Effects of prostaglandins on leukocyte migration

Artificially synthetized prostaglandins (PGE₁, PGE₂ PGF_1α, and PGF_2α) were found, using Boyden's chamber, to induce significant migration of polymorphonuclear leukocytes (PMNs) of the rabbit; PGF_2α had greater effects than PGE₁ or E₂. A typical dose dependent relationship was found between the PMNs migration and PGF_2α concentrations. Indomethacin pretreatments of rabbits did not significantly alter the PMNs migration indicating that PGs synthetized in vivo was not involved in the migration.PGF_2α was placed in the lower compartment opposite to PMNs and also in the upper compartment together with PMNs. No significant difference was found in the number of migrated PMNs between the two experimental conditions. PGs diffusion occurred across the millipore filter separating the two compartments where the concentrations were almost equal at the end of 3 hours incubation. It was thus concluded that PGs effects are to induce random PMNs movements rather than to initiate chemotactic directional migration.     

Production of cyclooxygenase products and superoxide anion by macrophages in response to chemotactic factors

Mononuclear phagocytes are knwon to play a key role in various phlogistic reactions by synthesizing and releasing products that may potentiate or inhibit inflammatory processes. The expression of these products appears to be dependent on the source of the macrophage population as well as the stimulus employed. We have studied superoxide anion (O₂⁻) production as well as the generation of PGE₂, PGF_2α, and TXB₂ from resident, oil-elicited and thiogylcollate-induced peritoneal macrophages in mice in the presence and absence of chemotactic peptides. Production of O₂⁻, occurred only in elicited macrophages stimulated with high concentrations of FMLP or C5a; resident cells stimulated with either of the chemotactic peptides were completely unresponsive. Although resident peritoneal macrophages incubated with chemotactic peptides did not generate O₂⁻, these cells did secrete significant levels of PGE₂, PGF_2α, and TXB₂ in response to C5a. FMLP had no stimulatory effect. Elicited macrophages generated increased levels of PGE₂ and PGF_2α when incubated with C5a. However, production of TXB₂ was not stimulated. FMLP was inactive in stimulating PGE₂, PGF_2α, and TXB₂ in all types of macrophages studied. These studies indicate a heterogeneity in the production of inflammatory mediators from various macrophage populations in response to chemotactic factors.     

Effects of prostaglandins on the spreading, adhesion and migration of mouse peritoneal macrophages

The effects of prostaglandins on the properties of mouse peritoneal macrophages namely spreading, adhesion and migration were investigated. PGE₁ and PGE₂ inhibit the spreading and adhesion of complete Freund's Adjuvant induced peritoneal macrophages significantly at concentrations of 1 ng per ml and above whereas they enhance the migration of these cells at concentrations of 100 ng per ml and above. PGA₂ and PGB₂ are less potent as they inhibit spreading and adhesion only at a concentration of 1 μg per ml. At this concentration PGB₂ enhances migration whereas PGA₂ has no effect. PGF_2α has no effect on the spreading, adhesion and migration of macrophages in the concentration range of 0.1 ng to 1,000 ng per ml.     

Prostaglandin E2/EP1 Signaling Pathway Enhances Intercellular Adhesion Molecule 1 (ICAM-1) Expression and Cell Motility in Oral Cancer Cells

Oral squamous cell carcinoma has a striking tendency to migrate and metastasize. Cyclooxygenase (COX)-2, the inducible isoform of prostaglandin (PG) synthase, has been implicated in tumor metastasis. However, the effects of COX-2 on human oral cancer cells are largely unknown. We found that overexpression of COX-2 or exogenous PGE₂ increased migration and intercellular adhesion molecule 1 (ICAM)-1 expression in human oral cancer cells. Using pharmacological inhibitors, activators, and genetic inhibition of EP receptors, we discovered that the EP1 receptor, but not other PGE receptors, is involved in PGE₂-mediated cell migration and ICAM-1 expression. PGE₂-mediated migration and ICAM-1 up-regulation were attenuated by inhibitors of protein kinase C (PKC)δ, and c-Src. Activation of the PKCδ, c-Src, and AP-1 signaling pathway occurred after PGE₂ treatment. PGE₂-induced expression of ICAM-1 and migration activity were inhibited by a specific inhibitor, siRNA, and mutants of PKCδ, c-Src, and AP-1. In addition, migration-prone sublines demonstrated that cells with increased migration ability had higher expression of COX-2 and ICAM-1. Taken together, these results indicate that the PGE₂ and EP1 interaction enhanced migration of oral cancer cells through an increase in ICAM-1 production.     

