Comparison of steady-state kinetics of thiophosphorylated versus unphosphorylated smooth muscle myosin

(i) The steady-state kinetic data obtained with purified gizzard and uterus smooth muscle myosins indicated the presence of a plateau region on the substrate-saturation curves. Hill plots of these data provided evidence for mixed positive and negative cooperative interactions. In contrast, when gizzard myosin was prepared according to the method of A. Sobieszek and R.D. Bremel (1975, Eur. J. Biochem.55, 49–60), the saturation curve in the presence of CaATP was hyperbolic and no cooperativity of the binding site(s) was discerned. However, in the presence of MgATP although the curve appeared hyperbolic the Hill plot of the data was biphasic with negative cooperativity at low MgATP concentration, (ii) When thiophosphorylated gizzard myosin was used for kinetic analysis, the plateau region in the presence of MnATP was eliminated from the saturation curve and this curve became hyperbolic. However, in the presence of MgATP, although the plateau was almost eliminated, the saturation curve was still biphasic with either no or greatly reduced negative cooperativity of binding sites at low MgATP concentrations but positive cooperativity of binding at high MgATP concentrations. In addition, the thiophosphorylation of myosin also increased the K_m and V of MgATP and MnATP, thus indicating weaker affinity for these substrates with thiophosphorylated myosin. (iii) Gizzard myosin also hydrolyzed other nucleotides (the order of rates being CTP = ITP > ATP = UTP > GTP), therefore saturation kinetics using different nucleotides as substrates was also carried out. The saturation curves with each nucleotide were different i.e., hyperbolic with CTP, sigmoid with GTP, hyperbolic with biphasic Hill plot with ITP, and possessing plateau with UTP. In addition, it was observed that the kinetic pattern with each nucleotide was very sensitive to temperature and pH.     

The divalent cation dependence of liver glycogen synthase phosphatase activity

Summary In a previous report it was shown that EDTA inhibition of liver glycogen synthase phosphatase activity in preparations from normal, fed rats could be increased upon glucagon or cAMP treatment. This occurred without a change in the half-maximum inhibitory concentration of EDTA. Glucose administration to animals resulted in decreased EDTA inhibition. The inhibitory action of EDTA has been further characterized by comparing its action with that of other chelators (CDTA and EGTA) and examining the effects of various divalent cations on chelator inhibition. Both CDTA and EDTA which differ structurally were inhibitory at 5 mm concentrations whereas EGTA which is structurally similar to EDTA was not inhibitory at concentrations up to 10 mm. The lack of inhibition by EGTA could be explained by its weak affinity for Mg⁺⁺ in the preparation. A comparison of CDTA and EDTA revealed that CDTA was a more potent inhibitor than EDTA (I_0.5, 0.15 mm vs 0.3 mm). Glucagon and glucose treatment of rats resulted in changes in CDTA inhibition which closely paralleled those of EDTA. A large group of divalent cations were tested but only Mg⁺⁺, Ca⁺⁺, and Mn⁺⁺ both prevented and reversed CDTA or EDTA inhibition. Fifty percent reversal using either chelator occurred at calculated free-metal ion concentrations of approximately 2 µm, 0.08 µm and 0.0004 µm, respectively. Thus, it is clear that EDTA inhibition is due to its chelation effect and is not due to a nonspecific anionic effect.     

