Ca 2+ -specific removal of Z lines from rabbit skeletal muscle

Removal of rabbit psoas strips immediately after death and incubation in a saline solution containing 1 mM Ca²⁺ and 5 nM Mg²⁺ for 9 hr at 37°C and pH 7.1 causes complete Z-line removal but has no ultrastructurally detectable effect on other parts of the myofibril. Z lines remain ultrastructurally intact if 1 mM 1,2-bis-(2-dicarboxymethylaminoethoxy)-ethane (EGTA) is substituted for 1 mM Ca²⁺ and the other conditions remain unchanged. Z lines are broadened and amorphous but are still present after incubation for 9 hr at 37°C if 1 mM ethylenediaminetetraacetate (EDTA) is substituted for 1 mM Ca²⁺ and 5 mM Mg²⁺ in the saline solution. A protein fraction that causes Z-line removal from myofibrils in the presence of Ca²⁺ at pH 7.0 can be isolated by extraction of ground muscle with 4 mM EDTA at pH 7.0–7.6 followed by isoelectric precipitation and fractionation between 0 and 40% ammonium sulfate saturation. Z-line removal by this protein fraction requires Ca²⁺ levels higher than 0.1 mM, but Z lines are removed without causing any other ultrastructurally detectable degradation of the myofibril. This is the first report of a protein endogenous to muscle that is able to catalyze degradation of the myofibril. The very low level of unbound Ca²⁺ in muscle cells in vivo may regulate activity of this protein fraction, or alternatively, this protein fraction may be localized in lysosomes.     

Morphometry,Primary productivity and Energy flow in a Tropical Pond

Monthly changes in the morphometric features of pond Idumban reveal that total and littoral areas progressively decreased from 62.4 and 15.4 ha in October-November-December to 6.8 and 2.6 ha in September. The dominant macrophytic producers in the littoral area of the pond were Chara fragilis, Hydrilla verticillata and Ceratophyllum demersum, which flourished from October for a period of 8 to 10 months, exhibiting a typical exponential or J-shaped population growth curve. Biomass of Ch. fragilis increased to the maximum of about 420 g dry weight/m² in April, H. verticillata to 260 g/m² in June–July and that of Ce. demersum to 140 g/m² in April–May. In terms of unit weight, H. verticillata proved to be the most efficient, producing 156 mg dry substance/g plant/day; however, the mean values obtained for 1973-74 were 93, 54 and 53 mg/g/day for H. verticillata, Ch. fragilis and Ce. demersum; the corresponding NPP values 50, 29 and 30 mg/g/day. The GPP and NPP values, expressed in g dry weight/m²/day, were 7 and 4 for H. verticillata, 8 and 4 for Ch. fragilis, 3 and 2 for Ce. demersum. These values, expressed in mg C/m²/day, averaged to 8.2 and 4.6 for all the macrophytes and suggest that the macrophytes were photosynthetically faster and more efficient than phytoplankton. Total gross productivity for Idumban pond amounts to 1773 and 1449 ton (dry weight) for 1973 and 74, respectively: the corresponding values for the NPP were 953 and 825 ton. In other words, 44% of the GPP is lost on plant respiration. Plants equivalent to 56 ton (6% of NPP) are exposed to death in the periphery of the littoral area. The population of Pila globosa proved to be the dominant consumer of these macrophytes. Mean predation amounted to 64 ton/annum for Pila and 200 ton/ annum for other consumer animals. Solar energy known to enter the pond is 1,956,000 Kcal/m²/year. Of this, 24,682 Kcal/m²/year was fixed by the macrophytes, i.e. the photosynthetic efficiency is 1.3%. Of the total GPP, NPP amounted to 13,696 Kcal/m²/year; the net primary production efficiency is 56%. Consumption of the macrophytes by Pila population amounted to 2,943 Kcal/m year and the exploitation efficiency is only 21%.     

Saccharification of wastepaper mixtures with cellulase from Penicillium funiculosum

Different used paper materials and mixtures thereof were saccharified with Penicillium funiculosum cellulase. Non-similar biodegradation patterns were concluded to be operating as well as declining bioconversion efficiencies with increasing biodegradation. Biowaste mixtures were less effectively biodegraded indicating the importance of separating biowaste into distinctive materials prior to developing it as a resource of bioproduct synthesis.     

