Characteristics of intracellular calcium changes required for augmentation of phorbol ester-stimulated pancreatic enzyme secretion

Previous studies demonstrated that Ca2+ ionophores augment the pancreatic enzyme secretion caused by phorbol esters. The present study was performed to determine the nature of the cellular Ca2+ effects responsible for the augmentation. Relatively low concentrations (0.3-1.0 microM) of the nonfluorescent Ca2+ ionophore, 4-bromo-A23187 (Br-A23187), did not measurably increase free cytosolic Ca2+ ([Ca2+]i) and caused little or no enzyme release from guinea pig pancreatic acini. However, these concentrations of Br-A23187 augmented the amylase release caused by the phorbol ester, 4 beta-phorbol 12-myristate 13-acetate (PMA). This augmentation occurred in the absence of extracellular Ca2+ as long as the intracellular agonist-sensitive pool contained Ca2+. Greater concentrations of Br-A23187 (3-10 microM) alone caused transient increases in [Ca2+]i and transient increases in amylase release. Although not resulting in an increase in [Ca2+]i, the low concentrations of Br-A23187 caused release of Ca2+ from the intracellular agonist-sensitive pool. These results suggest that Ca2+ mediates enzyme release by two distinct mechanisms in the pancreatic acinar cell. First, an increase in [Ca2+]i alone mediates enzyme release. Second, Ca2+ release from the agonist-sensitive pool not resulting in a measurable increase in [Ca2+]i augments enzyme release stimulated by a phorbol ester. The second effect of Ca2+ may be due to a small localized change in cell Ca2+ or an induction of cytosolic Ca2+ oscillations.     

The role of calcium in the initiation of superoxide release from alveolar macrophages

The role of calcium in the release of superoxide anion (O2-) was examined in alveolar macrophages after stimulation with the soluble stimuli: concanavalin A (Con A), N-formyl methionyl phenylalanine (FMP), and the calcium ionophore. A23187. The release of O2- by Con A was unaffected over a wide range of extracellular calcium concentrations (20 microM to 3 mM), whereas increasing the extracellular calcium above 2 mM inhibited FMP-stimulated O2- release. In contrast, A23187 did not stimulate O2- release in calcium-free medium (less than or equal to 30 microM). The addition of EGTA (50 microM) to calcium-free medium had no effect on Con A stimulation of O2- release or FMP-stimulated O2- release. These results suggest that, for the three soluble stimuli, there are different roles for Ca+2 in the activation and transmission of stimulatory signals across the cell membrane. Con A- or FMP-stimulated calcium efflux from calcium-loaded cells in either calcium-free medium or 0.5 mM calcium-containing medium. In calcium-free medium, FMP transiently retarded 45Ca+2 uptake, while in 0.5 mM calcium-containing medium, FMP transiently stimulated 45Ca+2 uptake. For either Con A or FMP, calcium efflux preceded O2- release by 30-45 sec. Quinine, an agent that blocks membrane hyperpolarization in macrophages, completely blocked O2- release by concanavalin A or FMP and inhibited 45CA+2 efflux by 50% or more for both agents. These results support the hypothesis that redistribution of cellular Ca+2 is one of the initial steps leading to the release of O2-.     

Pharmacomechanical coupling in rat vas deferens: effects of agents that modulate intracellular release of calcium and protein kinase C activation.

The effects of agents that modulate intracellular release of calcium and protein kinase C (PKC) activation on noradrenaline (NA)-induced contractions of epididymal vas deferens in calcium-free/EGTA (1 mM) medium were investigated. NA (100 microM) or methoxamine (100 microM) evoked repeatable contractions. Clonidine (100-300 microM) was ineffective. The contractions to NA were reduced by procaine (1-10 mM) but not by thapsigargin (0.1-30 microM), ryanodine (1-30 microM) or TMB-8 (1-30 microM). Contractions to cumulative additions of NA (1-100 microM) were enhanced in the presence of cyclopiazonic acid (10 & 30 microM) but not ryanodine (10 & 30 microM). Sequential contractions to NA were not blocked by PKC inhibitors, calphostin C (1 microM) or Ro 31-8220 (1-30 microM) but were reduced by H-7 (1-30 microM), a broad spectrum protein kinase inhibitor. Although RT-PCR experiments detected mRNA for some Ca2+-dependent/DAG-activated and Ca2+-independent/DAG-activated PKC isoforms in epididymal vas deferens, the PKC activators, phorbol 12, 13-dibutyrate (100 microM) or phorbol 12-myristate 13-acetate (100 microM) failed to activate the tissues in calcium-free medium but enhanced subsequent contractions to NA. These results indicate a limited role for intracellular calcium stores and phorbol ester/DAG-sensitive PKC isoforms in NA-induced contraction of epididymal rat vas deferens in calcium-free medium. The results suggest that pharmacomechanical coupling triggered by NA may involve the sensitization of contractile myofilaments to Ca2+ or a Ca2+-independent mechanism. The possible involvement of Ca2+-independent/DAG-insensitive PKC isoforms and agonist-dependent but PKC-independent sensitization pathway is discussed.     