Prostaglandin E2 Receptors of Monocytes/Macrophages: Regulation by Insulin and Interleukin-1α

The regulation of receptors for prostaglandin E₂ (PGE₂) in monocyte/macrophage-like cells, P388D₁, by interleukin-1α (IL-1α) and insulin has been investigated. Many of the effects of IL-1, such as fever and other inflammatory activities, are linked to the stimulation of PGE₂ synthesis. On the other hand, PGE₂ exhibits suppressive effects on many steps in the immune response, including IL-1 production. The binding of PGE₂ to monocytes is reported to be essential for the inhibition of IL-1 production and activity. This inhibition occurs through the stimulation of cyclic AMP synthesis by the activation of PGE₂ receptor-linked adenylate cyclase. Although IL-1α stimulates PGE₂ synthesis in monocytes/macrophages during immunoactivation, it inhibits the binding of PGE₂ to these cells and may thereby exert a countervailing effect on the immunosuppressive action of this prostanoid. By contrast, insulin at physiological concentrations enhances the PGE₂ binding to these cells. This suggests that insulin at physiological concentrations may enhance the immunosuppressive action of PGE₂. Since the stimulation of cAMP synthesis in cells is regulated by PGE₂ binding, it is possible that these hormonal factors may control the immune response by modulating the PGE₂ receptor activity of monocytes/macrophages. This article focuses on the interactions of insulin and IL-1 with PGE₂ receptors of monocytes/macrophages.     

Prostaglandin E<Subscript>2</Subscript> (PGE<Subscript>2</Subscript>) suppresses natural killer cell function primarily through the PGE<Subscript>2</Subscript> receptor EP4

The COX-2 product prostaglandin E₂ (PGE₂) contributes to the high metastatic capacity of breast tumors. Our published data indicate that inhibiting either PGE₂ production or PGE₂-mediated signaling through the PGE₂ receptor EP4 reduces metastasis by a mechanism that requires natural killer (NK) cells. It is known that NK cell function is compromised by PGE₂, but very little is known about the mechanism by which PGE₂ affects NK effector activity. We now report the direct effects of PGE₂ on the NK cell. Endogenous murine splenic NK cells express all four PGE₂ receptors (EP1-4). We examined the role of EP receptors in three NK cell functions: migration, cytotoxicity, and cytokine release. Like PGE₂, the EP4 agonist PGE₁-OH blocked NK cell migration to FBS and to four chemokines (ITAC, MIP-1α, SDF-1α, and CCL21). The EP2 agonist, Butaprost, inhibited migration to specific chemokines but not in response to FBS. In contrast to the inhibitory actions of PGE₂, the EP1/EP3 agonist Sulprostone increased migration. Unlike the opposing effects of EP4 vs. EP1/EP3 on migration, agonists of each EP receptor were uniformly inhibiting to NK-mediated cytotoxicity. The EP4 agonist, PGE₁-OH, inhibited IFNγ production from NK cells. Agonists for EP1, EP2, and EP3 were not as effective at inhibiting IFNγ. Agonists of EP1, EP2, and EP4 all inhibited TNFα; EP4 agonists were the most potent. Thus, the EP4 receptor consistently contributed to loss of function. These results, taken together, support a mechanism whereby inhibiting PGE₂ production or preventing signaling through the EP4 receptor may prevent suppression of NK functions that are critical to the control of breast cancer metastasis.     