Methane production by anaerobic digestion of animal manures

Anaerobic digestion of swine manure was performed at mesophilic and thermophilic temperatures. In addition, the possibility of enhancement of biogas production by the co-digestion of manures with cellulosic waste residues (e.g., corn stover), was investigated. In the latter studies, the effect of particle size on the gasification efficiency was assessed.Methane productivity, G(m³ methane/m³ slurry volume.day), in the digesters operating at a stationary state could be correlated with the volatile solids loading, L (kg/m³.day), Retention time, (days), and pH as follows: G = L/(1 + 10^pK-pH) + [k/(1 + k)] where is dependent primarily on the nature of the utilizable carbohydrate fraction. The constant, , is found to be a function of the organic nitrogenous fraction of the manure. The constants pK and k (days^-1) are dependent on the temperature only.     

Modeling Biowaste Flows for Life‐Cycle Assessment: Calculation of the Potential and Collected Weight of Kitchen and Garden Waste

This article presents an integrative approach to calculating the weight of potential biowaste and collected biowaste materials, as the basis for a life‐cycle assessment (LCA) of biowaste management. Biowaste contains kitchen and garden (yard) waste of households. This approach could be used for waste management planning and for the implementation of biowaste schemes. Case studies and examples in the literature are analyzed to model the mass of the flow of biowaste. This article defines relevant operands, presents the main assumptions, and describes the calculation principles. Spatial aspects and the uncertainties related to the inclusion of this aspect are explicitly considered in the calculation of the weight of the potential biowaste. We also present the calculation principles for obtaining the weight of (1) biowaste used in home composting, (2) the organic portion of residual waste, (3) biowaste separately collected by a bring system, and (4) biowaste separately collected by curbside collection (known in some areas as kerbside collection). By choosing the biowaste potential in kilograms per capita year (kg/cap yr) as the functional unit, previously ignored options within the biowaste system could be assessed. For example, widening the system boundaries allows LCA studies to assess the contribution of private and public transport of waste to ecological impact categories. It allows examining the effects of supporting home composting through financial incentives and the introduction of a separate collection system. This study focuses on the comparison of different collection types and on the characteristics of the area under investigation. It also incorporates the behavior of the inhabitants of households and includes a sensitivity analysis of relevant operands. This approach is being included in an LCA assessing biowaste management options.     

Characterization of two different Ca2+ uptake and IP3-sensitive Ca2+ release mechanisms in microsomal Ca2+ pools of rat pancreatic acinar cells

We have examined the effect of the Ca²⁺ (Mg²⁺)-ATPase inhibitors thapsigargin (TG) and vanadate on ATP-dependent ⁴⁵Ca²⁺ uptake into IP₃-sensitive Ca²⁺ pools in isolated microsomes from rat pancreatic acinar cells. The inhibitory effect of TG was biphasic. About 40–50% of total Ca²⁺ uptake was inhibited by TG up to 10 nm (apparent K_i4.2 nm, Ca²⁺ pool I). An additional increase of inhibition up to 85–90% of total Ca²⁺ uptake could be achieved at 15 to 20 nm of TG (apparent K_i12.1 nm, Ca²⁺ pool II). The rest was due to TG-insensitive contaminating plasma membranes and could be inhibited by vanadate (apparent K_i10 m). In the absence of TG, increasing concentrations of vanadate also showed two phases of inhibition of microsomal Ca²⁺ uptake. About 30–40% of total Ca²⁺ uptake was inhibited by 100 m of vanadate (apparent K_i18 m, Ca²⁺ pool II). The remaining 60–70% could be inhibited either by vanadate at concentrations up to 1 mm (apparent K_i300 m) or by TG up to 10 nm (Ca²⁺ pool I). The amount of IP₃-induced Ca²⁺ release was constant at 25% over a wide range of Ca²⁺ filling. About 10–20% remained unreleasable by IP₃. Reduction of IP₃ releasable Ca²⁺ in the presence of inhibitors showed similar dose-response curves as Ca²⁺ uptake (apparent K_i 3.0 nm for IP₃-induced Ca²⁺ release as compared to 4.2 nm for Ca²⁺ uptake at TG up to 10 nm) indicating that the highly TG-sensitive Ca²⁺ pump fills the IP₃-sensitive Ca²⁺ pool I. At TG concentrations >10 nm which blocked Ca²⁺ pool II the apparent K_i values were 11.3 and 12.1 nm, respectively. For inhibition by vanadate up to 100 m the apparent K_i values were 18 m for Ca²⁺ uptake and 7 m for Ca²⁺ release (Ca²⁺ pool II). At vanadate concentrations up to 1 mm the apparent K_i values were 300 and 200 m, respectively (Ca²⁺ pool I). Both Ca²⁺ pools I and II also showed different sensitivities to IP₃. Dose-response curves for IP₃ in the absence of inhibitors (control) showed an apparent K_m value for IP₃ at 0.6 m. In the presence of TG (inhibition of Ca²⁺ pool I) the curve was shifted to the left with an apparent K_m for IP₃ at 0.08 m. In the presence of vanadate (inhibition of Ca²⁺ pool II), the apparent K_m for IP₃ was 2.1 m. These data allow the conclusion that there are at least three different Ca²⁺ uptake mechanisms present in pancreatic acinar cells: TG- and IP₃ insensitive but highly vanadate-sensitive Ca²⁺ uptake occurs into membrane vesicles derived from plasma membranes. Two Ca²⁺ pools with different TG-, vanadate- and IP₃-sensitivities are most likely located in the endoplasmic reticulum at different cell sites, which could have functional implications for hormonal stimulation of pancreatic acinar cells.This work was supported by the Deutsche Forschungsgemeinschaft, Sonderforschungsbereich 246. The authors wish to thank Dr. KlausDieter Preuß for valuable discussions and Mrs. Gabriele Mörschbächer for excellent secretarial help.     