Noradrenaline Release from Streptolysin O-Permeated Rat Cortical Synaptosomes: Effects of Calcium, Phorbol Esters, Protein Kinase Inhibitors, and Antibodies to the Neuron-Specific Protein Kinase C Substrate B-50 (GAP-43)

We studied the molecular mechanism of noradrenaline release from the presynaptic terminal and the involvement of the protein kinase C substrate B-50 (GAP-43) in this process. To gain access to the interior of the presynaptic terminal, we searched for conditions to permeate rat brain synaptosomes by the bacterial toxin streptolysin O. A crude synaptosomal/mitochondrial preparation was preloaded with [3H]noradrenaline. After permeation with 0.8 IU/ml streptolysin O, noradrenaline efflux could be induced in a concentration-dependent manner by elevating the free Ca2+ concentration from 10(-8) to 10(-5) M. Efflux of the cytosolic marker protein lactate dehydrogenase was not affected by this increase in Ca2+. Ca2(+)-induced efflux of noradrenaline was largely dependent on the presence of exogenous ATP. Changing the Na+/K+ ratio in the buffer did not affect Ca2(+)-induced noradrenaline release. Release of noradrenaline could also be evoked by phorbol esters, indicating the involvement of protein kinase C. Ca2(+)- and phorbol ester-induced release were not additive at higher phorbol ester concentrations (greater than 10(-7) M). We compared the sensitivities of Ca2(+)- and phorbol ester-induced release of noradrenaline to the protein kinase inhibitors H-7 and polymyxin B and to antibodies raised against synaptic protein kinase C substrate B-50. Ca2(+)-induced release was inhibited by B-50 antibodies and polymyxin B, but not by H-7; phorbol ester-induced release was inhibited by polymyxin B and by H-7, but only marginally by antibodies to B-50.(ABSTRACT TRUNCATED AT 250 WORDS)     

Intracellular Ca2+ mobilization and not calcium influx promotes phorbol ester-stimulated thromboxane A2 synthesis in human platelets.

Phorbol esters, potent activators of protein kinase C (PKC), greatly enhance the release of arachidonic acid and its metabolites (TXA2, HETES, HHT) by Ca2+ ionophores in human platelets. In this paper, we report the relationship between intracellular Ca2+ mobilization and external calcium influx into platelets and the ability of PMA plus A23187 to promote thromboxane A2 (TXA2) synthesis. The enhanced levels of TXA2 due to the synergistic stimulation of the platelets with A23187 and phorbol esters are not affected significantly by the presence of external Ca2+ or the calcium-chelator EGTA. PKC inhibitors, staurosporine and sphingosine, abolished phorbol myristate acetate (PMA) potentiation of TXA2 production which strongly supports the role of PKC in the synergism. Platelet aggregation is more sensitive to PMA and external calcium than TXA2 formation. PMA increased TXA2 production as much as 4-fold at low ionophore concentrations. The A23187-induced rise in [Ca2+]i was reduced by pretreatment of human platelets with phorbol esters, both in the presence and absence of EGTA, and staurosporine reversed this inhibitory effect. These results indicate that the synergistic stimulation of TXA2 production by A23187 and phorbol esters is promoted by intracellular Ca2+ mobilization and not by external calcium influx. Our data also suggest that PKC is involved in the regulation of Ca2+ mobilization from some specific intracellular stores and that PKC may also stimulate the Ca(2+)-dependent phospholipase A2 at suboptimal Ca2+i concentrations.     

Priming effect of calcium ionophores on phorbol ester-induced respiratory burst in mouse peritoneal neutrophils.

