The activation by Ca2+ of platelet phospholipase A2: Effects of dibutyryl cyclic adenosine monophosphate and 8-(N,N-diethylamino)-octyl-3,4,5-trimethoxybenzoate

Thrombin-induced release of arachidonic acid from human platelet phosphatidylcholine is found to be more than 90% impaired by incubation of platelets with 1 mM dibutyryl cyclic adenosine monophosphate (Bt₂ cyclic AMP) or with 0.6 mM 8-(N,N-diethylamino)-octyl-3,4,5-trimethoxybenzoate (TMB-8), an intracellular calcium antagonist. Incorporation of arachidonic acid into platelet phospholipids is not enhanced by Bt₂ cyclic AMP. The addition of external Ca²⁺ to thrombin-treated platelets incubated with Bt₂ cyclic AMP or TMB-8 does not counteract the observed inhibition. However, when divalent cation ionophore A23187 is employed as an activating agent, much less inhibition is produced by Bt₂ cyclic AMP or TMB-8. The inhibition which does result can be overcome by added Ca²⁺. Inhibition of arachidonic acid liberation by Bt₂ cyclic AMP, but not by TMB-8, can be overcome by high concentrations of A23187. When Mg²⁺ is substituted for Ca²⁺, ionophore-induced release of arachidonic acid from phosphatidylcholine of inhibitor-free controls is depressed and inhibition by Bt₂ cyclic AMP is slightly enhanced. The phospholipase A₂ activity of platelet lysates is increased by the presence of added Ca²⁺, however, the addition of either A23187 or Bt₂ cyclic AMP is without effect on this activity. We suggest that Bt₂ cyclic AMP may promote a compartmentalization of Ca²⁺, thereby inhibiting phospholipase A activity. The compartmentalization may be overcome by ionophore. By contrast, TMB-8 may immobilize platelet Ca²⁺ stores in situ or restrict access of Ca²⁺ to phospholipase A in a manner not susceptible to reversal by high concentrations of ionophore.     

Cyclic AMP metabolism and insulin release in pancreatic islets of the rat Effects of agents which alter microtubular function

In order to investigate the relationship between microtubular function, insulin release and islet cyclic AMP metabolism, the effects of ²H₂O, colchicine and vincristine were studied in rat islets prelabeled with [³H]adenine. Glucose-induced insulin secretion and efflux of cyclic [³H]AMP was markedly inhibited by 8–50% ²H₂O. At a higher concentration (75%), deuterated water still suppressed insulin release, while the inhibition of nucleotide release was abolished. Glucose-induced intra-islet cyclic [³H]AMP accumulation was augmented by ²H₂O progressively with time. With 75% ²H₂O, although efflux of cyclic AMP was no more inhibited, intra-islet accumulation of the nucleotide was still enhanced. The cyclic AMP efflux induced by cholera toxin, or a high concentration of 3-isobutyl-1-methylxanthine was suppressed and the intra-islet nucleotide accumulation was enhanced by ²H₂O. The latter effect tended to be less pronounced than when glucose was the stimulator. All the effects of ²H₂O on glocuse-stimulated islets were mimicked by incubating the tissue in H₂O at 28°C.Colchicine and vincristine had no significant effect on glucose-induced insulin release, and did not enhance the intra-islet cyclic [³H]AMP response; efflux of the nucleotide was, however, significantly inhibited. This pattern of response was shared with probenecid. Preincubation of islets with colchicine did not influence the subsequent effects of ²H₂O on insulin release and cyclic AMP metabolism.It is concluded that: (1) enhancement of intra-islet cyclic AMP accumulation by ²H₂O is not due to inhibition of the nucleotide efflux; (2) the effects on cyclic AMP metabolism described here are not exclusive for microtubular affecting agents and do not seem to be related to the microtubular system of the islet.     