Ferrochelatase activity inAzospirillum brasilense with reference to the influence of metal cations

Summary Ferrochelatase in membrane preparations fromAzospirillum brasilense displayed an activity of 2.17 mol protoheme formed · h^–1 · mg protein^–1 which is 10-fold greater than previous reports for other bacteria. This ferrochelatase showed an apparentK _m of 20.9 M for Fe²⁺, a pH optimum of 6.0–6.5, and stimulation by oleic or stearic acids. Co²⁺, Cu²⁺ and Zn²⁺ inhibited the incorporation of Fe²⁺ into protoporphyrin IX while Ni² and Mg²⁺ had no effect on protoheme synthesis. Activity with Fe²⁺ and mesoporphyrin IX was less than with protoporphyrin IX but deuteroporphyrin IX produced the highest rate of protoheme synthesis. The membrane fraction containing ferrochelatase activity was found to insert Cu²⁺, Ni²⁺, Zn²⁺ and Co²⁺ enzymatically into protoporphyrin IX to produce metalloporphyrins. Cu²⁺ incorporation into protoporphyrin IX proceeded at a rate greater than with Fe²⁺ and theK _m for Cu²⁺ was 21.9 M.     

Divalent cation channels activated by phenothiazines in membrane of rat ventricular myocytes

Phenothiazines (PTZ) such as chlorpromazine (CPZ) or trifluoperazine (TPZ) induced a sustained divalent cation-permeable channel activity when applied on either side of inside-out patches or on external side of cell-attached patches of adult rat ventricular myocytes. The percentage of active patches was 20%. In the case of CPZ, the K _dof the dose-response curve was 160 m. CPZ-activated channels were potential-independent in the physiological range of membrane potential and were permeable to several divalent ions (Ba²⁺, Ca²⁺, Mg²⁺, Mn²⁺). At least three levels of currents were usually detected with conductances of 23, 50 and 80 pS in symmetrical 96 mm Ba²⁺ solution and 17, 36 and 61 pS in symmetrical 96 mm Ca²⁺ solution. Saturation curves corresponding to the three main conductances determined in Ba²⁺ symmetrical solutions (tonicity compensated with choline-Cl) gave maximum conductances of 36, 81 and 116 pS (with corresponding half-saturating concentration constants of 31.5, 38 and 34.5 mm). The corresponding conductance values were estimated to 1.7, 3.3 and 5.2 pS in symmetrical 1.8 mm Ba²⁺ and to 1.1, 2.4 and 3.7 pS in symmetrical 1.8 mm Ca²⁺ (the value in normal Tyrode solution). Channels were poorly permeable to monovalent cations, such as Na, with a P _Ba/P _Na ratio of 10. A PTZ-induced channel activity similar to that described in cardiac cells was also observed in cultured rat aortic smooth muscle cells but not in cultured neuroblastoma cells.PTZ-activated channels described in cardiac cells appear very similar to the sporadically active divalent ion permeable channels described in a previous paper (Coulombe et al., 1989). Surprisingly, when 100 m CPZ were applied to myocytes studied in the whole-cell configuration, and maintained at a holding potential of –80 mV in the presence of 24 mm external Ca²⁺ or Ba²⁺, no detectable macroscopic inward current could be observed, whereas the L-type Ca²⁺ current triggered by depolarizing pulses was markedly and reversibly reduced. The possible reasons are discussed.     