mTORC2 regulates PGE2-mediated endothelial cell survival and migration

Prostaglandin E₂ (PGE₂) promotes angiogenesis by in part inducing endothelial cell survival and migration. The present study examined the role of mTOR and its two complexes, mTORC1 and mTORC2, in PGE₂-mediated endothelial cell responses. We used small interfering RNA (siRNA) to raptor or rictor to block mTORC1 or mTORC2, respectively. We observed that down-regulation of mTORC2 but not mTORC1 reduced baseline and PGE₂-induced endothelial cell survival and migration. At the molecular level, we found that knockdown of mTORC2 inhibited PGE₂-mediated Rac and Akt activation two important signaling intermediaries in endothelial cell migration and survival, respectively. In addition, inhibition of mTORC2 by prolonged exposure of endothelial cells to rapamycin also prevented PGE₂-mediated endothelial cell survival and migration confirming the results obtained with the siRNA approach. Taken together these results show that mTORC2 but not mTORC1 is an important signaling intermediary in PGE₂-mediated endothelial cell responses.     

Effect of 4-hydroxynonenal on superoxide anion production from primed human neutrophils

HNE (4-hydroxy-2,3-trans-nonenal), an aldehydic product of lipid peroxidation, has been reported to modulate different functional parameters of human and rat neutrophils (PMNs), such as chemiluminescence, migration and some enzymatic activities, thus exerting effects that varied according to the concentration tested. Experiments were done to evaluate the effects of HNE on superoxide anion (O₂^?.) production from human PMNs, isolated from healthy volunteers. After having tested that HNE by itself was not able to activate the cells, comparisons were made between its effects on PMNs, stimulated by either a single stimulus, N-formyl-methionyl-leucyl-phenylalanine (FMLP), or a combination of stimuli, such as FMLP and the neuropeptide substance P (SP; primed PMNs). In the concentration range tested (10^?12–10^?4 M ), HNE inhibited FMLP-evoked O₂^?. production with an IC₅₀ of 11·6 ± 1·5 × 10^?6 M ; at concentrations ≤10^?6 M , HNE enhanced O₂^?. production elicited by FMLP + SP, while higher concentrations were inhibitory. There was a bell-shaped dose–response curve to the enhancing effects of HNE, depending on the incubation time being recorded after only short periods (≤5 min) of the exposure of the cells to HNE; this was not shown by structurally-related aldehydes, such as 2-nonenal and nonanal. These results suggest that low concentrations of HNE may participate in the evolution of the inflammatory process, by contributing to the activation of PMNs. The effects of high concentrations of the aldehyde may represent a mechanism which contributes to the regulation of the extent of the inflammatory response.     

Prostaglandins and inflammation: Enhancement of monocyte chemotactic responsiveness by prostaglandin E2

The effects of prostaglandins on human monocyte chemotaxis were studied $\text{in vitro}$. None of the prostaglandins tested, including members of the A, B, E or F series, were chemotactic for monocytes. Prostaglandin E₂ however, enhanced the chemotactic responsiveness of monocytes to complement - activated human serum by almost 200%. The enhancement of chemotaxis was not directly related to the ability of PGE₂ to raise intracellular cyclic AMP levels. These studies support a role for prostaglandins as modulators of the inflammatory response.     

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.     

Isomers of leukotriene B4 possess different biological potencies

Rat elicited polymorphonuclear leucocytes (PMNs), when exposed to the ionophore A23187, release three isomers of leukotriene B₄. The three isomers have been purified and tested for their ability to induce the chemokinesis of human PMNs in vitro, the aggregation of rat PMNs in vitro and changes in vascular permeability in rabbit skin in vivo in the presence of PGE₂. The results demonstrate that all three isomers are biologically active and that the enzymatically produced isomer, in which the conjugated triene contains one and two double bonds, is more potent than the two diastereoisomers of LTB₄ which contain all double bonds in the conjugated triene and which are produced by non-enzymatic hydrolysis.     

The mechanism of action of soluble lymphocyte mediators. IV. Effect of migratio inhibitory factor (MIF) on macrophage cyclic AMP and on responsiveness to adenylate cyclase stimulators.

