Prostaglandin E2 production by rat peritoneal macrophages: role of cellular and humoral factors in vivo in transfusion-associated immunosuppression

Abstract The transfusion of blood is associated with long-term immunosuppression, which has been postulated to influence immunosurveillance and cancer cell killing. The mononuclear phagocyte synthesises large quantities of PGE₂, and PGE₂ has been shown to inhibit the activity of a range of immunocompetent cell types. The role of mononuclear phagocyte PGE₂ synthesis in transfusion-associated immunosuppression, and the elements of transfused blood which control this immunosuppression, were investigated using a transfused rat model. A significant increase in macrophage PGE₂ synthesis was detected 7 days after transfusion with blood and serum. The storage of blood for 24 h increased the stimulatory activity of transfused blood. The effects of storage and serum on macrophage PGE₂ synthesis were greater than effects due to genetic differences between blood donor and recipient, and the serum effects indicated that a major factor activating PGE₂-mediated immunosuppression in transfused subjects may be humoral in nature.     

Evidence for Two Distinct Forms of Fatty Acid Cyclooxygenase in Brain

Abstract: The enzymatic metabolism of [¹⁴C]arachidonic acid (AA) was studied with microsomes prepared from rabbit medulla. Prostaglandin E₂ (PGE₂) levels, measured either by radiochemistry or radioimmunoassay, rose rapidly and abruptly plateaued within 5 min, while prostaglandin F_2a (PGF_2a) levels continued to rise for 30 min. The rapid termination of PGE2 biosynthesis was not the result of limited cofactor, substrate, or product feedback inhibition, nor was it due to PGE₂-9-ketoreductase activity. Inhibition of the PGH₂→ PGE₂ isomerase by arachidonic acid or its metabolites could not explain the abrupt halt in PGE₂ biosynthesis. Proof for two separate cyclooxygenases comes from our observation that a preincubation of the brain microsomes with unlabeled AA eliminated PGE₂ biosynthesis while PGF2o production continued. Further evidence to suggest two cyclooxygenases in brain is derived from the observation that indomethacin inhibited PGE₂ production at concentrations that did not affect PGF_2a biosynthesis. These results suggest that one fatty acid cyclooxygenase is closely associated with PGH₂→ PGE₂ isomerase and readily undergoes autodestruction and the second cyclooxygenase is associated with a PGH₂→ PGF_2a reductase and is somewhat resistant to arachidonate-induced destruction and to nonsteroidal antiinflammatory agents.     

Prostaglandin E2 Induces Interleukin-6 Synthesis in Human Astrocytoma Cells

Abstract: Prostaglandins (PGs) and cytokines, such as interleukin-1 (IL-1) and interleukin-6 (IL-6), have been implicated in the etiopathology of various inflammatory and degenerative disorders, including Alzheimer's disease (AD) and prion diseases. Nonsteroidal antiinflammatory drugs (NSAIDs), potent inhibitors of PG synthesis, appear to be beneficial in the treatment of AD. To assess whether PGs are able to induce IL-6 synthesis in cells of the CNS, IL-6 mRNA and protein syntheses were measured in a human astrocytoma cell line after stimulation with different PGs. PGE₁ and PGE₂, but not PGD₂ and PGF_2α, led to a rapid and transient induction of IL-6 mRNA, followed by IL-6 protein synthesis. Furthermore, PGE₂ potentiated IL-1β-induced IL-6 mRNA synthesis. These results are discussed with respect to the participation of PGs in neurodegenerative diseases (and its inhibition by NSAIDs) by affecting cytokine expression.     