Evidence for two modes of Ca2+ entry following muscarinic stimulation of a human salivary epithelial cell line

Summary We have investigated muscarinic receptor-operated Ca²⁺ mobilization in a salivary epithelial cell line, HSG-PA, using an experimental approach which allows independent evaluation of intracellular Ca²⁺ release and extracellular Ca²⁺ entry. The carbachol (Cch) dose response of intracellular Ca²⁺ release indicates the involvement of a single, relatively low-affinity, muscarinic receptor site (K _0.510 or 30 m, depending on the method for [Ca²⁺] _i determination). However, similar data for Ca²⁺ entry indicate the involvement of two Cch sites, one consistent with that associated with Ca²⁺ release and a second higher affinity site withK _0.52.5 m. In addition, the Ca²⁺ entry response observed at lower concentrations of Cch (2.5 m) was completely inhibited by membrane depolarization induced with high K⁺ (>55mm) or gramicidin D (1 m), while membrane depolarization had little or no effect on Ca²⁺ entry induced by 100 m Cch. Another muscarinic agonist, oxotremorine-M (100 m; Oxo-M), like Cch, also induced an increase in the [Ca²⁺] _i of HSG-PA cells (from 72±2 to 104±5nm). This response was profoundly blocked (75%) by the inorganic Ca²⁺ channel blocker La³⁺ (25–50 m) suggesting that Oxo-M primarily mobilizes Ca²⁺ in these cells by increasing Ca²⁺ entry. Organic Ca²⁺ channel blockers (verapamil or diltiazem at 10 m, nifedipine at 1 m), had no effect on this response. The Oxo-M induced Ca²⁺ mobilization response, like that observed at lower doses of Cch, was markedly inhibited (70–90%) by membrane depolarization (high K⁺ or gramicidin D). At 100 m Cch the formation of inositol trisphosphate (IP₃) was increased 55% above basal levels. A low concentration of carbachol (1 m) elicited a smaller change in IP₃ formation (25%), similar to that seen with 100 m Oxo-M (20%). Taken together, these results suggest that there are two modes of muscarinic receptor-induced Ca²⁺ entry in HSG-PA cells. One is associated with IP₃ formation and intracellular Ca²⁺ release and is independent of membrane potential; the other is less dependent on IP₃ formation and intracellular Ca²⁺ release and is modulated by membrane potential. This latter pathway may exhibit voltage-dependent gating.     

Choline and ethanolamine phosphotransferase activities in glomerular particles isolated from bovine cerebellar cortex

Isolated cerebellar glomeruli provide a relatively homogenous subcellular fraction, which can be used to study the biochemical events related to chemical transmission within a well-characterized central synapse. Choline and ethanolamine phosphotransferase activities were identified and partially characterized in this nerve ending preparation. Choline phosphotransferase associated with the glomerular particles required Mg²⁺, while ethanolamine phosphotransferase required Mn²⁺ for optimal activities. Both enzymes were inhibited by exogenous Ca²⁺. The apparent V_max values were 35.9 and 10.0 nmol/hr per mg protein for the choline and ethanolamine phosphotransferases, respectively. The apparentK _m value for the CDPcholine substrate was 28.6 M, and theK _m for CDPethanolamine was 8.3 M. Neither enzyme responded to the various adenine nucleotides, neurotransmitters or neurotransmitter agonists tested. However, exposure of the glomerular particles to cytidine nucleotides inhibited ethanolamine phosphotransferase activity and stimulated choline phosphotransferase activity.     