The abilities of three calcium ionophores (A23187, 4-bromo-A23187, and ionomycin) to modulate the respiratory burst of neutrophils induced by phorbol ester and to increase the concentration of free intracellular Ca2+ ([Ca2+]i) were compared. The production of reactive oxygen species (ROS) was determined by luminol-dependent chemiluminescence and [Ca2+]i was determined with the Fura-2 fluorescent probe. A23187 (0.05-2 microM) and ionomycin (0.001-0.5 microM) but not 4-bromo-A23187 amplified 3-4-fold the respiratory burst induced by phorbol ester. The integral response (total production of ROS over 6 min) had a bell-shaped dependence on the concentration of ionomycin and A23187 with increase and decrease at low and high concentrations of the ionophores, respectively. The maximal effect was found at 0.5 microM ionomycin and 2 microM A23187, these concentrations resulting in transient increases in [Ca2+]i to 1776 +/- 197 and 955 +/- 27 nM, respectively. The ionophores had no effect in calcium-free media, though they increased [Ca2+]i to approximately 400 nM through the mobilization of intracellular Ca2+. In cells with exhausted stores of Ca2+, the addition of 1.5 mM Ca2+ combined with phorbol ester amplified twofold the production of ROS. The inhibition of phospholipase A2 with 4-bromophenacyl bromide significantly decreased the production of ROS. Thus, the entrance of Ca2+ and generation of arachidonic acid under the influence of phospholipase A2 are necessary for the ionophore-induced priming of production of ROS during cell activation with phorbol esters.     

Ca2+ dependence of stimulated 45Ca efflux in skinned muscle fibers

Stimulation of sarcoplasmic reticulum Ca release by Mg reduction of caffeine was studied in situ, to characterize further the Ca2+ dependence observed previously with stimulation by Cl ion. 45Ca efflux and isometric force were measured simultaneously at 19 degrees C in frog skeletal muscle fibers skinned by microdissection; EGTA was added to chelate myofilament space Ca either before or after the stimulus. Both Mg2+ reduction (20 or 110 microM to 4 microM) and caffeine (5 mM) induced large force responses and 45Ca release, which were inhibited by pretreatment with 5 mM EGTA. In the case of Mg reduction, residual efflux stimulation was undetectable, and 45Ca efflux in EGTA at 4 microM Mg2+ was not significantly increased. Residual caffeine stimulation at 20 microM Mg2+ was substantial and was reduced further in increased EGTA (10 mM); at 600 microM Mg2+, residual stimulation in 5 mM EGTA was undetectable. Caffeine appears to initiate a small Ca2+-insensitive efflux that produces a large Ca2+-dependent efflux. Additional experiments suggested that caffeine also inhibited influx. The results suggest that stimulated efflux is mediated mainly or entirely by a channel controlled by an intrinsic Ca2+ receptor, which responds to local [Ca2+] in or near the channel. Receptor affinity for Ca2+ probably is influenced by Mg2+, but inhibition is weak unless local [Ca2+] is very low.     

Measurement of ionized calcium in blood platelets with the photoprotein aequorin. Comparison with Quin 2

The Ca2+-sensitive photoprotein aequorin (Mr = 20,000) was introduced into human blood platelets by incubation with 10 mM EGTA and 5 mM ATP. Platelet cytoplasmic and granule contents were retained during the loading procedure, and platelet morphology, aggregation, and secretion in response to agonists were normal after aequorin loading. Luminescence indicated an apparent resting cytoplasmic ionized calcium concentration [( Cai2+]) of 2-4 microM in media containing 1 mM Ca2+ and of 0.8-2 microM in 2-4 mM EGTA. The Ca2+ ionophore A23187 and the enzyme thrombin produced dose-related luminescent signals in both Ca2+-containing and EGTA-containing media. Peak [Cai2+] after A23187 or thrombin stimulation of aequorin-loaded platelets was 2-10 microM, while peak [Cai2+] determined using Quin 2 as the [Cai2+] indicator was at least 1 log unit lower. In platelets loaded with both aequorin and Quin 2, the aequorin signal was delayed but not reduced in amplitude. Aequorin loading of Quin 2-loaded cells had no effect on the Quin 2 signal. Ca2+ buffering by Quin 2 (intracellular concentration greater than 1 mM) is also supported by a reciprocal relationship between [Quin 2] and peak [Cai2+] stimulated by A23187 in the presence of EGTA. Parallel experiments with Quin 2 and aequorin may identify inhomogeneous [Cai2+] in platelets and give a more complete picture of platelet Ca2+ homeostasis than either indicator alone.     