Intracellular levels of cyclic 3′,5′-adenosine monophosphate (cAMP) in purified guinea pig peritoneal macrophages were elevated following incubation with the adenylate cyclase stimulators prostaglandins E₁ and E₂ (PGE₁, PGE₂), isoproterenol, and cholera toxin. Exposure of macrophages to antigen-stimulated lymphocyte culture supernatants, containing migration inhibitory factor (MIF), resulted in a moderate but consistent decrease in the cAMP level, which was best expressed after 1–2 hr of incubation. Incubation of macrophages with MIF-containing supernatants or partially purified MIF for 1–2 hr resulted in reduced cAMP accumulation in response to PGE₁, PGE₂, isoproterenol, and cholera toxin (nonspecific refractoriness). These findings indicate that MIF-induced inhibition of macrophage migration is not due to an increase in the cellular level of cAMP and that the reduction in cAMP concentration, caused by MIF, is probably a secondary phenomenon unrelated to the inhibition of cellular motility.     

Eicosanoid production by placental and amnion tissues from control and non-insulin-dependent diabetic rats. Influence of oxytocin in the incubating medium

Eicosanoid production by intrauterine tissues from control and neonatal-steptozotocin induced diabetic rats during late pregnancy was evaluated. In diabetic placenta the release of 6-keto-PGF_1α was found diminished when compared to controls. In addition, LTB₄ generation was increased in diabetic placenta. No alterations in the production of TXA₂, PGE₂, PGE₁ and PGF_2α was found when diabetic and control placenta were compared. In amnion tissue a decreased generation of 6-keto-PGF_1α was observed in the diabetic group, but no alteration in any other eicosanoid evaluated was found. Oxytocin (5 mU/ml, in vitro), which increases prostaglandin synthesis in rabbit and human amnion tissues, did not modify eicosanoid generation in control rat amnion. In contrast, in diabetic amnion the presence of oxytocin further decreased the release of 6-keto-PGF_1α and diminished PGE₁ generation. The present results suggest that this mildy diabetic state induces alterations in eicosanoid production in intrauterine tissues, abnormalities probably enhanced during parturition, when endogenous concentrations of oxytocin are elevated.     

Effects of selective PGE2 receptor antagonists in esophageal adenocarcinoma cells derived from Barrett's esophagus

Accumulating evidence suggests that COX-2-derived prostaglandin E₂ (PGE₂) plays an important role in esophageal adenocarcinogenesis. Recently, PGE₂ receptors (EP) have been shown to be involved in colon cancer development. Since it is not known which receptors regulate PGE₂ signals in esophageal adenocarcinoma, we investigated the role of EP receptors using a human Barrett's-derived esophageal adenocarcinoma cell line (OE33). OE33 cells expressed COX-1, COX-2, EP₁, EP₂ and EP₄ but not EP₃ receptors as determined by real time RT-PCR and Western-blot. Treatment with 5-aza-dC restored expression, suggesting that hypermethylation is involved in EP₃ downregulation. Endogenous PGE₂ production was mainly due to COX-2, since this was significantly suppressed with COX-2 inhibitors (NS-398 and SC-58125), but not COX-1 inhibitors (SC-560). Cell proliferation (³H-thymidine uptake) was significantly inhibited by NS-398 and SC-58125, the EP₁ antagonist SC-51322, AH6809 (EP₁/EP₂ antagonist), and the EP₄ antagonist AH23848B, but was not affected by exogenous PGE₂. However, treatment with the selective EP₂ agonist Butaprost or 16,16-dimethylPGE₂ significantly inhibited butyrate-induced apoptosis and stimulated OE33 cell migration. The effect of exogenous PGE₂ on migration was attenuated when cells were first treated with EP₁ and EP₄ antagonists. These findings suggest a potential role for EP selective antagonists in the treatment of esophageal adenocarcinoma.     