Rapid Ca2+ extrusion via the Na+/Ca2+ exchanger of the human platelet

Summary This communication reports the kinetics of the Na⁺/ Ca²⁺ exchanger and of the plasma membrane (PM) Ca²⁺ pump of the intact human platelet. The kinetic properties of these two systems were deduced by studying the rate of Ca²⁺ extrusion and its Na⁺ dependence for concentrations of cytoplasmic free Ca²⁺ ([Ca²⁺]_cyt) in the 1–10-m range. The PM Ca²⁺ATPase was previously characterized (Johansson, J.S. Haynes, D.H. 1988. J. Membrane Biol. 104:147–163) for [Ca²⁺]_cyt] 1.5 m with the fluorescent Ca²⁺ indicator quin2 (K _d= 115 nm). That study determined that the PM Ca²⁺ pump in the basal state has a V _max = 0.098 mm/min, a K _m= 80 nm and a Hill coefficient = 1.7. The present study extends the measurable range of [Ca²⁺]_cyt with the intracellular Ca²⁺ probe, rhod2 (K _d= 500 nm), which has almost a fivefold lower affinity for Ca²⁺. An Appendix also describes the Mg²⁺ and pH dependence of the K _dand fluorescence characteristics of the commercially available dye, which is a mixture of two molecules. Rates of active Ca²⁺ extrusion were determined by two independent methods which gave good agreement: (i) by measuring Ca²⁺ extrusion into a Ca²⁺-free medium (above citation) or (ii) by the newly developed ionomycin short-circuit method, which determines the ionomycin concentration necessary to short circuit the PM Ca²⁺ extrusion systems. Absolute rates of extrusion were determined by knowledge of how many Ca²⁺ ions are moved by ionomycin per minute. The major findings are as follows: (i) The exchanger is saturable with respect to Ca²⁺ with a K _m= 0.97 ± 0.31 m and V_max = 1.0 ± 0.6 mm/ min. (ii) At high [Ca²⁺]_cyt, the exchanger works at a rate 10 times as large as the basal V _max of the PM Ca²⁺ extrusion pump. (iii) The exchanger can work in reverse after Na⁺ loading of the cytoplasm by monensin. (iv) The PM Ca²⁺ extrusion pump is activated by exposure to [Ca²⁺]_cyt 1.5 m for 20–50 sec. Activation raises the pump V _max to 1.6 ± 0.6 mm/min and the K _mto 0.55 ± 0.24 m. (v) The Ca²⁺ buffering capacity of the cytoplasm is 3.6 mm in the 0.1 to 3 m range of [Ca²⁺]_cyt. In summary, the results show that the human platelet can extrude Ca²⁺ very rapidly at high [Ca²⁺]_cyt. Both the Na⁺/Ca²⁺ exchanger and Ca²⁺ pump activation may prevent inappropriate platelet activation by marginal stimuli.Abbreviations cAMP cyclic adenosine 3,5-monophosphate - cGMP cyclic guanosine 3,5,-monophosphate - Ca-CAM calcium calmodulin; - DT dense tubules - B intrinsic cytoplasmic Ca²⁺ binding sites - R rhod2 or 5-(3,6-bis(dimethylamino)xanth-9-yl)-1-(2-amino-4-hy droxy lphenoxy)-2-(2-amino-5-methylphen- oxy)ethane-N,N,NN-tetraacetic acid - [Ca²⁺]_cyt cytoplasmic Ca²⁺ activity - quin2 2-[[2-bis[(carboxymethyl)amino]-5-methyl-phenoxy]methyl]-6-methoxy-8-[bis(carboxymethyl)amino]quinoline - V or V_extrusion true rate of Ca²⁺ extrusion - fura-2 1-[2-(5-carboxyoxazol-2-yl)-6-aminobenzofuran-5-oxy]-2-(2-amino-5-methylphenoxy)-ethane-N,N,NN-tetraacetic acid - AM acetoxymethyl ester - DMSO dimethylsulfoxide - CTC chlortetracycline - EGTA ethyleneglycol-bis(-aminoethyl ether) N,N,N,N- tetraacetic acid - HEPES 4-(2-hydroxyethyl)-1-piperazine ethanesulfonic acid - NMDG N-methyl-d-glucamine - PIPES 1,4-piperazine-bis-(ethanesulfonic acid) - HPLC high performance liquid chromatography - _I fraction of high-affinity rhod2 complexed with Ca²⁺ - F the observed fluorescence - F_min the minimal fluorescence observed in the absence of Ca²⁺ - F_max the maximal fluorescence observed when the dye is saturated with Ca²⁺ - X₁ the fraction of high-affinity dye - K _d,1 dissociation constant of high-affinity dye - K _d,2 dissociation constant of the low-affinity dye - -d₁/dt rate of Ca²⁺ removal from the rhod2-Ca complex; - -dF/dt the slope representing the absolute rate of fluorescence decrease in a progress curve - F_max (F_max — F_min)_cyt difference between maximal and minimal fluorescence for cytoplasmic high affinity form of rhod2 - F₅₀ fluorescence of the high-affinity form ofrhod2for[Ca²⁺]_cyt=50 nM - [Ca²⁺]₀ external Ca²⁺concentration - K _p proportionality constant between the total number of Ca²⁺ ions moved and the change in high-affinity rhod2 complexation to Ca² - (d[Ca²⁺]_{cyt, T})/dt rate of Ca²⁺ influx obtained with maximal levels of ionomycin - k_leak rate constant for passive inward Ca²⁺ leakage - k_inno rate constant for ionomycin-mediated Ca²⁺ influx - T total - [rhod2]_cyt,T total intracellular rhod2 concentration - [quin2]_cyt,T total intracellular quin2 concentration - [B]_T total cytoplasmic buffering capacity - A[Ca²⁺]_cyt,T total number of Ca²⁺ ions moved into the cytoplasm - [rhod2-Ca]_{cyt, T} change in concentration of total intracellular high-affinity rhod2 complexed to Ca²⁺ - [B-Ca]_T change in concentration of total cytoplasmic binding sites complexed to Ca²⁺ - [quin2]_{cyt, T} change in concentration of total intracellular quinl complexed to Ca²⁺ - change in the degree of intracellular quin2 saturation - ₁ change in degree of saturation of cytoplasmic high-affinity rhod2 - ₁-/t rate of change in degree of saturation of cytoplasmic high affinityrhod2 - V_obs observed rate of Ca²⁺ removal from the rhod2-Ca complex - V_{8.3 m} the rate of Ca²⁺ removal from the high affinity rhod2-Ca complex at [Ca²⁺]_cyt = 8.3 m - /t rate of change in of the degree of quin2 saturation - [Ca²⁺]_cytT/_t initial linear rate of ionomycin-mediated Ca²⁺ influx - EC₅₀ effective concentration giving a half-maximal effect - [Na⁺]_cyt cytoplasmic Na⁺ activity - CAM calmodulin - ACN acetonitrile - TFA trifuloroacetic acid     