Studies on growth hormone secretion IX. Prostaglandins do not act like ionophores

To gain further insight on the mechanism of GH secretion in general and on the stimulation of this process by prostaglandins in particular, we compared the effects of PGE₁ and PGE₂ on hormone release and cyclic nucleotide levels with those of the ionophores A23187 and X537A under a variety of experimental conditions. All these substances (in the presence but not in the absence of calcium) enhanced GH release in incubated rat anterior pituitaries , prostaglandins being considerably more potent than ionophores. However, while PGE₂ caused a dose-dependent rise in pituitary cyclic AMP levels (from doubling at 10⁻⁷ M to a two-hundred fold increase at 10⁻⁵ M), the ionophores had no effect on the concentrations of this nucleotide. Neither PGE₂ nor the ionophores had any measurable effect on cyclic GMP levels. Exposure of tissues to ionophores for 60 minutes rendered them refractory to subsequent stimulation by PGE₁ or to ionophores themselves, whereas preincubation with PGE₁ did not diminish GH responses during a second incubation period. On the other hand, 60-minute preincubation of hemipituitaries in the presence of ionophores (10⁻⁵ M) did not suppress subsequent PGE₁-promoted cyclic AMP accumulation. Metabolic blockers inhibited PGE₂ and A23187-promoted GH-release but failed to suppress GH-response to X537A. Verapamil partially inhibited PGE₂ but not ionophore induced GH secretion. Ionophores particularly X537A, accelerated 45Ca efflux while PGE₁ did not influence this. Electronmicroscopy revealed extensive vacuolization localized chiefly at the Golgi apparatus when tissues were incubated with X537A. PGE₁ and A23187 had no such morphological effect. It is concluded that prostaglandins E and ionophores promote GH secretion by different mechanisms.     

Leukocytic functions in burn-injured patients

Anergy associated with an increase in suppressor helper T cell (T_c) ratio and a decrease in natural killer (NK) is one main cause of death following thermal injury (Tl). Recently, in vitro studies have shown that LTB₄ can induce human T_c to exert suppressor cell activity, and incubation of lymphocytes with LTB₄ for 24 hours significantly suppressed NK cell activity. Thus, we undertook an investigation of both AA metabolism and immunologic response in 20 patients who suffered 40–90% total body surface area (TBSA) burns. Cyclooxygenase (CO:RIA) and lipoxygenase (LO;HPLC det.) metabolites and superoxide (O₂^.−) production were measured in stimulated polymorphonuclear cells (PMNL) (A 23187 ± AA for icosanoid release; phorbol myristate acetate for O₂^.− production). Lyso-paf-acether (P-LPA) was measured in plasma samples. Ca²⁺-dependent K⁺ permeability in PMNL was measured by the cell K⁺ release induced by A 23187. T_c and T_c subsets were determined using monoclonal antibodies (OKT₃₊, OKT₄₊ and OKT₈₊). A biphasic sequential release of the different substances (leukocytic icosanoids and O₂^.− was monitored: increase ( 36–48 h after Tl) and decrease ( 72 h after Tl). The increase in AA stimulation was more transient than that of O₂^.−. The decline in the release of AA metabolites and O₂^.− production was associated with the anergic phase (decrease OKT₄₊/OKT₈₊ ratio) and with the clinical outcome of the patients. The decrease in LTB₄ and other LO metabolites could explain the impairment of neutrophil chemotaxis. Ca²⁺-dependent K⁺ permeability increased early up to 2 or 3 times normal.In order to go further with the mechanism of inhibition of LTB₄ and O₂^.− release, the effect of Tl plasma was assayed on normal leukocytes: a 10 min incubation with such plasma was sufficient to abolish LTB₄ secretion. A less important inhibition was observed with O₂^.− release (−32%) and Ca²⁺-dependent K⁺ permeability (−30%). Plasma inhibition seems to be due to a thermolabile factor(s) [protein(s): “suppressive factor(s) of membrane activation ”SFMA] which is (are) under active investigation using gel-filtration chromatography and fast protein liquid chromotography (FPLC). Among the SFMAs, certain acute phase proteins could play a key role: i.e., incubation (10 min) of normal PMNL with ceruloplasmin (1 mg/ml) abolished LO products and O₂^.− release.     