MODULATION OF CYCLIC AMP LEVELS IN THE BOVINE SUPERIOR CERVICAL GANGLION BY PROSTAGLANDIN E, AND DOPAMINE

Abstract— Dopamine, norepinephrine, carbamylcholine and PGE₁ (prostaglandin E₁). increased cyclic AMP concentrations in slices of bovine superior cervical ganglia. PGF_1α was less effective and neither PGE₂ nor PGF_2α had any effect. Dopamine and PGE, alone or in combination, did not modify low K _m cyclic AMP phosphodiesterase activity. Combinations of dopamine and PGE, showed a marked synergistic effect, increasing ganglionic cyclic AMP to a much greater extent than that observed when the two compounds were tested alone. Norepinephrine (10 μ M) , which increased cyclic AMP as much as 10 μ m -dopamine, showed no synergistic effect when tested in the presence of PGE₁ or other PGs. Phentolamine, fluphenazine and triflupromazine blocked the dopamine effect without suppressing its synergism with PGE₁ Adenylate cyclase of synaptosomes isolated from the ganglia under a variety of experimental conditions appeared to be as responsive to PGE₁ as the slices, but it was poorly stimulated by dopamine and was not synergistically modulated by dopamine in the presence of PGE₁
These and other data are interpreted as indicating the presence of both a PGE₁-sensitive and a PGE₁-modulated dopamine-sensitive adenylate cyclase in the cervical ganglion. These adenylate cyclases are tentatively assigned to pre- and post-synaptic structures respectively.     

Phenotype modulation in primary cultures of arterial smooth-muscle cells

Abstract. The effects of prostaglandin E₁ (PGE₁) on the phenotypic state of enzymatically isolated arterial smooth-muscle cells in primary culture were studied by transmission electron microscopy, thymidine autoradiography, and cell counting. Early in culture (day 0–2), PGE₁, stimulated conversion of the cells from contractile (less euchromatic nucleus and cytoplasm dominated by myofilament bundles) to synthetic state (more euchromatic nucleus and cytoplasm dominated by cisternae of rough endoplasmic reticulum and a large Golgi complex). The rate of entrance of the cells into DNA synthesis and mitosis was also increased at this time. Later on (day 3–6), when the majority of the cells had entered synthetic state, PGE₁ inhibited DNA synthesis and cellular proliferation. These observations indicate that the effect of prostaglandins on arterial smooth muscle is dual in nature and dependent on the state of differentiation of the cells.     

Borrelia burgdorferi BBB07 interaction with integrin alpha3beta1 stimulates production of pro-inflammatory mediators in primary human chondrocytes

Borrelia burgdorferi , the causative agent of Lyme disease, activates multiple signalling pathways leading to induction of pro-inflammatory mediators at sites of inflammation. Binding of B. burgdorferi to integrin α₃β₁ on human chondrocytes activates signalling leading to release of several pro-inflammatory mediators, but the B. burgdorferi protein that binds integrin α₃β₁ and elicits this response has remained unknown. A search of the B. burgdorferi genome for a canonical integrin binding motif, the RGD (Arg–Gly–Asp) tripeptide, revealed several candidate ligands for integrins. In this study we show that one of these candidates, BBB07, binds to integrin α₃β₁ and inhibits attachment of intact B. burgdorferi to the same integrin. BBB07 is expressed during murine infection as demonstrated by recognition by infected mouse sera. Recombinant purified BBB07 induces pro-inflammatory mediators in primary human chondrocyte cells by interaction with integrin α₃β₁. This interaction is specific, as P66, another integrin ligand of B. burgdorferi , does not activate signalling through α₃β₁. In summary, we have identified a B. burgdorferi protein, BBB07, that interacts with integrin α₃β₁ and stimulates production of pro-inflammatory mediators in primary human chondrocyte cells.     

Egg-laying in response to prostaglandin injections in the Australian field cricket, Teleogryllus commodus

ABSTRACT. We report the effects of prostaglandin (PG) injection on egg-laying by sexually mature virgin crickets, Teleogryllus commodus Walker. High egg-laying activity is associated with PGE₁ PGE₂, 6-keto-PGE₁ and 15-keto-PGE₂, compounds that share the basic prostanoid backbone (C20 substituted fatty acid, 5 membered ring, a 7- and an 8-carbon aliphatic chain), and 9-keto, 11-hydroxyl ring substitutions. PGs without these ring features and other compounds that lack the prostanoid backbone have no or only intermediate egg-laying effects. Adding oxygen functionalities or an aliphatic double bond tends to increase egg-laying activity. Hence, 15-keto-PGF₂ and TxB₂, both of which have an additional backbone oxygen compared with their less active analogues, are highly active compounds. Two of the most active PGs, 15-keto-PGE₂ and 15-keto-PGE_2α, are the products of inactivating metabolism in mammalian systems, describing a fundamental difference in PG biochemistry with respect to mammals and insects.     