Alkylation of [3H]8-OH-DPAT binding sites in rat cerebral cortex and hippocampus

The binding of tritiated 8-hydroxy-2-(di-n-propyl-amino)tetralin, or [³H]8-OH-DPAT, to membranes from rat cerebral cortex and hippocampus could be inhibited by serotonin (5-HT) and buspirone, and by the 5-HT antagonists propranolol, NAN-190, pindolol, pindobind-5-HT_1A, WAY100135, spiperone and ritanserin. All competition curves, except for ritanserin, best fitted a two-site model. In vitro treatment of the membranes withN-ethylmaleimide (NEM), to alkylate sulfhydryl groups, caused dose-dependent decreases of binding; the inhibition curves were biphasic, and the effects irreversible. Reduction of disulfide bonds withl-dithiothreitol (L-DTT) also decreased binding, but in a monophasic way; these effects were fully reversible in cortex, but only partially reversible in hippocampus. In the latter region, but not in cerebral cortex, previous occupancy by [³H]8-OH-DPAT partially protected binding from the effects of bothL-DTT and NEM, suggesting that the thiol groups in the receptor recognition site(s) of this brain region are readily accessible. The binding characteristics were examined with the aid of saturation curves, carried out with increasing concentrations, up to 140 nM, of [³H]8-OH-DPAT. The saturation data were suggestive of a two-site receptor model incorporating a high-affinity site (Kh of 0.3–0.5 nM) corresponding to the 5-HT_1A receptor, and a low-affinity site (Kl ofca 25 nM). After in vivo alkylations, carried out by treating rats withN-ethoxycarbonyl-2-ethoxy-1,2-dihydro-quinoline (EEDQ), the saturation curves from both control and EEDQ-treated rats were again best fitted to a two-site model. For EEDQ-treated animals, a drastic decrease of 5-HT_1A receptor activity was noted; this loss was greater in hippocampus than in cerebral cortex. Since the decrease in 5-HT_1A receptors was not associated with changes in low-affinity binding, the results suggest independent regulations of the two [³H]8-OH-DPAT binding proteins. Altogether, the present data further supports the notion that [³H]8-OH-DPAT, besides labelling 5-HT_1A receptors, also binds to other structures in rat cerebral cortex and hippocampus. Special issue dedicated to Dr. Kinya Kuriyama     

EDTA activation of H2 photoproduction by Rhodospirillum rubrum

Summary The effect of trace elements (Fe, Ni) and chelating compounds on the activity of hydrogen (H₂) uptake (Hup) hydrogenase, nitrogenase and rate and yield of H₂ photoproduction from l-lactate in photosynthetic cultures of Rhodospirillum rubrum was investigated. Hup activity depended on the availability of Ni²⁺ and was inhibited by EDTA (0.3–0.5 mm ethylenedinitrilotetraacetic acid). Addition of EDTA (0.5 mm) to the culture medium caused a nearly complete inactivation of Hup activity and activation of nitrogenase, which was paralleled by a threefold increase in total H₂ photoproduced from lactate. Hup^– mutants, isolated by transposon Tn5 mutagenesis, produced maximally twofold more H₂ than the wild-type. Experiments with different chelating agents [EDTA, NTA (nitrilotriacetic acid), citrate, isocitrate] and varying concentrations of Fe²⁺ and Fe³⁺ showed that photosynthetic growth and nitrogenase activity of R. rubrum were strongly influenced by the iron supply. It is concluded that EDTA enhanced H₂ photoproduction by (I) inhibition of biosynthesis of Hup hydrogenase and (II) mobilization of iron, thereby activating the biosynthesis of the nitrogenase complex. Correspondence to: M. Kern     

Quercetin inhibits hexose transport in a human diploid fibroblast

Summary The flavonol quercetin, a phloretin analog, inhibits transport of 2-deoxyglucose and 3-O-methylglucose in a cultured human diploid fibroblast. This inhibition is related to transport itself and not to the reported effects of flavonoids on membrane-bound ATPases. From concentration-inhibition curves at several pH's we conclude that uncharged (acid) quercetin (pK=7.65) is the inhibitory form of the molecule (K _I =10m). Quercetin, unlike phloretin, is rapidly degraded in 0.1n NaOH; the degradation products are weakly inhibitory to hexose transport.     