I - Prostaglandin hyperalgesia, a cAMP/Ca dependent process

Prostaglandins stimulate cAMP increase in several biological systems including CNS. The possible participation of a cAMP/Ca²⁺ related mechanism in prostaglandin induced hyperalgesia in the rat paw, as measured by a modification of the Randall-Selitto method was investigated. A serie of agents was administered in the paw in an attempt to change either Ca²⁺ or cyclic AMP concentration at the nociceptive terminations. PGE₂, dibutyryl cyclic AMP, isoprenaline, noradrenaline, adrenaline, Ca²⁺ionophore (A23187), BaCl₂ caused a dose dependent hyperalgesia. The hyperalgesic effect of these substances was enhanced by methyl-xanthines. Cyclic GMP as well as agents which interfere with Ca²⁺ influx(verapamil and lanthanum) were local analgesics in normal and hyperalgesic paws.     

Superoxide anion and hydrogen peroxide production by chemically elicited peritoneal macrophages--induction by multiple nonphagocytic stimuli

The ability of a number of stimulants to activate an oxidative burst (OB) in oil-elicited guinea pig peritoneal exudate macrophages (MPs) was examined. The parameters of the OB were the generation and extracellular release of Superoxide anions (O₂^?) and hydrogen peroxide (H₂O₂). We found that: (1) The cocarcinogen and skin irritant phorbol myristate acetate (PMA) was the most potent OB activator—The weak cocarcinogen 4-O-methyl PMA was a proportionally less effective OB activator; (2) The lectins concanavalin A (Con A) and wheat germ agglutinin (WGA), but not soybean, Lotus, and pokeweed lectins, were also quite effective OB activators—The ability of Con A to stimulate O₂^? production was abolished by succinylation and could be prevented by the presence of α-methyl-D-mannoside; (3) Other stimulators of an OB in MPs were: N-formyl-methionyl peptides, opsonized zymosan, the Ca²⁺ ionophore A23187, phospholipase C, NaF, antimacrophage antibody, microtubule-disrupting drugs, and sodium nitroprusside—O₂^? generation induced by A23187 (but not that stimulated by PMA) was dependent on extracellular Ca²⁺; (4) The amount of O₂^? produced per cell was higher at low cell densities; (5) The addition of Superoxide dismutase (SOD) to the medium totally prevented the detection of O₂^? and augmented twice the amount of H₂O₂ recovered; (6) Pretreatment of MPs with the SOD inhibitor sodium diethyldithiocarbamate had no effect on the release of O₂^? but blocked H₂O₂ release in a dose-dependent manner. These data were interpreted as indicating that the bulk of H₂O₂ was derived by enzymatic dismutation of O₂^?; (7) The common mechanism by which such a variety of stimuli provoke an OB in MPs was not elucidated. No evidence was found to suggest a role for a cyclic nucleotide messenger.     

Cyclic nucleotide metabolism and reactive oxygen production by macrophages

The production of reactive oxygen species by elicited rat peritoneal macrophages was assessed by $\text{in vitro}$ measurement of chemiluminescence in the presence of luminol. The divalent ion ionophore A23187 stimulated the production of reactive oxygen species. This action was inhibited by monobutyryl and dibutyryl derivatives of cyclic AMP but was not affected by derivates of cyclic GMP. Cyclic AMP and cyclic GMP concentrations increased rapidly in macrophages exposed to A23187 or zymosan. Indomethacin (20 μmol/1) inhibited the increase in cyclic AMP concentration but not the increase in cyclic GMP concentration. Neither A23187 nor zymosan stimulated adenylate cyclase activity in broken cell preparations of macrophages. The observations are consistent with the hypothesis that PGE produced by macrophages after phagocytotic stimuli may inhibit certain macrophage functions and perform a regulatory role in these cells. This action of PGE may be mediated by cyclic AMP.     