Cell Cycle-Dependent Expression of Specific Opiate Binding with Variable Coupling to Adenylate Cyclase in a Neurotumor Hybrid Cell Line NG108–15

Abstract: Monolayer cultures of neuroblastome × glioma hybrid (clonal) cell line NG108-15, synchronized by the isoleucine/glutamine deprivation method, showed maximal expression of opiate binding sities at the same point in the cell cycle at which prostaglandin E₁(PGE₁) had a maximum stimulatory effect of cyclinc AMP synthesis. However, the capacity of enkephalin (D-Ala²D-Leu⁵] to block the stimulation of cyclic AMP synthesis by PGE₁ was not related to the number of opiate receptors expressed. The K₁ for the inhibition of cyclic AMP synthesis by opioid peptides increased substanitilly during the period of the cell cycle at which maximal expression of opiate binding sites occurred, making the effectivel level of inhibition of adenylate cyclase activity by 0.1μM enkephalin [D-Al²D-Leu³] the same throght the cell cycle. Data are presented to suggest the enkephalin receptor coupling to adenylate cyclase, via a GTP-binding protein, is maximal during G₁ phase (which may approximate the state of the differentiated neuron) and minimal during S + G₂ phase, just prior to cell division, when many receptors are uncoupled.     

The content of prostaglandins and their precursors in Mortierella and Cunninghamella species

Five strains of filamentous fungi belonging to the genera Mortierella and Cunninghamella were examined for the content of dihomo-γ-linolenic, arachidonic, eicosapentaenoic acids and prostaglandins (type E₂ and F _2α). Prostaglandins were detected using an ELISA method in mycelia of all tested strains (range 50–4800 ng g⁻¹ of PGE₂ and 6–30 ng g⁻¹ of PG F _2α). Several micro-organisms also produced prostaglandins in the culture medium (2·2–137·6 μg l⁻¹ for PGE₂ and 0·4–7·8 μg l⁻¹ for PG F _2α).     

The 84-kDa Form of Human Matrix Metalloproteinase-9 Degrades Substance P and Gelatin

Abstract: Matrix metalloproteinase-9 (MMP-9) is secreted from cells and, once activated, is thought to degrade collagen in the extracellular matrix. Because collagen is not readily localized where neurons have been shown to produce MMP-9 in the human brain, the ability of this enzyme to degrade bioactive peptides was investigated with representative tachykinin peptides [substance P (SP), neurokinin A, neurokinin B, and kassinin]. Latent MMP-9 (94 kDa) was purified from the human cell line HL-60 and converted to an intermediary active form (84 kDa) with p -aminophenylmercuric acetate. This active form of MMP-9 degraded SP with a k _cat/ K _m of 170 m M ⁻¹ min⁻¹, which is 30-fold greater than the previously reported value for a representative collagen-derived peptide. The major digestion products were identified as SP_1–6 and SP_7–11, which were derived from cleavage of the Gln⁶-Phe⁷ bond. Minor products were also generated from cleavage of the Gly⁹-Leu¹⁰ bond. The other representative tachykinin peptides were cleaved at rates >10-fold slower than that of SP. The 84-kDa peptidase was also active as a gelatinase. Longer treatment of MMP-9 with p -aminophenylmercuric acetate caused the conversion of the 84-kDa enzyme to the established 68-kDa active form; however, the rate of SP degradation did not increase. Because MMP-9 is produced by neurons of the CNS, these results suggest a possible regulatory role for the enzyme in intercellular communication by altering the availability of bioactive peptides.     