Purification,some properties and quaternary structure of thed-ribulose 1,5-diphosphate carboxylase ofAlcaligenes eutrophus

d-Ribulose 1,5-diphosphate carboxylase has been purified from autotrophically grown cells of the facultative chemolithotrophic hydrogen bacteriumAlcaligenes eutrophus. The enzyme was homogeneous by the criteria of polyacrylamide gel electrophoresis. The molecular weight of the enzyme was 505000 determined by gel filtration and sucrose density gradient centrifugation, and a sedimentation coefficient of 18.2 S was obtained. It was demonstrated by sodium dodecyl sulphate-polyacrylamide gel electrophoresis that the enzyme consists of two types of subunits of molecular weight 52000 and 13000.Electron microscopy on the intact and the partially dissociated enzyme lead to the construction of a model for the quaternary structure of the enzyme which is composed of 8 large and 8 small subunits. The most probable symmetry of the enzyme molecule is 4:2:2.Michaelis constant (K _m ) values for ribulose 1,5-diphosphate, Mg^2-, and CO₂ were 0.59 mM, 0.33 mM, and 0.066 mM measured under air. Oxygen was a competitive inhibitor with respect to CO₂ suggesting that the enzyme also exhibits an oxygenase activity. The oxygenolytic cleavage of ribulose 1,5-diphosphate was shown and a 1:1 stoichiometry between oxygen consumption and 3-phosphoglycerate formation observed.Abbreviations DTE dithioerythritol - EDTA ethylenediamine tetraacetate - RuDP d-ribulose 1,5-diphosphate     

Voltammetric studies of Zn and Fe complexes of EDTA: Evidence for the push mechanism

The `push' hypothesis for the antioxidant action of Zn²⁺ is based on its displacement of iron from a low molecular weight pro-oxidant complex. In this study, the chemical plausibility of that proposed function is investigated by cyclic voltammetry. As a model for a pro-oxidative low molecular weight iron complex the Fe^II/IIIEDTA couple was examined. This complex was selected for its well-defined electrochemical, iron stability constants, and similarity to other low molecular weight chelates in physiological fluids in terms of logical binding sites, i.e. amino, and carboxylate groups. Also investigated were iron complexes of nitrilotriacetic acid and DL-glutamic acid. Results demonstrate that approximately 90% of the cyclic voltammetric peak current for Fe^IIIEDTA reduction and the EC′ current for the mediated reduction of H₂O₂ by Fe^II/IIIEDTA (Fenton Reaction) are lost when Zn²⁺ is introduced to a 1:1 molar ratio relative to iron. All experiments were conducted in HEPES buffered solutions at pH 7.4. Iron (II/III) complexes of nitrilotriacetic acid and DL-glutamic acid followed the same trends. Cyclic voltammetric experiments indicate that Zn²⁺ displaces Fe^III from EDTA despite the much larger stability constant for the iron complex (10^25.1) versus zinc (10^16.50). The hydrolysis aided displacement of Fe^III from EDTA by Zn²⁺ is considered by the equilibria modeling program, HySS. With Fe^III hydrolysis products included, Zn²⁺ is able to achieve 90% displacement of iron from EDTA, a result consistent with cyclic voltammetric observations. Published online December 2004     

Caffeine inhibition of calcium accumulation by the sarcoplasmic reticulum in mammalian skinned fibers

Summary Oxalate-supported Ca accumulation by the sarcoplasmic reticulum (SR) of chemically skinned mammalian skeletal muscle fibers is activated by MgATP and Ca²⁺ and partially inhibited by caffeine. Inhibition by caffeine is greatest when Ca²⁺ exceeds 0.3 to 0.4 m, when free ATP exceeds 0.8 to 1mm, and when the inhibitor is present from the beginning of the loading period rather than when it is added after Ca oxalate has already begun to precipitate within the SR. Under the most favorable combination of these conditions, this effect of caffeine is maximal at 2.5 to 5mm and is half-maximal at approximately 0.5mm. For a given concentration of caffeine, inhibition decreases to one-half of its maximum value when free ATP is reduced to 0.2 to 0.3mm. Varying free Mg²⁺ (0.1 to 2mm) or MgATP (0.03 to 10mm) has no effect on inhibition. Average residual uptake rates in the presence of 5mm caffeine atpCa 6.4 range from 32 to 70% of the control rates in fibers from different animals. The extent of inhibition in whole-muscle homogenates is similar to that observed in skinned fibers, but further purification of SR membranes by differential centrifugation reduces their ability to respond to caffeine. In skinned fibers, caffeine does not alter the Ca²⁺ concentration dependence of Ca uptake (K _0.5, 0.5 to 0.8 m; Hilln, 1.5 to 2.1). Reductions in rate due to caffeine are accompanied by proportional reductions in maximum capacity of the fibers, and this configuration can be mimicked by treating fibers with the ionophore A23187. Caffeine induces a sustained release of Ca from fibers loaded with Ca oxalate. However, caffeine-induced Ca release is transient when fibers are loaded without oxalate. The effects of caffeine on rate and capacity of Ca uptake as well as the sustained and transient effects on uptake and release observed under different conditions can be accounted for by a single mode of action of caffeine: it increases Ca permeability in a limited population of SR membranes, and these membranes coexist with a population of caffeine-insensitive membranes within the same fiber.     