Phorbol ester (TPA) potentiates noradrenaline and acetylcholine-evoked amylase secretion in the rat pancreas

The effect of the phorbol ester 12-O-tetradeconyl-phorbol-13-acetate (TPA) on noradrenaline (NA) and acetylcholine (ACh)-evoked amylase secretion in isolated segments of rat pancreas was investigated. TPA alone evoked a relatively small increase in amylase output. However, when combined with either noradrenaline or ACh, the phorbol ester markedly enhanced the secretagogue-induced amylase secretion. These effects were dose related. TPA also enhanced the amylase secretion evoked by either the Ca²⁺ ionophore A23187 or dibutyryl cyclic AMP. This potentiation by TPA of noradrenaline, ACh, Ca²⁺ ionophore A23187 and dibutyryl cyclic AMP-evoked amylase output may suggest the existence of a third pathway controlling enzyme secretion in the pancreas.     

Contribution of lipoxygenase and cyclooxygenase metabolites in the modulation of cyclic nucleotides in the guinea pig mymotrium. Differential effects of carbachol and ionophore A23187

Accumulation of cyclic GMP in estradiol-treated immature guinea pig myometrium was enhanced by carbachol, ionophore A₂₃₁₈₆, unsaturated fatty acids and their hydroperoxides. Cyclic AMP content was elevated only by arachiodonic acid, A₂₃₁₈₇ and PGI₂. Eicosatetraynoic acid (TYA), but not indomethacin prevented all cyclic GMP responses. The effects of A₂₃₁₈₇ and arachidonate on cyclic AMP were accompanied by a parallel increase (2–3 fold) on the generation of PGI₂ by the myometrium. Both events were similarly reduced by indomethacin, TYA, 15-hydroperoxyarachidonic acid and tranylcypromine, suggesting that PGI₂ was involved. Omission of Ca²⁺ or addition of mepacrine of p-bromophenacylbromide abolished the stimulatory effects of A₂₃₁₈₇ and carbachol on cyclic GMP as well as the A₂₃₁₈₇-induced elevations in both PGI₂ and cyclic AMP generation. Thus, with both exogenous arachidonate as well as with endogenous fatty acid, released through an apparent phospholipase A₂-induced activation process, the lipoxygenase pathway was associated with an activation of the cyclic GMP system and the cyclooxygenase pathway, via PGI₂ generation, with an activation of the cyclic AMP system. Carbachol failed to alter both cyclic AMP content and the release of PGI₂ suggesting a cholinergic receptor-mediated fatty acid release process, selectively coupled to the lipoxygenase route.     

Effects of Prostaglandins on the action of luteinizing hormone in dispersed rat interstitial cells

Prostaglandins E1, E2, A1 and A2 at 10⁻⁵ and 10⁻⁴M stimulated basal testosterone production in dispersed rat interstitial cells in vitro. They effectively inhibited steroidogenesis induced by ovine pituitary luteinizing hormone (LH) (0.2 nM), dibutyryl cyclic AMP-(DBC 0.5 mM), and cholera toxin (100 ng). PGF2α (10⁻³ to 10⁻¹²M) had no effect on either basal or hormonal or non-hormonal stimulated steroidogenesis in the cells. PGA1 and PGA2 were more effective inhibitors than PGE1 and E2. None of the PG's had any influence on ¹²⁵I LH-receptor interaction. In view of this and the inhibition of DBC stimulated testosterone production, it may be suggested that the PG inhibition lies beyond the receptor-cyclic AMP formation step.     

Effects of prostaglandins on rat renal adenylate cyclase-cyclic AMP systems

The effects of prostaglandin (PG) E₁, E₂, A₁, F_1α, F_2α or D₂ on the rat renal cortical, outer medullary and inner medullary adenylate cyclase-cyclic AM systems were examined. While high concentrations (8X10⁻⁴M) of each prostaglandin stimulated adenylate cyclase activity in each area of the kidney, PGE₁ was the only prostaglandin to stimulate at 10⁻⁷M. PGA's were the only prostaglandins tested besides PGE's which stimulated adenylate cyclase at less than 10⁻⁴M. This effect of PGA's was limited to the outer medulla. PGD₂ was the least stimulatory. Observations with renal slices yielded qualitatively results. The PGE's were the most potent in each area with PGA's only stimulatory in the outer medulla. O₂ deprivation (5% O₂) lowered the slice cyclic AMP content in each area of the kidney. In the cortex and outer medulla, prostaglandin mediated increases in cyclic AMP content were either lower or absent at 5% O₂ compared to 95% O₂. However, in the inner medulla PGE stimulation was observed only at 5% O₂ and not 95% O₂. No other prostaglandins were found to increase inner medullary cyclic AMP content at 95% or 5% O₂. These results illustrate that the adenylate cyclase-cyclic AMP system responds uniquely to prostaglandins in each area of the kidney. Consideration of these results along with correlative observations suggests that inner medullary produced PGE's may act as local modulators of inner medullary adenylate cyclase.     