Nramp1 drives an accelerated inflammatory response during Salmonella-induced colitis in mice

A recently developed model for enterocolitis in mice involves pre-treatment with the antibiotic streptomycin prior to infection with Salmonella enterica serovar Typhimurium ( S.  Typhimurium). The contribution of Nramp1/Slc11a1 protein, a critical host defence mechanism against S.  Typhimurium, to the development of inflammation in this model has not been studied. Here, we analysed the impact of Nramp1 expression on the early development of colitis using isogenic Nramp1^+/+ and Nramp1^−/− mice. We hypothesized that Nramp1 acts by rapidly inducing an inflammatory response in the gut mucosa creating an antibacterial environment and limiting spread of S.  Typhimurium to systemic sites. We observed that Nramp1^+/+ mice showed lower numbers of S.  Typhimurium in the caecum compared with Nramp1^−/− mice at all times analysed. Acute inflammation was much more pronounced in Nramp1^+/+ mice 1 day after infection. The effect of Nramp1 on development of colitis was characterized by higher secretion of the pro-inflammatory cytokines IFN-γ, TNF-α and MIP-1α and a massive infiltration of neutrophils and macrophages, compared with Nramp1^−/− animals. These data show that an early and rapid inflammatory response results in protection against pathological effects of S.  Typhimurium infection in Nramp1^+/+ mice.     

Streptococcus suis stimulates ICAM-1 shedding from microvascular endothelial cells

In this study, we hypothesized that Streptococcus suis induces the shedding of adhesion molecules from the surface of human brain microvascular endothelial cells (HBMEC), which may contribute to the ongoing pathophysiological processes of meningitis. When HBMEC were stimulated with whole cells of S. suis S735, significantly larger amounts of soluble intercellular adhesion molecule-1 (sICAM-1) were shed into conditioned medium while basal levels of soluble E-cadherin and P-selectin were unaffected. At a multiplicity of infection of 1 and 10, S. suis increased the concentration of sICAM-1 3.5- and 5-fold, respectively. A capsule-deficient mutant of S. suis induced more shedding than the parental strain. In addition, an S. suis cell wall preparation dose-dependently stimulated ICAM-1 shedding. Specific inhibitors of tyrosine kinase, mitogen-activated extracellular kinase 1, 2, and c-JUN N-terminal kinase significantly reduced S. suis-mediated ICAM-1 release. ICAM-1 shedding was also inhibited by a specific inhibitor of matrix metalloproteinases. The capacity of S. suis to induce ICAM-1 shedding has many functional implications that may contribute to the pathophysiological process of meningitis.     

Inflammatory responses of a macrophage/epithelial cell co-culture model to mono and mixed infections with Porphyromonas gingivalis, Treponema denticola, and Tannerella forsythia

Accumulated evidence points to Porphyromonas gingivalis, Treponema denticola, and Tannerella forsythia as three major etiologic agents of chronic periodontitis. Epithelial cells and macrophages play a major role in the host response to periodontopathogens, and the secretion of inflammatory mediators and matrix metalloproteinases (MMPs) by these host cells is believed to contribute to periodontal tissue destruction. The aim of this study was to investigate the inflammatory response of a macrophage/epithelial cell co-culture model following mono or mixed infections with the above three periodontopathogens. An in vitro co-culture model composed of epithelial-like transformed cells (HeLa cell line) and macrophage-like cells (phorbol myristic acid-differentiated U937 monocytic cell line) was challenged with whole cells or lipopolysaccharides (LPS) of P. gingivalis, T. denticola, and T. forsythia, individually and in combination. Following stimulation, the production of interleukin-1 beta (IL-1beta), IL-6, IL-8, tumor necrosis factor alpha (TNF-alpha), regulated on activation normal T cell expressed and secreted (RANTES), prostaglandin E2 (PGE2), and MMP-9 were quantified by enzyme-linked immunoassays. We observed that mono or mixed infections of the co-culture model induced the secretion of IL-1beta, IL-6, IL-8, PGE2, and MMP-9. P. gingivalis and T. forsythia induced an increase in RANTES secretion, whereas T. denticola alone or in combination resulted in a significant decrease in RANTES levels. All LPS challenges induced an increase in chemokine, MMP-9, and PGE2 production. No synergistic effect on the production of cytokines, chemokines, PGE2, and MMP-9 was observed for any of the bacterial or LPS mixtures tested. This study supports the view that P. gingivalis, T. denticola, and T. forsythia may induce high levels of pro-inflammatory mediators and MMP-9 in periodontal lesions, thus contributing to the progression of periodontitis.     