Catalytic properties and substrate specificity of 3-hexulose phosphate synthase fromMethylomonas M15

Summary 3-Hexulose phosphate synthase was purified in 94% yield from Methylomonas M15. The enzyme did not form a Schiff-base intermediate with d-ribulose 5-phosphate that could be reduced by NaBH₄. However, the enzyme required Mg²⁺ or Mn²⁺ ions for activity and was inactivated in the presence of EDTA. The latter is a property of class II aldolases. The enzyme accepted a wide range of other aldehydes in addition to its natural substrate formaldehyde, while d-ribulose 5-phosphate could not be replaced. This makes it an attractive tool for the synthesis of higher sugar phosphates. Offprint requests to: M.-R. Kula     

The relationship between ATP and an electrogenic pump in the plasma membrane ofNeurospora crassa

Summary Sudden respiratory blockade has been used to study rapid changes of the resting membrane potential, of intracellular adenosine 5-triphosphate (ATP) levels, and of pyridine nucleotide reduction inNeurospora crassa. Membrane depolarization occurs with a first-order rate constant of 0.167 sec^–1, following a lag period of about 4 sec, at 24°C (ambient temperature). This depolarization is several-fold too slow to be directly linked to electron transfer, as judged from the rate of pyridine nucleotide reduction, but has essentially the same rate constant as the decay of ATP. The latter process, however, shows no lag period after the respiratory inhibitor is introduced. Plots of membrane potential versus the intracellular ATP concentration yield saturation curves which are readily fitted by a Michaelis equation, to which is added a constant term representing the diffusion component of membrane potential. Parameters obtained from such fits indicate the maximal voltage which the pump can develop at high ATP levels to be 300 to 350 mV, with an apparentK _1/2 of 2.0mm. The data strongly suggest that an electrogenic ion pump in the plasma membrane ofNeurospora is fueled by ATP; comparison of the measured membrane potentials with the energy available from hydrolysis of ATP indicates that two ions could be pumped for each molecule of ATP split.     

Characterization of a peptidase fromDiplococcus pneumoniae

Some properties of a purified peptidase fromDiplococcus pneumoniae have been studied. The enzyme has a broad pH optimum between 6 and 8 and a K_m (onl-leucylglycylglycine) of 2.8mm. It is activated by low levels of Hg⁺⁺ and is inhibited by Mn⁺⁺, Co⁺⁺, β-mercaptoethanol and EDTA. Substrate specificity studies show that the enzyme is an exopeptidase of the aminopeptidase type, most active on tripeptide substrates bearing bulky substituents at the NH₂ ⁻ terminal end.     

Catalysis on dinuclear Mn(II) centers: hydrolytic and redox activities of rat liver arginase

