also elicited a reduction in recovery of contractile function (42 +/- 15% recovery). In summary, partially activated neutrophils play a major role in reperfusion injury and there exists a cooperativity between the RBC and PMN in this model.     

Evaluation of the role of the F prostaglandins in canine bile flow

Prostaglandin F_2α (PGF_2α) has been shown to be an effective stimulant of hepatic bile flow producing a specific chloride rich bile. Subsequent evaluation by radioimmunoassay has shown that prostaglandin F compounds are present in relatively large amounts in canine hepatic bile. This study evaluates the effect of PGF_2α administration and of prostaglandin synthetase inhibition by aspirin and indomethacin on bile flow and radioimmunoassayable prostaglandin F (iPGF) secretion. Chronic, canine bile fistula preparations were utilized and the enterohepatic circulation was maintained by intravenous bile salts. Bile volume and composition were evaluated by standard techniques as well as bile PGF concentration by radioimmunoassay during bile salt infusion and during bile salt and PGF_2α, aspirin and indomethacin infusion in varying doses. Both aspirin and PGF_2α were potent stimulatns of hepatic bile flow with aspirin producing a chloride rich bile similar to that produced by PGF_2α. PGF_2α produced dose related increases in bile iPGF concentration and output indicating that as the systemic concentration increases during infusion of PGF_2α the lipid appears in bile. Aspirin in the highest dose administered, decreased iPGF concentration in bile while output was unchanged. Indomethacin was ineffectual in consistently altering bile flow or iPGF secretion. This study demonstrates that iPGF is present in canine bile, that its concentration can be altered by prostaglandin infusion while prostaglandin synthetase inhibition has minimal effects on bile iPGF secretion.     

Indomethacin but not aspirin inhibits basal and stimulated lipolysis in rabbit kidney

The concurrent effect of indomethacin or aspirin on prostaglandins (PGs) biosynthesis and on cellular fatty acid efflux were compared. Studies with rabbit kidney medulla slices and with isolated perfused rabbit kidney showed a marked difference between the two non-steroidal anti-inflammatory drugs, with regard to their effects on fatty acid efflux from kidney tissue. While aspirin effect was limited to inhibition of PGs biosynthesis, indomethacin also reduced the release of free fatty acids. In medullary slices, indomethacin inhibited the Ca²⁺ stimulation of phospholipase A₂ activity and the resulting release of arachidonic and linoleic fatty acids. In the isolated perfused rabbit kidney, indomethacin inhibited the basal efflux of all fatty acids as well as the angiotensin II — induced selective release of arachidonate. Indomethacin also blunted the angiotensin II — induced temporal changes in the efflux of all other fatty acids. Neither indomethacin nor aspirin affected significantly the uptake and incorporation of exogenous (¹⁴C)-arachidonic acid into kidney total lipid fraction.Our tentative conclusion is that indomethacin inhibits basal as well as Ca²⁺ or hormone stimulated activity of kidney lipolytic enzymes. This action of indomethacin reduces the pool size of free arachidonate available for conversion to oxygenated products (both prostaglandin and non-prostaglandin types). The non-steroidal anti-inflammatory drugs can therefore be divided into two groups: a) $\text{aspirin-type compounds}$ which inhibit PGs formation only by interacting with the prostaglandin endoperoxide synthetase and b) $\text{indomethacin-type compounds}$ which inhibit PG generation by both reduction in the amount of available arachidonate and direct interaction with the enzyme.     

Effects of in vitro and in vivo supplementation with zinc on superoxide anion production in leukocytes

The effects of zinc on the rate of production of bactericidal O2- of polymorphonuclear leukocytes (PMN) in response to three different types of stimulating agents (serum-treated zymosan (STZ), Con A, and myristate) were studied. The percentage reduction of O2- production of PMN stimulated by STZ, Con A, and myristate were all reduced in response to Zn, irregardless of whether Zn was added to the reaction mixture immediately before SZT addition or following a prior 20 min. incubation of PMN in the presence of Zn. However, when Zn was introduced intraperitonially into guinea pigs before the collection of PMN from the animal, zinc treatment produced inhibition only in STZ-activated PMN; it produced no effect in O2- production of PMN stimulated by myristate, and it further augmented the O2- production stimulated by Con A.     