Effects of prostaglandins and other drugs on the cyclic AMP content of cultured bone cells

Prostaglandins of the E-series (PGE₁ and PGE₂) may be involved in disease-related, localized loss of bone. E-prostaglandins increase the cyclic AMP content of many cells; and, to determine if their effects on bone are mediated by cyclic AMP, we examined the effects of E-prostaglandins and of other agents on the cyclic AMP content of cultured bone cells. PGE₂ produced a rapid, marked and dose-related increase in the cyclic AMP content of confluent monolayers of bone cells isolated from newborn rat calvaria. At 2.8 × 10⁻⁶ M, PGE₁ and PGE₂ had approximately the same effect, while the effect of PGF_2α was much less pronounced. In the presence of theophylline, PGE₂ had a more marked effect than parathyroid hormone (PTH) and the combination of PGE₂ and PTH had a synergistic effect. The divalent, cationic, ionophore, A23187, produced an increase in cellular cyclic AMP and had an additive effect in combination with PGE₂. Synthetic salmon calcitonin (CT), which inhibits the bone resorptive effect of PGE₂, increased cellular cyclic AMP and had an additive effect in combination with PGE₂. A prostaglandin antagonist, SC-19220, partially inhibited the resorptive effect of PGE₂ and reduced its effect on cellular cyclic AMP. The calcium antagonist, D600, inhibited the bone resorptive effects of PGE₂ but had no effect on increased cellular cyclic AMP produced by PGE₂.The marked effect of PGE₂ on bone cell cyclic AMP suggests that this action is involved in the mechanism of PGE₂-related bone loss. The fact that agents with different effects on PGE₂-induced increases in cellular cyclic AMP can inhibit its resorptive actions, suggests that PGE₂-induced changes in cyclic AMP may be related less to its resorptive actions than to its inhibitory effect on bone formation.     

Role of transmethylation in the elicitation of an oxidative burst in macrophages

Elicited guinea pig peritoneal macrophages (MPs) respond by an oxidative burst (OB) to a variety of membrane stimulants. Evidence has recently accumulated, indicating that phospholipase A₂ activation resulting in unsaturated fatty acid liberation is a prerequisite for the induction of an OB by some stimulants. We examined the effect of inhibiting adenosylmethionine-dependent phospholipid methylation on the capacity of MPs to produce superoxide (O₂^?) in response to membrane stimulation. We found that preincubation of MPs with the transmethylation inhibitor, 3-deazaadenosine (DZAdo), totally eliminated the induction of an OB by concanavalin A, wheat germ agglutinin, and N-formyl-l-methionyl-l-leucyl-l-phenylalanine and partially blocked O₂^? production in response to NaF, phospholipase C, digitonin, the ionophore A23187, and phorbol myristate acetate (PMA). The PMA-elicited OB was the most resistant to inhibition by DZAdo. Homocysteine thiolactone enhanced the blocking effect of DZAdo. These findings suggest that stimulated O₂^? production by guinea pig peritoneal MPs requires enzymatic methylation of an unknown substrate, most likely a membrane phospholipid.     