 Rat liver arginase contains a dinuclear Mn₂(II,II) center in each subunit having EPR properties similar to those observed in Mn-catalases. The principal physiologic role of arginase is catalyzing the hydrolytic cleavage of l-arginine to produce l-ornithine and urea. Here we demonstrate that arginase catalyzes the disproportionation of hydrogen peroxide by a redox mechanism analogous to Mn-catalases, but at rates that are 10^–5 to 10^–6 of k _cat for the Mn-catalases, and also exhibits peroxidase activity. The dinuclear Mn₂(II,II) center is essential for maximal catalase activity, since both the H101N and H126N mutant arginases containing only one Mn(II)/subunit have catalase activities that are <3% of that for the wild-type enzyme. Like the Mn-catalases, the catalase activity of arginase is not inhibited by millimolar concentrations of CN^–, the most potent inhibitor of heme catalases, or by EDTA, a chelator of free metal ions. The catalase activity of arginase is not significantly inhibited by Cl^– or F^–, in contrast to Mn-catalases, while potent inhibitors of the hydrolytic activity are also effective inhibitors of the catalase activity. These results suggest that lower affinity of hydrogen peroxide to the active site of arginase contributes to the lower catalase activity. EPR spectroscopy reveals that potent inhibitors of the hydrolytic reaction, including N ^ω-hydroxy-l-arginine, l-lysine, and l-valine, decouple the electronic interaction between the Mn²⁺ ions, most probably by removing a μ-bridging ligand or by increasing the intermanganese separation. The capacity for arginase to deliver a hydroxide ion to hydrolyze the l-arginine substrate is suggested to arise from a "dinuclear effect", wherein the two metal ions contribute more or less equivalently in deprotonation of metal-bound water molecule. Structure-reactivity analyses of these reactions will provide insights into the factors that control redox versus hydrolytic function in dimanganese clusters. Received: 18 November 1996 / Accepted: 7 April 1997     

Minimal models of multi-site ligand-binding kinetics

Mathematical models based on the current understanding of co-operativity in ligand binding to the (macro) molecule and relating the dose-response (saturation) curve of the (macro) molecule ligation to intrinsic dissociation constants characterizing the affinities of ligand for binding sites of both unliganded and partly liganded (macro) molecule have been developed. The simplified models disregarding the structural properties and considerations concerning conformational changes of the (macro) molecule retain the ability to yield sigmoid curves of ligand binding and reflect the co-operativity. Model 1 contains only three parameters, parameter κ (a multiplier characterising the change in the affinity) reflects also the existence and type of co-operativity of ligand binding: κ<1 corresponds to positive co-operativity, κ>1 to the negative and κ=1 to the absence of any co-operativity. Model 2 contains an extra parameter, ω, equilibrium constant for the T₀↔R₀ transition but fails to produce dose-response, which would suggest negative co-operativity. For any fixed n>1, the deviation of the dose-response (saturation) curve from the Henri hyperbola depends either solely on parameter κ (Model 1) or also on parameter ω (Model 2). The (macro) molecule being a receptor, both models yield a diversity of dose-response curves due to possible variety of efficacies of the (macro) molecule. The models may be considered as extensions of the Henri model: in case the dissociation constants remain unchanged, the proposed models are reduced to the latter.     

Purification and properties of D-gluconate dehydratase fromAchromobacter

d-Gluconate dehydratase fromAchromobacter, grown ond-gluconate, was purified 100-fold by a procedure involving ammonium sulfate fractionation and preparative acrylamide gel electrophoresis. The purified enzyme appeared to be homogeneous by disc gel electrophoresis. It is an inducible enzyme with an optimal activity in the pH region 8.4–8.8, a Km value of 2.08 × 10^–2 m ford-gluconate and a molecular weight of 270,000 ± 25,000. Only C₅ and C₆ aldonic acids possessing al-threo configuration at C₂ and C₃ are dehydrated. The dehydration products ofd-gluconate,d-xylonate,d-galactonate,d-fuconate andl-arabonate were identified as 2-keto-3-deoxy compounds by specific colour reactions and thin layer chromatography. Onemm Mg^{+ +} is a powerful activator, 0.1 mm Mn^{+ +} activates poorly and EDTA inhibits. Glutatione, dithiothreitol and mercaptoethanol had no effect, althoughp-chloromercuribenzoate (0.01 mm) decreased enzyme activity.We wish to thank Mr D. Dewettinck for skilful technical assistance. The senior author (J.D.L.) is indebted to the Fonds voor Kollektief en Fundamenteel Onderzoek (Belgium) for research and personnel grants. J.K.-M. is indebted to the Belgian government for a travel and study grant.     