Activation of the human red cell calcium ATPase by calcium pretreatment

Some kinetic parameters of the human red cell Ca²⁺-ATPase were studied on calmodulin-free membrane fragments following preincubation at 37°C. After 30 min treatment with EGTA(1 mm) plus dithioerythritol (1 mm), a V _max of about 0.4 μmol P_i/mg × hr and a K _s of 0.3 μm Ca²⁺ were found. When Mg²⁺ (10 mm) or Ca²⁺(10 μm) were also added during preincubation, V _maxbut not Kwas altered. Ca²⁺ was more effective than Mg²⁺, thus increasing V _max to about 1.3 μmol P_i/mg × hr. The presence of both Ca²⁺ and Mg²⁺ during pretreatment decreasedKto 0.15 μm, while having no apparent effect on V _max. Conversely, addition of ATP (2 mm) with either Ca²⁺ or Ca²⁺ plus Mg²⁺increased V_max without affecting K. Preincubation with Ca²⁺ for periods longer than 30 min further increased V_maxand reduced Kto levels as low as found with calmodulin treatment. The Ca²⁺ activation was not prevented by adding proteinase inhibitors (iodoacetamide, 10 mm; leupeptin, 200 μm; pepstatinA, 100 μm; phenylmethanesulfonyl fluoride, 100 μm). The electrophoretic pattern of membranes preincubated with or without Mg²⁺, Ca²⁺ or Ca²⁺ plus Mg²⁺ did not differ significantly from each other. Moreover, immunodetection of Ca²⁺-ATPase by means of polyclonal antibodiesrevealed no mobility change after the various treatments. The above stimulation was not altered by neomycin (200 μm), washing with EGTA (5 mm) or by both incubating and washing with delipidized serum albumin (1 mg/ml), or omitting dithioerythritol from the preincubation medium. On the other hand, the activation elicited by Ca²⁺ plus ATP in the presence of Mg²⁺ was reduced 25–30% by acridine orange (100 μm), compound 48/80 (100 μm) or leupeptin (200 μm) but not by dithio-bis-nitrobenzoic acid (1 mm). The fluorescence depolarization of 1,6-diphenyl-and l-(4-trimethylammonium phenyl)-6-phenyl 1,3,5-hexatriene incorporated into membrane fragments was not affected after preincubating under the different conditions. The results show that proteolysis, fatty acid production, an increased phospholipid metabolism or alteration of membrane fluidity are not involved in the Ca²⁺ effect. Ca²⁺ preincubation may stimulate the Ca²⁺-ATPase activity by stabilizing or promoting the E₁ conformation.     