Evaluation of inhibitors of eicosanoid synthesis in leukocytes: Possible pitfall of using the calcium ionophore A23187 to stimulate 5′ lipoxygenase

The effect on arachidonate metabolism of two compounds (BW755C and benoxaprofen) which have been reported to inhibit 5′ lipoxygenase in leukocytes has been evaluated in human polymorphonuclear leukocytes (PMN) stimulated with the calcium ionophore A23187 and serum-treated zymosan (STZ). The syntheses of leukotriene B₄ (LTB₄) and thromboxane B₂ (TXB₂) from endogenous substrate were determined by specific radioimmunoassays as indicators of 5′ lipoxygenase and cyclo-oxygenase activity in the PMN respectively. Benoxaprofen inhibited the synthesis of leukotriene B₄ by human PMN stimulated with the calcium ionophore A23187, but it was approximately 5 times less potent than BW755C. However, benoxaprofen (IC₅₀ 1.6 × 10⁻⁴M) was approximately 100 times less potent than BW755C (IC₅₀ 1.7 × 10⁻⁶M) at inhibiting leukotriene B₄ synthesis induced by serum-treated zymosan. Both drugs inhibited thromboxane synthesis by leukocytes stimulated with A23187 or serum-treated zymosan at similar concentrations (approximately 5 × 10⁻⁶M). The data obtained using STZ as stimulus are consistent with previous studies and indicate that benoxaprofen is a relatively selective inhibitor of cylco-oxygenase. However, this selectivity was far less apparent when A23187 was used as a stimulus to release the eicosanoids which suggests that this inhibition could be via an indirect mechanism and therefore A23187 should be used with caution as a stimulus of 5′ lipoxygenase for evaluating inhibitors of eicosanoid synthesis.     

Rapid changes in the activities of the enzymes of cyclic AMP metabolism after addition of A23187 to macrophages

The ionophore A23187 stimulated adenylate cyclase activity in intact macrophages within 1 min. This action was blocked by pretreatment with indomethacin (25 μmol/l) suggesting the involvement of a prostaglandin (PG). PGE₂ (500 nmol/l) also stimulated adenylate cyclase activity in intact cells, but this was not prevented by indomethacin pretreatment. Colchicine (100 μmol/l) potentiated the increases in macrophage cyclic AMP production seen after addition of PGE₂ or A23187. The high affinity form of cyclic AMP phosphodiesterase (PDE) was activated within 1 min of the addition of A23187 to intact macrophages. The data suggest that the increase in macrophage cyclic AMP production after A23187 is a consequence of adenylate cyclase activation and not PDE inhibition. The endogenous production of a prostaglandin probably mediates this effect of A23187, emphasizing the importance of arachidonic acid metabolites in the regulation of macrophage functions.     

Similar and opposite effects of dibutyryl cyclic AMP and insulin on glucose metabolism in adipose tissue

The effects of N⁶-2′-O-dibutyryl cyclic AMP on glucose metabolism and lipolysis in fragments of rat epididymal adipose tissue were studied. Measurements were made of glucose uptake, conversion of glucose carbon to CO₂ and tissue fatty acids and glyceride-glycerol, lactate production, and glycerol release. Low concentrations of dibutyryl cyclic AMP (0.1–0.5 mM) increased all parameters of glucose metabolism and inhibited glycerol release in tissue from both normally fed and fasted rats. Higher concentrations of dibutyryl cyclic AMP (3–5 mM) diminished glucose utilization and greatly accelerated lipolysis. Insulin, 50 μunits/ml, accelerated glucose metabolism in the presence of either low or high concentrations of dibutyryl cyclic AMP though the effect of insulin was greatly reduced by 3 mM dibutyryl cyclic AMP. Tissue exposed to concentrations of dibutyryl cyclic AMP which inhibited glucose metabolism (5 mM), then rinsed and reincubated without dibutyryl cyclic AMP, displayed increased glucose utilization. The results of these experiments emphasize the need for caution in interpretation of the effects of dibutyryl cyclic AMP on adipose tissue metabolism and the need for further research to elucidate the role of cyclic AMP in the regulation of glucose metabolism.     