Copper (II) complex-catalyzed oxidation of NADH by hydrogen peroxide

Among various metal ions of physiological interest, Cu²⁺ is uniquely capable of catalyzing the oxidation of NADH by H₂O₂. This oxidation is stimulated about fivefold in the presence of imidazole. A similar activating effect is found for some imidazole derivatives (1-methyl imidazole, 2-methyl imidazole, andN-acetyl-L-histidine). Some other imidazole-containing compounds (L-histidine,L-histidine methyl ester, andL-carnosine), however, inhibit the Cu²⁺-catalyzed peroxidation of NADH. Other chelating agents such as EDTA andL-alanine are also inhibitory. Stoichiometry for NADH oxidation per mole of H₂O₂ utilized is 1, which excludes the possibility of a two-step oxidation mechanism with a nucleotide free-radical intermediate. About 92% of the NADH oxidation product can be identified as enzymatically active NAD⁺. D₂O, 2,5-dimethylfuran, and 1,4-diazabicyclo [2.2.2]-octane have no significant effect on the oxidation, thus excluding¹O₂ as a mediator. Similarly, OH· is also not a likely intermediate, since the system is not affected by various scavengers of this radical. The results suggest that a copper-hydrogen peroxide intermediate, when complexed with suitable ligands, can generate still another oxygen species much more reactive than its parent compound, H₂O₂.     

Recycle Use of Sphingomonas sp. CDH-7 Cells for Continuous Degradation of Carbazole in the Presence of MgCl2

Carbazole (CA) is a heterocyclic nitrogen compound contained in the crude petroleum oil and recalcitrant to removal through the refinery processes. For development of the efficient CA-degradation bioprocess, conditions for the recycle use of Sphingomonas sp. CDH-7 resting cells were examined. When the resting cells (O.D.₆₆₀ 3.3) were shaken in 50 mM K₂HPO₄-KH₂PO₄ buffer (pH 7.0) containing CA 1000 mg/L, CA 880 mg/L was degraded within 3 h, but thereafter the activity decreased markedly. However, the activity was found to be restored to the initial level after the shaking treatment for 3 h in CA-free medium solution or in the buffer containing 20 mM MgCl₂. Although the CA-degradation activity of CDH-7 resting cells was lost after 3 h of shaking in the buffer containing 100 mM EDTA, it was restored through the shaking treatment for 3 h in the buffer containing 20 mM MgCl₂. When CA was periodically added eight times at a concentration of 100 mg/L (0.599 mM) to the reaction mixture containing the resting cells, CA 778 mg/L (4.66 mM) was continuously degraded within 35 h by the recycle use of resting cells, with the restoration treatment after each CA-degradation reaction by the resting cells. Received: 28 June 2001 / Accepted: 30 July 2001     

Association of a 19- and a 21-kDa GTP-binding protein to pancreatic microsomal vesicles is regulated by the intravesicular pH established by a vacuolar-type H+-ATPase

Summary Evidence suggests that certain ras-related small molecular weight GTP-binding proteins (smg-proteins) are involved in intracellular membrane trafficking and vesicle fusion. We have previously shown that intravesicular acidification due to a vacuolar-type H⁺-ATPase, which is Cl^– dependent and highly sensitive to the specific inhibitor bafilomycin, enhances GTP-induced fusion of pancreatic microsomal vesicles (Hampe, W., Zimmermann, P., Schulz, I. 1990. FEBS Lett. 271:62–66). This process may involve function of smg-proteins. The present study shows that MgATP (2 mm), but neither MgATPS nor ATP in the absence of Mg²⁺, increases association of 19- and 21-kDa smg-proteins to the vesicle membrane as monitored by their [-³²P]GTP binding. The affinity of smg-proteins for [-³²P]GTP was not altered by MgATP. Bafilomycin B₁ (10^–8 m), the protonophore CCCP (10^–5 m), and replacement of Cl^– in the incubation buffer by CH₃COO^– or NO ₃ ^– resulted in an almost complete inhibition of the MgATP-dependent association of the 19- and 21-kDa smg-proteins to the vesicle membranes. Furthermore, the MgATP effect on both smg-proteins was found to be due to the intravesicular pH and not to the H⁺ gradient over the vesicle membrane. We conclude that association of a 19-kDa (immunologically identified as the ADP-ribosylation factor, arf) and a yet unidentified 21-kDa GTP-binding protein to vesicle membranes is regulated by the intravesicular pH established by a vacuolar-type H⁺-ATPase.The arf-antibodies were kindly supplied by Dr. R.A. Kahn. We thank Prof. Dr. D. Gallwitz, Dr. R. Jahn, and Dr. E.G. Lapetina for kindly providing the ypt 1-, rab 3-, and rap 1-antibodies, respectively. ADP-ribosyltransferase C₃ from Clostridium botulinum was kindly supplied by Prof. Dr. K. Aktories. This work was supported by the Jung-Stiftung für Wissenschaft und Forschung. S.Z. was supported by a grant of the Deutsche Forschungsgemeinschaft (Ze 237/3-1).     