Glucose release in mantle tissue of Mytilus: regulation by calcium ions

Glucose release activity in mantle tissue of Mytilus galloprovincialis was studied. Mantle tissue shows a basal glucose releasing activity. The external Ca2+ absence increases 2 to 3-fold the basal glucose release, and when A23187 (10 microM) was simultaneously present the release doubled that obtained in Ca2(+)-absence. EGTA (2 mM), chlorpromazine (200 microM) and lanthanum (3 mM) decreased the glucose release promoted by external Ca2+ absence. This and other data suggest that glucose release activity in mantle tissue might be controlled by Ca2+ ions.     

Calcium dependence of the stimulatory action of hypertonicity on renal medullary prostaglandin synthesis

Previous studies have shown that hypertonic mannitol or NaCl increases the release of [3H]arachidonate and immunoreactive prostaglandin E in inner medullary slices incubated in Ca2+-free media containing EGTA. By contrast, the stimulation of these parameters by ionophore A23187 and by arginine-vasopressin are abolished in Ca2+-free media plus EGTA. In the present study, the effects of Ca2+ deprivation and the intracellular Ca2+ antagonist TMB-8 [8-N,N-diethylamino)octyl-3,4,5 -trimethoxybenzoate-HCl) were further examined to assess the Ca2+ dependence of the actions of different stimuli of prostaglandin E synthesis in rat renal inner medulla. Ca2+-free media without EGTA abolished increases in [3H]arachidonate and immunoreactive prostaglandin E release induced by ionophore A23187, but not those induced by arginine-vasopressin, suggesting that different pools of Ca2+ subserve expression of the actions of these two stimuli. At low concentrations, TMB-8 (10-25 microM) inhibited increases in [3H]arachidonate and immunoreactive prostaglandin E release induced by arginine-vasopressin, but did not influence effects of Ca2+ plus ionophore A23187 or hypertonicity on these parameters. At higher concentrations (100-500 microM), TMB-8 suppressed effects of ionophore A23187, hyperosmolar NaCl and mannitol on immunoreactive prostaglandin E and [3H]arachidonate release from slices. The effects of a sub-optimal inhibitory concentration of TMB-8 on ionophore A23187 actions were overcome by increasing Ca2+ in the media from 1.5 to 5 mM. Ca2+ deprivation, or concentrations of EGTA or TMB-8, that were effective in suppressing increases in immunoreactive prostaglandin E induced by ionophore A23187, arginine-vasopressin or hypertonicity, did not modify increases in immunoreactive prostaglandin E induced by exogenous arachidonate. Moreover, in microsomal fractions of inner medulla, TMB-8 suppressed Ca2+-dependent increases in phospholipase A2 and C activities, an effect which was competitive with Ca2+. Thus, Ca2+ deprivation and TMB-8 act at a step in the immunoreactive prostaglandin E synthetic pathway proximal to cyclooxygenase activity, and probably at the level of Ca2+-dependent acyl hydrolase activity. The results with TMB-8 indicate that an intracellular pool of Ca2+ is involved in expression of the actions of hypertonicity to increase [3H]arachidonate release and immunoreactive prostaglandin E in inner medulla.     

Ca2+ requirement of prostanoid but not of superoxide production by rat Kupffer cells

The release of the prostanoids prostaglandin D2 (PGD2), prostaglandin E2 (PGE2) and thromboxane induced by zymosan and phorbol ester in cultured rat Kupffer cells was found to depend on the extracellular concentration of Ca2+ to some extent. Prostanoid formation following the addition of the calcium ionophore A 23187 was totally inhibited when calcium ions were withdrawn from the medium whereas the prostanoid synthesis from added arachidonic acid was independent of Ca2+. A half-maximal rate of PGE2 release by cells treated with zymosan, phorbol ester or A23187 was obtained at 0.6-0.7 microM free extracellular Ca2+ and greater than or equal to 100 microM free Ca2+ was required to stimulate PGE2 formation maximally. The calmodulin antagonist R24571 partially inhibited the release of PGE2 elicited by zymosan and A23187 but not by phorbol ester or arachidonic acid. Verapamil and nifedipine, two calcium channel blockers, had no effect on the formation of PGE2 irrespective of the stimulus. TMB 8 [3,4,5-trimethoxybenzoic acid 8-(diethylamino)-octyl ester] an intracellular calcium antagonist, inhibited the synthesis of PGE2 induced by zymosan and phorbol ester. The superoxide formation following the addition of zymosan and phorbol ester was not influenced by removal of calcium ions from the medium or by addition of the various calcium antagonists. The data presented here suggest that Ca2+-dependent reactions are involved in the synthesis of prostanoids induced by zymosan and phorbol ester and that both extracellular Ca2+ and mobilization of Ca2+ from intracellular stores are needed to induce maximally the production of prostanoids in cultured rat Kupffer cells.     