Interrelationships among prostaglandins, vasopressin and cAMP in renal papillary collecting tubile cells in culture

To determine the influence of prostaglandins on cAMP metabolism in renal papillary collecting tubule (RPCT) cells, intracellular cAMP levels were measured after incubating cells with prostaglandins (PGs) alone or in combination with arginine vasopressin (AVP). PGE₁, PGE₂ and PGI₂, but not PGD₂ or PGF_2α, increased intracellular cAMP concentrations. At maximal concentrations (10⁻⁵ tthe effects of PGE₂ plus PGI₂ (or PGE₁), but not of PGI₂ plus PGE₁, were additive suggesting that at least two different PG receptors may be present in RPCT cell populations. Bradykinin treatment of RPCT cells caused an accumulation of intracellular cAMP which was blocked by aspirin and was quantitatively similar to that observed with 10⁻⁵ PGE₂. PGs, when tested at concentrations (e.g. 10⁻⁹ ) which had no independent effect on intracellular cAMP levels, did not inhibit the AVP-induced accumulation of intracellular cAMP in RPCT cells. These results indicate that PGs do not block AVP-induced accumulation of intracellular cAMP in RPCT cells at concentrations of PGs which have been shown to inhibit the hydroosmatic effect of AVP on perfused collecting tubule segments. However, at higher concentrations of PGs (e.g. 10⁻⁵ ), the effects of AVP plus PGE₁, PGE₂, PGI₂ or bradykinin on intracellular cAMP levels were not additive. Thus, under certain conditions, there is an interaction between PGs and AVP at the level of cAMP metabolism in RPCT cells.     

Uncoordinate regulation of collagenase,stromelysin, and tissue inhibitor of metalloproteinases genes by prostaglandin E2: Selective enhancement of collagenase gene expression in human dermal fibroblasts in culture

The degradative effects of interleukin-1 (IL-1) on the extracellular matrix of connective tissue are mediated primarily by metalloproteinases and prostaglandins. Clinical observations suggest that these effects can be prevented, to some extent, by the use of non-steroidal anti-inflammatory drugs. We have examined the role of prostaglandin E₂ (PGE₂) in IL-1-induced gene expression by human skin fibroblasts in culture. Incubation of confluent fibroblast cultures with varying concentrations (0.01–1.0 μg/ml) of PGE₂ led to a dose-dependent elevation of collagenase mRNA steady-state levels, the promoter activity, and the secretion of the protein, whereas relatively little effect was observed on stromelysin and TIMP gene expression. Exogenous PGE₂ had no additive or synergistic effect with IL-1 on collagenase gene expression. Furthermore, commonly used non-steroidal anti-inflammatory drugs (indomethacin, acetyl salicylic acid and ibuprofen), at doses which block prostaglandin synthesis in cultured fibroblasts, failed to counteract IL-1-induced collagenase and stromelysin gene expression, nor did they affect TIMP expression. Although the effects of PGE₂ did not potentiate those of IL-1 on collagenase gene expression in vitro, one could speculate that massive production of PGE₂ by connective tissue cells in vivo in response to inflammatory mediators such as IL-1 or tumor necrosis factor-α, could lead to sustained expression of collagenase in connective tissue cells after clearance of the growth factors.     

Chemotaxis or migration inhibition of rabbit peritoneal polymorphonuclear leukocytes caused by chemoattractants at various concentrations

Purified lipopolysaccharide (LPS) from Veillonella incubated in normal rabbit serum was tested for chemotactic activity on rabbit polymorphonuclear leukocytes (PMNs) in modified Boyden chambers. In doses above those giving optimal response (over-optimal dose), a decrease of the PMN migration activity was found. This decrease also correlated well with an increase in the migration inhibition of the PMNs as demonstrated with the capillary tube assay. The PMN chemotactic factor isolated from LPS-induced inflammatory exudate (LPS-CF) in rabbits, produced both a decrease in chemotactic response and a migration inhibition of PMNs in over-optimal doses. This inhibitory effect was not due to cytotoxicity, proved by the trypan blue exclusion test. Also, a reduced locomotion of PMNs first preincubated with chemoattractants and then reactivated, was shown when the same PMNs were restimulated to migration using the same chemoattractants. This was interpreted as a deactivation of the cells. A cross-deactivation was demonstrated between LPS-CF and casein. The results from the experiments reported show that the Boyden chamber may be used to disciminate directional chemotaxis and migration inhibition. It may also be concluded from the study that the reduced migration activity of PMNs at over-optimal doses of chemoattractants is not due to cytotoxicity, but most probably is caused by a deactivation of the cells.     