Hormone-induced changes in pyruvate kinase activity in isolated hepatocytes II. Relation to the hormonal regulation of gluconeogenesis gluconeogenesis

1. 1. Incubation of isolated hepatocytes with glucagon (10⁻⁶ M) or dibutyryl cyclic AMP (0.1 mM) causes a decrease in pyruvate kinase activity of 50%, measured at suboptimal substrate (phosphoenolpyruvate) concentrations and 1 mM Mg_free²⁺. The magnitude of the decrease in activity is not influenced by the applied extracellular concentrations of lactate (1 and 5 mM), glucose (5 and 30 mM) or fructose (10 and 25 mM). With all three substrates comparable inhibition percentages are induced by glucagon or dibutyryl cyclic AMP.

2. 2. The extent of inhibition of pyruvate kinase induced by incubation of hepatocytes with glucagon or dibutytyl cyclic AMP is not influenced by the extracellular Ca²⁺ concentration nor by the presence of 2 mM EGTA. The reactivation of pyruvate kinase seems to be inhibited by a high concentration of extracellular Ca²⁺ (2.6 mM) as compared to a low concentration of extracellular Ca²⁺ (0.26 mM).

3. 3. Incubation of hepatocytes in a Na⁺-free, high K⁺-concentration medium does not influence the magnitude of the pyruvate kinase inhibition induced by dibutyryl cyclic AMP. However, the reactivation reaction is stimulated under these incubation conditions.

4. 4. Incubation of hepatocytes with dibutyryl cyclic GMP (0.1 mM) leads to a 25% decrease in pyruvate kinase activity. The magnitude of the inhibition by dibutyryl cyclic (GMP) is not influenced by the presence of pyruvate (1 mM) or glucose (5 mM and 30 mM).

5. 5. The relative insensitivity of the pyruvate kinase inhibition induced by glucagon, dibutyryl cyclic AMP and dibutyryl cyclic GMP to the extracellular environment leads to the conclusion that the hormonal regulation of pyruvate kinase is not the only site of hormonal regulation of glycolysis and gluconeogenesis. It is concluded that hormonal regulation of pyruvate kinase activity is exerted by changes in the degree of (de)phosphorylation of the enzyme reflecting acute hormonal control as well as by changes in the concentration of the allosteric activator fructose 1,6-diphosphate. The latter depends at least in part on the hormonal control of the phosphofructokinase-fructose-1,6-phosphatase cycle.

II - Prostaglandin hyperalgesia: The peripheral analgesic activity of morphine, enkephalins and opioid antagonists

Morphine, enkephalins, nalorphine, naloxone and pentazocine are shown to have a peripheral analgesic effect. In our modification of the Randall-Selitto test these substances were 50–100 times more potent than a standard local anaesthetic, lidocaine. At this peripheral site, naloxone did not antagonize the effect of morphine. Morphine had a marked analgesic effect on the hyperalgesia induced by PGE₂ and PGI₂, BaCl₂, Ca²⁺ ionophore A23187, isoprenaline but not on that induced by dibutyryl cyclic AMP. It was suggested that the peripheral analgesic effect of morphine is due to an inhibition of adenylate-cyclase activity.     

A dual role for calcium in regulation of superoxide generation by stimulated rat alveolar macrophages

Superoxide production in alveolar macrophages is stimulated by agonists which act through Ca2+-mediated (concanavalin A) and/or protein kinase C (phorbol ester or diacylglycerol analogues) -mediated events. Simultaneous addition of saturating concentrations of concanavalin A and a protein kinase C activator (either phorbol 12-myristate-13-acetate or 1-oleoyl-2-acetyl-sn-glycerol) caused a supra-additive enhancement of the initial rate of O2-. production. This synergism closely correlated with the known time-course of Ca2+ mobilization induced by concanavalin A; however, it occurred under conditions in which protein kinase C activation is reportedly not Ca2+ dependent. Phorbol ester-induced O2-. production was partially inhibited by the Ca2+ ionophore, A23187. Although phorbol ester-stimulated O2-. production initially was enhanced by concanavalin A, the duration of this O2-. production was reduced in comparison to that induced by phorbol ester alone. These results suggest a dual role for intracellular Ca2+ in both stimulatory and inhibitory regulation of O2-. production.