Effect of Age on Brain Cortical Protein Kinase C and Its Mediation of 5-Hydroxytryptamine Release

The effects of age on the activity and translocation of protein kinase C (PKC) and on the facilitation of 5-hydroxytryptamine (5-HT, serotonin) release induced by PKC activation with the phorbol ester phorbol 12-myristate 13-acetate were investigated. The activities of cortical PKC and its translocation in response to K+ depolarization and phorbol ester stimulation were reduced during aging in Fischer-344 rats. Parietal cortical brain slices from 6-, 12-, and 24-month-old animals were preloaded with [3H]5-HT and release was evoked by 65 mM K+ or the calcium ionophore A23187. 5-HT release induced by either K+ or A23187 was found to be reduced in 12- and 24-month-old as compared to 6-month-old animals. This decrease was not reversed by high extracellular Ca2+. Activation of PKC resulted in a facilitated transmitter release in tissue from 6- and 12-month-old animals but reduced [3H]5-HT release in slices from 24-month-old animals. These responses were prevented by the putative PKC inhibitor 1-(5-isoquinolinesulfonyl)-2-methylpiperazine (H-7), but not by increasing extracellular or intracellular Ca2+. The results demonstrate an age-related change (1) in brain PKC activity and translocation and (2) in a physiological response to PKC stimulation. These results may have implications for other PKC-mediated functions that are altered during senescence.     

Genistein inhibits lysosomal enzyme release by suppressing Ca2+ influx in HL-60 granulocytes

The tyrosine kinase inhibitor genistein (5-200 microM) suppressed Ca(2+)-dependent fMLP (1 microM) and ATP (100 microM)-induced release of the lysosomal enzyme, beta-glucuronidase from neutrophil-like HL-60 granulocytes. Agonist-induced Ca2+ mobilization resulted from the release of intracellular Ca2+ stores and the influx of extracellular Ca2+. Genistein (200 microM) suppressed fMLP (1 microM) and ATP (100 microM)-induced Ca2+ mobilization, by 30-40%. Ca2+ release from intracellular stores was unaffected by genistein, however, genistein abolished agonist-induced Ca2+ (Mn2+) influx. Consistent with these findings, genistein (200 microM) or removal of extracellular Ca2+ (EGTA 1 mM), inhibited Ca(2+)-dependent agonist-induced beta-glucuronidase release by similar extents (about 50%). In the absence of extracellular Ca2+, genistein had a small additional inhibitory effect on fMLP and ATP-induced beta-glucuronidase release, suggesting an additional inhibitory site of action. Genistein also abolished store-operated (thapsigargin-induced) Ca2+ (Mn2+) influx. Neither fMLP nor ATP increased the rate of Mn2+ influx induced by thapsigargin (0.5 microM). These data indicate that agonist-induced Ca2+ influx and store-operated Ca2+ influx occur via the same genistein-sensitive pathway. Activation of this pathway supports approximately 50% of lysosomal enzyme release induced by either fMLP or ATP from HL-60 granulocytes.     

Calcium-Stimulated Proteolysis in Myelin: Evidence for a Ca2+-Activated Neutral Proteinase Associated with Purified Myelin of Rat CNS