Tumor-mediated immunosuppression: prevention by inhibitors of prostaglandin synthesis

The addition of MC16 tumor cells (a prostaglandin E2-producing cell line induced in C57BL/6J mice by methylcholanthrene) to cultures of cells to sheep red blood cells. This inhibition can be blocked by adding to the cultures prostaglandin synthetase inhibitors, such as indomethacin, flufenamic acid and aspirin. These MC16 tumor cells are also immunosuppressive in vivo. Mice bearing the syngeneic MC16 tumor become unresponsive to sheep red blood cells as the tumor grows. As in the in vitro test system, inhibitors of prostaglandin synthetases seem to block the immunosuppressive activity of MC16 cells in vivo since tumor-bearing mice, treated therapeutically with indomethacin, responded normally in their production of antibody to sheep red blood cells.     

Tumor-mediated immunosuppression: Prevention by inhibitors of prostaglandin synthesis

The addition of MC16 tumor cells (a prostaglandin E₂-producing cell line induced in C57B1/6J mice by methylcholanthrene) to cultures of normal syngeneic spleen cells inhibits the antibody response of these cells to sheep red blood cells. This inhibition can be blocked by adding to the cultures prostaglandin synthetase inhibitors, such as indomethacin, flufenamic acid and aspirin. These MC16 tumor cells are also immunosuppressive . Mice bearing the syngeneic MC16 tumor become unresponsive to sheep red blood cells as the tumor grows. As in the test system, inhibitors of prostaglandin synthetases seem to block the immunosuppressive activity of MC16 cells since tumor-bearing mice, treated therapeutically with indomethacin, responded normally in their production of antibody to sheep red blood cells.     

Monosodium urate crystals stimulate phospholipase A2 enzyme activities and the synthesis of a phospholipase A2-activating protein

Eicosanoids are important mediators of the inflammatory response to monosodium urate crystals (MSUC) that results in gout. Phospholipase enzymes cleave fatty acids from membrane phospholipids, and this is thought to be the rate-limiting step in eicosanoid production. To understand better the mechanism of eicosanoid production in this disease, we stimulated human peripheral blood neutrophils and monocytes with MSUC and measured phospholipase enzyme activities. MSUC stimulated both intracellular and secretory phospholipase A2 enzyme activities in a time and concentration-dependent manner. Specificity was observed, as phospholipase C activities were not affected. Pretreatment with colchicine, but not aspirin, indomethacin, allopurinol, or islet activating protein, abrogated the enhanced phospholipase A2 activities. We have recently isolated and characterized a phospholipase A2 activating protein termed PLAP from synovial fluid from patients with rheumatoid arthritis, and from murine and bovine cell lines. PLAP was detected in gouty synovial fluid by immunodot blotting and ELISA assays and expressed the same characteristics as PLAP identified from other sources. To examine the role of PLAP in MSUC-induced phospholipase A2 stimulation, we treated cells with MSUC and observed an increase in immunoreactive PLAP. This response also could be blunted by colchicine, but not other drugs. Both phospholipase A2 and PLAP induced production by human monocytes of PGE2 and leukotriene B4 by neutrophils. These findings suggest that phospholipase A2 activation in response to MSUC requires an intact microtubule structure, and that phospholipase A2 and PLAP may be important modulators of at least a portion of the gouty inflammatory response.     