Activation of K+ channels by lanthanum contributes to the block of transmitter release in chick and rat sympathetic neurons

Summary We studied the effects of lanthanum (La³⁺) on the release of ³H-norepinephrine(³H-NE), intracellular Ca²⁺ concentration, and voltage clamped Ca²⁺ and K⁺ currents in cultured sympathetic neurons. La³⁺ (0.1 to 10 m) produced concentration-dependent inhibition of depolarization induced Ca²⁺ influx and ³H-NE release. La³⁺ was more potent and more efficacious in blocking ³H-NE release than the Ca²⁺-channel blockers cadmium and verapamil, which never blocked more than 70% of the release. At 3 m, La³⁺ produced a complete block of the electrically stimulated rise in intracellular free Ca²⁺ ([Ca²⁺] _i ) in the cell body and the growth cone. The stimulation-evoked release of ³H-NE was also completely blocked by 3 m La³⁺. However, 3 m La³⁺ produced only a partial block of voltage clamped Ca²⁺ current (I _Ca). Following La³⁺ (10 m) treatment ³H-NE release could be evoked by high K⁺ stimulation of neurons which were refractory to electrical stimulation. La³⁺ (1 m) increased the hyperpolarization activated, 4-aminopyridine (4-AP) sensitive, transient K⁺ current (I _A ) with little effect on the late outward current elicited from depolarized holding potentials. We conclude that the effective block of electrically stimulated ³H-NE release is a result of the unique ability of La³⁺ to activate a stabilizing, outward K⁺ current at the same concentration that it blocks inward Ca²⁺ current.     

Binding sites for horseradish peroxidase on the cell surface

Summary The cytochemical reaction for surface-bound horseradish peroxidase (HRP) on cultured HeLa cells, GH₃ cells, and isolated rat liver cells was suppressed by 30 M monosialoganglioside, by 30 M trisialoganglioside, or by 5 mM CMP-neurminic acid. The reaction was also suppressed by 10 mM chitotriose or by 10 mM UDP-galactose, a galactose acceptor and donor, respectively, for galactosyltransferase. The addition of 2 mM Mn²⁺ to the incubation medium with HRP suppressed the reaction for surfacebound HRP, and the addition of 10–20 mM Ca²⁺ intensified the reaction. The addition of 2 mM Zn²⁺ caused less inhibition than that of 2 mM Mn²⁺, and the addition of 2 mM Co²⁺ caused either a slight inhibition, or no inhibition. These observations support the hypothesis that HRP may be bound to a glycosyltransferase at the cell surface.     