Regional Prostaglandin Levels in Cerebral Ischaemia

Abstract: Regional quantitative studies of brain prostaglandins (PG) in gerbils with bilateral carotid ligation have shown increases in PG2_α in all areas of ischaemia but with no increases in PGE₂. Pretreatment of animals with indomethacin (3 mg/kg) reduced this response, whereas dexamethasone (2.5 mg/kg) had no such effect. PGE₁ and thromboxane-B₂ were found not to be present in our preparation. The significance of these findings lies in the fact that both drugs, which are known to inhibit the development of ischaemic oedema, have now been shown to produce markedly different effects on prostaglandin levels. This may indicate either, that prostaglandins are not involved in is chaemic oedema formation, or, that the drugs have different mechanisms of action.     

ATP scavenging by the intracellular pathogen Porphyromonas gingivalis inhibits P2X7-mediated host-cell apoptosis

The purinergic receptor P2X₇ is involved in cell death, inhibition of intracellular infection and secretion of inflammatory cytokines. The role of the P2X₇ receptor in bacterial infection has been primarily established in macrophages. Here we show that primary gingival epithelial cells, an important component of the oral innate immune response, also express functional P2X₇ and are sensitive to ATP-induced apoptosis. Porphyromonas gingivalis, an intracellular bacterium and successful colonizer of oral tissues, can inhibit gingival epithelial cell apoptosis induced by ATP ligation of P2X₇ receptors. A P. gingivalis homologue of nucleoside diphosphate kinase (NDK), an ATP-consuming enzyme, is secreted extracellularly and is required for maximal suppression of apoptosis. An ndk -deficient mutant was unable to prevent ATP-induced host-cell death nor plasma membrane permeabilization in the epithelial cells. Treatment with purified recombinant NDK inhibited ATP-mediated host-cell plasma membrane permeabilization in a dose-dependent manner. Therefore, NDK promotes survival of host cells by hydrolysing extracellular ATP and preventing apoptosis-mediated through P2X₇.     

Prostaglandin H Synthetase-Mediated Metabolism of Dopamine: Implication for Parkinson's Disease

Abstract: Differences in prostaglandin H synthetase (PHS) activity in the substantia nigra of age- and post-mortem interval-matched parkinsonian, Alzheimer's, and normal control brain tissue were assessed. Prostaglandin E₂ (PGE₂, an index of PHS activity) was higher in substantia nigra of parkinsonian brain tissue than Alzheimer's or control tissue. Incubation of substantia nigra slices with arachidonic acid (AA) increased PGE₂ synthesis. Dopamine stimulated PHS synthesis of PGE₂. [³H]Dopamine was activated by PHS to electrophilic intermediate(s) that covalently bound to DNA, microtubulin protein, bovine serum albumin, and sulfhydryl reagents. When AA was replaced by hydrogen peroxide, PHS/H₂O₂-supported binding proceeded at rates similar to those observed with PHS/AA. Indomethacin and aspirin inhibited AA-mediated cooxidation of dopamine but not H₂O₂-mediated metabolism. PHS-mediated metabolism of dopamine was not affected by monoamine oxidase inhibitors. Substrate requirements and effects of specific inhibitors suggest cooxidation of dopamine is mediated by the hydroperoxidase activity of PHS. ³²P-postlabeling was used to detect dopamine-DNA adducts. PHS/AA activation of dopamine in the presence of DNA resulted in the formation of five dopamine-DNA adducts, i.e., 23, 43, 114, 70, and 270 amol/µg DNA. DNA adduct formation was PHS, AA, and dopamine dependent. PHS catalyzed cooxidation of dopamine in dopaminergic neuronal degeneration is discussed.     

Preliminary studies on eicosanoid production by fish leucocytes, using GC-mass spectrometry

Culture supernatants from dogfish leucocytes, exposed to the Ca²⁺ ionophore A23187, were analyzed for eicosanoid production by gas chromatography-electron capture mass spectrometry. Consistently high levels of the prostaglandins (PG) D₂, F_2α and E₂ were produced, while thromboxane B₂ and leukotriene B₄ were found in smaller amounts. No 6-oxo PGF_1α, a degradation product of prostacyclin, or 13,14-dihydro-15-oxo-PGF_2α, a metabolite of PGE₂ and PGF_2α, were detected. The results are compared with similar experiments using mammalian leucocytes.