Incubation of myelin purified from rat spinal cord with CaCl2 (1-5 mM) in 10-50 mM Tris-HCl buffer at pH 7.6 containing 2 mM dithiothreitol resulted in the loss of both the large and small myelin basic proteins (MBPs), whereas incubation of myelin with Triton X-100 (0.25-0.5%) and 5 mM EGTA in the absence of calcium produced preferential extensive loss of proteolipid protein (PLP) relative to MBP. Inclusion of CaCl2 but not EGTA in the medium containing Triton X-100 enhanced degradation of both PLP and MBPs. The Ca2+-activated neutral proteinase (CANP) activity is inhibited by EGTA (5 mM) and partially inhibited by leupeptin and/or E-64c. CANP is active at pH 5.5-9.0, with the optimum at 7-8. The threshold of Ca2+ activation is approximately 100 microM. The 150K neurofilament protein (NFP) was progressively degraded when incubated with purified myelin in the presence of Ca2+. These results indicate that purified myelin is associated with and/or contains a CANP whose substrates include MBP, PLP, and 150K NFP. The degradation of PLP (trypsin-resistant) in the presence of detergent suggests either release of enzyme from membrane and/or structural alteration in the protein molecule rendering it accessible to proteolysis. The myelin-associated CANP may be important not only in the turnover of myelin proteins but also in myelin breakdown in brain diseases.     

Activation of protein kinase C by myristate and its requirements of Ca2+ and phospholipid

Myristate (C14:0) was found to significantly activate partially purified rat brain Ca(2+)- and phospholipid-dependent protein kinase (PKC). The Ka value, the concentration needed for half maximum activation, for C14:0 in the presence of 1 microM Ca2+ and 20 microM phosphatidylserine (PS) was 20 microM. This activation required Ca2+ and acidic phospholipid and was associated with a decreased Ka for Ca2+ of the enzyme to 10 microM in an analogous fashion as dioleoylglycerol (DO) or phorbol myristate acetate (PMA). The phospholipid requirement for the activation was concentration dependent and was inhibited by 1-(5-isoquinolinesulfonyl)-methylpiperazine dihydrochloride (H-7), a inhibitor of this enzyme. The concentration of H-7 required for half inhibition of the enzyme was about 15 microM and maximum inhibition was about 75%. The concentration profile of cytoplasmic proteins phosphorylated by C14:0-activated PKC was similar to that by PMA-activated PKC. The 47 kDa protein of guinea pig neutrophil was also phosphorylated by the C14:0-activated PKC. It is further discussed whether PKC can function as signal transduction for stimulus-mediated generation of superoxide in neutrophils.     

Does cyclic AMP mobilize Ca2+ for amylase secretion from rat parotid cells?

Both dibutyryl cAMP and carbachol stimulated amylase released from rat parotid cells incubated in Ca2+-free medium containing 1 mM EGTA. Cells preincubated with 10 microM carbachol in Ca2+-free, 1 mM EGTA medium for 15 min lost responsiveness to carbachol, but maintained responsiveness to dibutyryl cAMP. Dibutyryl cAMP still evoked amylase release from cells preincubated with 1 microM ionophore A23187 and 1 mM EGTA for 20 min. Although carbachol stimulated net efflux of 45Ca from cells preequilibrated with 45Ca for 30 min, dibutyryl cAMP did not elicit any apparent changes in the cellular 45Ca level. Inositol trisphosphate, but not cAMP, evoked 45Ca release from saponin-permeabilized cells. These results suggest that cAMP does not mobilize calcium for amylase release from rat parotid cells.     

Inhibition of atrial natriuretic peptide secretion by forskolin in noncontracting cultured atrial myocytes

Secretory rates for immunoreactive atrial natriuretic peptide (ANP) by 7 - 8 day-old primary cultures of atrial myocytes from adult rats (with myocyte contraction inhibited by tetrodotoxin (TTX)) were (a) constant for at least two hours, and (b) significantly slowed by forskolin (1, 5, and 25 microM), dibutyryl cyclic adenosine monophosphate (1 mM), or isobutylmethylxanthine (100 microM). The substantial rates of ANP secretion which persisted in cells rendered noncontracting either by inhibiting Ca2+ influx via reduction of external [Ca2+] to less than 10(-7) M or by inhibiting sarcoplasmic reticulum Ca2+ release with 100 microM ryanodine were significantly slowed by 25 microM forskolin, but forskolin sensitivity was lost by cells exposed simultaneously to external Ca2+ concentration of less than 10(-7) M and 100 microM ryanodine. Quiescent myocytes whose ANP secretory rate was depressed by forskolin remained responsive to secretory stimulation by phorbol ester.     