Evidence for Involvement of a Zymogen Granule Na+/H+ Exchanger in Enzyme Secretion from Rat Pancreatic Acinar Cells

We have characterized a Na⁺/H⁺ exchanger in the membrane of isolated zymogen granules (ZG) from rat exocrine pancreas and investigated its role in secretagogue-induced enzyme secretion. ZG Na⁺/H⁺ exchanger activity was estimated by measuring Na⁺ or Li⁺ influx and consequent osmotic swelling and lysis of ZG incubated in Na- or Li-acetate. Alternatively, intragranule pH was investigated by measuring absorbance changes in ZG which had been preloaded with the weak base acridine orange. Na⁺- or Li⁺-dependent ZG lysis was enhanced by increasing inward to outward directed H⁺ gradients. Na⁺-dependent ZG lysis was not prevented by an inside-positive K⁺ diffusion potential generated by valinomycin which argues against parallel operation of separate electrogenic Na⁺ and H⁺ permeabilities and for coupled Na⁺/H⁺ exchange through an electroneutral carrier. Na⁺- and Li⁺-dependent ZG lysis was inhibited by EIPA (EC₅₀∼25 μm) and benzamil (EC₅₀∼100 μm), but only weakly by amiloride. Similarly, absorbance changes due to release of acridine orange from acidic granules into the medium were obtained with Na⁺ and Li⁺ salts only, and were inhibited by EIPA, suggesting the presence of a Na⁺/H⁺ exchanger in the membrane. Na⁺ dependent lysis of ZG was inhibited by 0.5 mm MgATP and MgATP-γ-S by about 60% and 35%, respectively. Inhibition by MgATP was prevented by incubation of ZG with alkaline phosphatase (100 U/ml), or by the calmodulin antagonists calmidazolium (0.75 μm), trifluoperazine (100 μm) and W-7 (500 μm), suggesting that the ZG Na⁺/H⁺ exchanger is regulated by a ZG membrane-bound calmodulin-dependent protein kinase. Na⁺ dependence of secretagogue (CCK-OP)-stimulated amylase secretion was investigated in digitonin permeabilized rat pancreatic acini and was higher in acini incubated in Na⁺ containing buffer (30 mm NaCl/105 mm KCl buffer; 6.4 ± 0.4% of total amylase above basal) compared to buffer without Na⁺ (0 mm NaCl/135 mm KCl buffer; 4.7 ± 0.4% of total amylase above basal, P < 0.03). EIPA (50 μm) reduced CCK-OP-induced amylase secretion in Na⁺ containing buffer from 7.5 ± 0.6% to 4.1 ± 0.8% (P < 0.02). In the absence of Na⁺ in the buffer, CCK-OP-stimulated amylase release was not inhibited by 50 μm EIPA. The data suggest that an amiloride insensitive, EIPA inhibitable Na⁺/H⁺ exchanger is present in ZG membranes, which is stimulated by calmodulin antagonists and could be involved in secretagogue-induced enzyme secretion from rat pancreatic acini. Received: 7 December 1995/Revised: 2 April 1996     

Regulation of an inwardly rectifying K channel in the T84 epithelial cell line by calcium,nucleotides and kinases