A purified green barley extract with modulatory properties upon TNF alpha and ROS released by human specialised cells isolated from RA patients

Based on the finding that reactive oxygen species (ROS) play important roles in mediating proinflammatory cytokine production (e.g. TNF alpha) and that many plant extracts contain substances with antioxidant properties, we examined the antiinflammatory action of a green barley extract, commercially available as "Natural SOD". The results obtained in this study demonstrate that the antiinflammatory properties of "Natural SOD" due to its micromolecular substances, able to scavenge ROS and to down-regulate TNF alpha production, main inflammation mediators produced by specialised cells from peripheral blood (PB) and synovial fluid (SF) of patients with rheumatoid arthritis (RA). We prepared and tested a purified green barley extract (PE) containing micromolecular substances under 1 kDa, able to inhibit TNF alpha releasing--measured by an bioassay--from LPS stimulated human mononuclear cells (MNC) isolated both from PB and SF of RA patients. Luminol-dependent chemiluminescence has been used to measure the scavenging activity of PE on ROS releasing from activated neutrophils isolated from PB of RA patients. PE, containing high concentrations of substances with antioxidant and antiinflammatory properties, could be a more efficient natural drug for human use than "Natural SOD" in the treatment of RA patients.     

Indomethacin-induced augmentation of lymphoproliferative responses in patients with head and neck cancer

Augmentation of the phytohemagglutinin (PHA)-induced lymphoproliferation of peripheral blood mononuclear cells by indomethacin, a drug which blocks prostaglandin (PG) synthesis, was assessed in 37 patients with squamous cell carcinoma of the head and neck. Indomethacin enhanced the uptake of 3H-thymidine in stimulated cultures both from patients and normal individuals. However, because lymphoid cells from cancer patients were less reactive than those from normal controls, the proportionate increase in PHA-stimulated 3H-thymidine incorporation caused by indomethacin was greater in this population than in the normal population. The degree of enhancement induced by indomethacin did not correlate with the percent of esterase-positive mononuclear cells in the preparations. The amounts of PGE synthesized at 48 h by patients' or normal cells were similar. Cell populations that exhibited elevated levels of augmentation in the presence of indomethacin were approximately 3 times as sensitive to inhibition by 3 nM PGE2. The degree of augmentation detected in the presence of Ro-20-5720, which also prevents PG synthesis, was related to that produced by indomethacin. These results suggested that: the enhancing effect of indomethacin on lymphoproliferation in vitro was related to its inhibition of PG synthesis; and the sensitivity of lymphoid cells to inhibition by PGE2 was slightly, but significantly, increased in individuals with elevated augmentation values.     

Stimulation of cyclic AMP production in the rat ovary by luteinizing hormone: Independence of prostaglandin mediation

In cubation of intact juvenile rat ovaries with luteinizing hormone (LH; 10 μ g/ml) for 20 min caused a ten-fold rise in cyclic AMP concentration, without increasing the activity of “prostaglandin synthetase” in the tissue. Flufenamic acid [N-(α,α,α- trifluoro-m-tolyl) anthranilic acid], aspirin or indomethacin (100 μ g/ml of each added to the incubation medium) inhibited “prostaglandin synthetase” activity by 90%, 97% and 70%, respectively, but did not prevent the stimulatory effect of LH on cyclic AMP formation. Prostaglandin E₂ (10 μ g/ml) also stimulated cyclic AMP formation in vitro, but this action was abolished by flufenamic acid. These findings argue against the hypothesis proposed in the literature that prostaglandins of the E-type are essential for the LH effect on ovarian adenylate cyclase and thus serve as obligatory mediators of cyclic AMP-dependent actions of LH on the ovary.     

Humate-induced activation of human granulocytes

Naturally occurring humic substances are particular chemical compounds which are found in humus. They bind to carbohydrates, amino acids and steroids by means of hydrogen bonds, covalent bonds and epsilon donor-acceptor complexes. Three specimens of low-molecular humic substances were tested (two naturally occurring humates and one synthetically prepared humate). They were all capable of stimulating certain functions of human neutrophils (PMN), such as the respiratory burst which results in the production of toxic oxygen compounds. This PMN stimulation can be demonstrated with the help of chemiluminescence, as well as by cytochemistry and with the electron microscope. The main product of the humate-induced PMN response is H2O2. There was no activation of neutrophilic chemokinesis or chemotaxis. It is suggested that the low-molecular humic substances originating from decaying organic material contain chemical structures which can act as signals to change dormant PMN into activated cells.