Pertussis toxin and H-7 distinguish mechanisms involved in eicosanoid release from lipopolysaccharide-primed macrophages. Eicosanoid release from lipopolysaccharide-primed macrophages

Release of eicosanoids is an important response of macrophages to inflammation and bacterial infection. At low concentrations, bacterial lipopolysaccharide (1-2 micrograms/ml) fails to stimulate eicosanoid release in resident peritoneal macrophages but primes the macrophages for a greatly enhanced release of eicosanoids on stimulation with the calcium ionophore A23187 (0.1 microM) or with phorbol 12-myristate 13-acetate (50 nM), an activator of protein kinase C. Incubation of macrophages with Bordetella pertussis toxin, prior to priming with lipopolysaccharide, inhibited the release of both cyclooxygenase and lipoxygenase products upon A23187 stimulation. Pertussis toxin treatment of macrophages had no effect on eicosanoid release when the stimulus was phorbol 12-myristate 13-acetate. The presence of 1-(5-isoquinolinylsulfonyl)-2-methylpiperazine (H-7), an effective inhibitor of protein kinase C, during lipopolysaccharide priming and subsequent stimulation significantly inhibited eicosanoid release when phorbol 12-myristate 13-acetate was the stimulus, but did not affect eicosanoid release stimulated by A23187. Based on these results, at least two mechanisms, distinguished by apparent differences in sensitivity to pertussis-toxin-sensitive, guanine-nucleotide-binding proteins and protein kinase C, are involved in eicosanoid secretion by lipopolysaccharide-activated macrophages in response to A23187 and phorbol 12-myristate 13-acetate.     

Nitroprusside differentially inhibits ADP-stimulated calcium influx and mobilization in human platelets.

1. The effect of nitroprusside on cGMP concn., cAMP concn., shape change, aggregation, intracellular free Ca2+ concn. (by quin-2 fluorescence) and Mn2+ entry (by quenching of quin-2) was investigated in human platelets incubated with 1 mM-Ca2+ or 1 mM-EGTA. 2. Nitroprusside (10 nM-10 microM) caused similar concentration-dependent increases in platelet cGMP concn. and was without effect on cAMP concn. in the presence of extracellular Ca2+ or EGTA. 3. In ADP (3-6 microM)-stimulated platelets, nitroprusside caused 50% inhibition of shape change at 0.4 microM (+Ca2+) or 1.3 microM (+EGTA), aggregation at 0.09 microM (+Ca2+) and of increased intracellular Ca2+ at 0.02 microM (+Ca2+) or 2.1 microM (+EGTA). Entry of 1 mM-Mn2+ (-Ca2+) was inhibited by 80% by 5 microM-nitroprusside. 4. In ionomycin (20-500 nM)-stimulated platelets, nitroprusside (10 nM-100 microM) did not inhibit shape change or intracellular-Ca2+-increase responses, and only partially inhibited aggregation. 5. In phorbol myristate acetate (10 nM)-stimulated platelets, neither shape change nor aggregation was inhibited by 5 microM-nitroprusside. 6. The data demonstrate that nitroprusside inhibits ADP-mediated Ca2+ influx more potently than Ca2+ mobilization. Nitroprusside appears not to influence Ca2+ efflux or sequestration and not to affect the sensitivity of the activation mechanism to intracellular Ca2+ concn. or activation of protein kinase C.     

Direct interaction of calmodulin antagonists with Ca2+/calmodulin-dependent cyclic nucleotide phosphodiesterase

Trypsin-treated Ca2+/calmodulin-dependent phosphodiesterase (CA2+-PDE), which had lost its sensitivity to Ca2+-calmodulin, was inhibited by various calmodulin antagonists, trifluoperazine, chlorpromazine, N-(6-aminohexyl)-5-chloro-1-naphthalenesulfonamide (W-7) and aminoalkyl chain analogues of W-7 (A-3, A-4, A-5, I-240, A-6, A-7). These inhibitory effects were less than those on calmodulin-activated Ca2+-PDE. The ability of these compounds to inhibit trypsin-treated Ca2+-PDE correlated well with the inhibitory effect on calmodulin-activated Ca2+-PDE. W-7 inhibited trypsin-treated Ca2+-PDE in a competitive fashion with respect to cyclic GMP and the Ki value was 300 microM. The inhibition of trypsin-treated Ca2+-PDE by W-7 (300 microM) or A-7 (100 microM) was overcome by the addition of excess calmodulin. Trypsin-treated Ca2+-PDE can bind to W-7-coupled cyanogen bromide-activated Sepharose 4B in the presence of 1 mM EGTA. These results suggest that Ca2+-PDE possesses a binding site for calmodulin antagonists and that the binding site for these antagonists on this enzyme may be structurally similar to the binding site on calmodulin itself.