Interaction of profilin‐1 and F‐actin via a β‐arrestin‐1/JNK signaling pathway involved in prostaglandin E2‐induced human mesenchymal stem cells migration and proliferation

Although many previous reports have examined the function of prostaglandin E₂ (PGE₂) in the migration and proliferation of various cell types, the role of the actin cytoskeleton in human mesenchymal stem cells (hMSCs) migration and proliferation has not been reported. The present study examined the involvement of profilin‐1 (Pfn‐1) and filamentous‐actin (F‐actin) in PGE₂‐induced hMSC migration and proliferation and its related signal pathways. PGE₂ (10^?6 M) increased both cell migration and proliferation, and also increased E‐type prostaglandin receptor 2 (EP2) mRNA expression, β‐arrestin‐1 phosphorylation, and c‐Jun N‐terminal kinase (JNK) phosphorylation. Small interfering RNA (siRNA)‐mediated knockdown of β‐arrestin‐1 and JNK (‐1, ‐2, ‐3) inhibited PGE₂‐induced growth of hMSCs. PGE₂ also activated Pfn‐1, which was blocked by JNK siRNA, and induced F‐actin level and organization. Downregulation of Pfn‐1 by siRNA decreased the level and organization of F‐actin. In addition, specific siRNA for TRIO and F‐actin‐binding protein (TRIOBP) reduced the PGE₂‐induced increase in hMSC migration and proliferation. Together, these experimental data demonstrate that PGE₂ partially stimulates hMSCs migration and proliferation by interaction of Pfn‐1 and F‐actin via EP2 receptor‐dependent β‐arrestin‐1/JNK signaling pathways. J. Cell. Physiol. 226: 559–571, 2011. © 2010 Wiley‐Liss, Inc.     

Caffeine, dibutyryl cyclic-AMP and heparin affect the chemotactic and phagocytotic activities of neutrophils for boar sperm in vitro

The objective was to examine the effects of caffeine, dibutyryl cyclic AMP, and heparin on the chemotaxis and/or phagocytosis of PMNs for porcine sperm. The chemotactic activity of PMNs, determined in a blind well chamber, increased (P < 0.05) when fresh serum was added to the medium (control containing BSA, 1109.5 cells/mm² vs serum, 1226.3 cells/mm²), regardless of the presence of sperm (control, 1121.1 cells/mm² vs serum, 1245.8 cells/mm²), whereas heat-inactivated serum did not affect activity (without sperm, 1099.4 cells/mm² and with sperm, 1132.6 cells/mm²). Regardless of live and dead sperm and of the origin of PMNs (boars vs sows), the phagocytotic activity of PMNs, as determined by co-culture of PMNs with sperm for 60 min, increased (P < 0.05) in the presence of fresh serum containing active complement (46.7 and 43.0%, respectively), but stimulation was decreased (P < 0.05) when 1 mM or higher concentrations of caffeine was added to the medium (from 40.7 to 20.8-31.6%). The origin of PMNs (sows vs boars) did not significantly affect phagocytotic activity. The percentage of PMNs that phagocytized polystyrene latex beads decreased when 2 mM caffeine was added to the medium containing porcine serum (from 43.7 to 21.5%). Serum-stimulated chemotactic activity of PMNs (1089.9 cells/mm²) was also reduced (P < 0.05) with 2 mM caffeine (942.5 cells/mm²). Furthermore, dibutyryl cAMP at ≥ 0.1 mM or heparin at ≥ 100 μg/mL decreased phagocytotic activity, in a concentration-dependent manner (P < 0.05). Supplementation of PMNs with heparin at 100 or 500 μg/mL decreased (P < 0.05) chemotactic activity in the presence of serum (from 1137.1 cells/mm² to 1008.8-1026.3 cells/mm²). We inferred that opsonization in the presence of active complement stimulated phagocytotic and chemotactic activities of PMNs, whereas supplementation with caffeine and dibutyryl cAMP (which could be associated with the intracellular cAMP level of PMNs) or adding heparin decreased serum-stimulated phagocytotic and chemotactic activities.