Agonists that elevate calcium in T₈₄ cells stimulate chloride secretion by activating K_BIC, an inwardly rectifying K channel in the basolateral membrane. We have studied the regulation of this channel by calcium, nucleotides and phosphorylation using patch clamp and short-circuit current (I _SC) techniques. Open probability (P ₀) was independent of voltage but declined spontaneously with time after excision. Rundown was slower if patches were excised into a bath solution containing ATP (10 m–5 mm), ATP (0.1 mm) + protein kinase A (PKA; 180 nm), or isobutylmethylxanthine (IBMX; 1 mm). Analysis of event durations suggested that the channel has at least two open and two closed states, and that rundown under control conditions is mainly due to prolongation of the long closed time. Channel activity was restimulated after rundown by exposure to ATP, the poorly hydrolyzable ATP analogue AMP-PNP, or ADP. Activity was further enhanced when PKA was added in the presence of MgATP, but only if free calcium concentration was elevated (400 nm). Nucleotide stimulation and inward rectification were both observed in nominally Mg-free solutions. cAMP modulation of basolateral potassium conductance in situ was confirmed by measuring currents generated by a transepithelial K gradient after permeabilization of the apical membrane using -toxin. Finally, protein kinase C (PKC) inhibited single K_BIC channels when it was added directly to excised patches. These results suggest that nonhydrolytic binding of nucleotides and phosphorylation by PKA and PKC modulate the responsiveness of the inwardly rectifying K channel to Ca-mediated secretagogues.This work was supported by the Canadian Cystic Fibrosis Foundation and the Medical Research Council of Canada. J.W.H. is a Chercheur-Boursier of the Fonds de la recherche en santé du Québec.     

A model for the regulation of brain adenylate cyclase by ionic equilibria

Multiple-equilibrium equations were solved to investigate the individual and separate effects of Mg²⁺, Mn²⁺, Ca²⁺, ATP^4–, and their complexes on the kinetics of brain adenylate cyclase. The effects of divalent metals and/or ATP^4– (in excess of their participation in complex formation) were determined and, from the corresponding apparent affinity values, the following kinetic constants were obtained:K _m(MgATP)=1.0 mM,K _i(ATP^4–)=0.27 mM,K _m(MnATP)=0.07 mM, andK _i(CaATP)=0.015 mM. MgATP, MnATP, ATP^4–, and CaATP were shown to compete for the active site of the enzyme. Hence, it is proposed that endogenous metabolites with a strong ligand activity for divalent metals, such as citrate and some amino acids, become integrated into a metabolite feedback control of the enzyme through the release of ATP^4– from MgATP. Ca²⁺ fluxes may participate in the endogenous regulation of adenylate cyclase by modifying the level of CaATP. The free divalent metals show an order of affinityK _0.5(Ca²⁺)=0.02 mM,K _0.5(Mn²⁺)=3.8 mM,K _0.5(Mg²⁺)=4.7 mM, and an order of activity Mn²⁺>Mg²⁺>Ca²⁺. The data indicate that Mn²⁺ and Mg²⁺ ions may compete for a regulatory site distinct from the active site and increaseV _m without changingK _m(MgATP),K _m(MnATP), orK _i(ATP^4–). The interactions of ATP^4– and CaATP, which act as competitive inhibitors of the reaction of the enzyme with the substrates MgATP and MnATP, and Mg²⁺ and Mn²⁺, which act as activators of the enzyme in the absence of hormones, are shown to follow the random rapid equilibrium BiBi group-transfer mechanism of Cleland with the stipulation that neither Mg²⁺ nor Mn²⁺, in excess of their respective participation in substrate formation, are obligatorily required for basal activity. ATP^4– and CaATP are involved in dead-end inhibition. For MgCl₂ saturation curves at constant total ATP concentration, the computer-generated curves based on the RARE BiBi model predict a change in the Hill cooperativityh from a basal value of 2.6, when Mg²⁺ is not obligatorily required, to 4.0 when the addition of hormones or neurotransmitters induces an obligatory requirement for Mg²⁺.Abbreviations used: Me, divalent metal; Me_T (Mg_T or Mn_T), total Me (Me²⁺ and its complexes); ATP_T, total ATP (ATP^4– and its complexes).