Polyamines block Ca2+-activated K+ channels in pituitary tumor cells (GH3)

The effects of the natural polyamines, putrescine, spermidine and spermine on single calcium-activated potassium channels from clonal rat pituitary tumor cells (GH3) were studied. Applied to inside-out patches, polyamines were found to reduce the current amplitude and open probability of the channels in a dose- and voltage-dependent manner, indicating that polyamines act as fast blockers which sense a fraction of the electrical field in the channel pore. The K _d for spermine was 11.2 mm for the reduction of unitary current amplitude and 0.7 mm for the reduction of the open probability. The order of effectiveness was spermine > spermidine > putrescine. From fitting -functions to current amplitude histograms, blocking and unblocking rates were determined as 11.4 × 10⁴ sec^–1 and 21.9 × 10⁴ sec^–1, respectively. The reduction of the channel open probability was relieved by an increase of the Ca²⁺ concentration of the internal solution, indicating that polyamines compete with Ca²⁺ at the Ca²⁺ sensor of the channel. Putrescine antagonized the effect of spermine on the channel current amplitude. The results suggest that polyamines at intracellular millimolar concentrations suppress ion channel activity and therefore may effect electrical discharge behavior of excitable cells.This work was supported in part by the Austrian Fonds zur Förderung der wissenschaftlichen Forschung, P8587.     

Receptor capping in mouse T-lymphoma cells: A Ca2+ and calmodulin-stimulated ATP-dependent process

Summary The roles that Ca²⁺, calmodulin, and ATP play in the redistribution of conconavalin A (Con A) binding sites on the surface of mouse T-lymphoma cells were examined. Membranes of cells labeled with fluorescein-conjugated Con A (Fl-Con A) were made permeable (skinned) to ions and proteins by incubation in a solution containing no added Ca²⁺, 7mm EGTA, and ATP. The intracellular ionic and protein concentrations could then be varied, and the degree of Con A receptor capping monitored simultaneously. A graded increase (9.0 to 30%) was found in the number of capped cells with increasing Ca²⁺ concentration from 10^–6–10^–4.9 m. Increasing concentrations of trifluoperazine, chlorpromazine, and promethazine (1.5×10^–6 to 1.0×10^–4 m) in cell suspensions containing 10^–4 m Ca²⁺ produced graded inhibition of capping in the same order that the drugs bind to calmodulin. Removal of extracellular Ca²⁺ dissociated (reversed) some of the caps into patches, thus reducing their number (12%). ATP was required for either capping or cap dissociation to occur. Addition of calmodulin (3.9×10^–8–6.3×10^–7 m) to the cell suspension increased the Ca²⁺ sensitivity. These results provide direct evidence that capping of Con A receptors is a reversible process (i) regulated by intracellular Ca²⁺ concentration, (ii) requiring ATP as an energy source, and (iii) susceptible to the influence of calmodulin. These findings are consistent with the hypothesis that the collection of surface receptor patches into cap structures is controlled by the interaction of actomyosin filaments, which in turn is regulated by a Ca²⁺-calmodulin-activated control system.     

The effect of micro- and macromixing on enzyme reaction in a real CSTR

The effect of micromixing and macromixing on enzyme reaction of Michaelis-Menten type in a real continuously stirred tank reactor (CSTR) is considered. The effect of bypassing of a fraction of feed stream, dead space, initial enzyme concentration and Michaelis-Menten constant on substrate conversion is evaluated. Bypass reduces the substrate conversion significantly compared with other parameters in the case of micro and macromixing. Micromixing predicts higher substrate conversions compared with macromixing. The effect of micro and macromixing on substrate conversion is negligible at low and high conversions.List of Symbols C kmol/m³ concentration of reactant - ¯C kmol/m³ average concentration of reactant - C_A kmol/m³ exit concentration of reactant A - C_Aa kmol/m³ exit concentration of reactant A from active zone - C_AO kmol/m³ initial concentration of reactant A - C_EO kmol/m³ initial enzyme concentration - C_O kmol/m³ initial concentration of reactant - E(t) 1/s exit age distribution function - k 1/s reaction rate constant - M kmol/m³ Michaelis-Menten constant - r kmol/(m³s) rate of reaction - –r_A kmol/(m³s) rate of reaction with respect to A - t s time - v m³/s volumetric feed rate - v_a m³/s volumetric feed rate entering the active zone - v_b m³/s volumetric feed rate entering the bypass stream - V m³ total volume of the vessel - V_a m³ active volume of the vessel - V_d m³ volume of dead space - X_A conversion of A Greek Letters fraction of feed stream bypassing the vessel (v_b/v) - fraction of the total volume as dead space (V_d/V) - (t) 1/s Dirac delta function, an ideal pulse occurring at time t = 0 - s life expectancy of a molecule - 1/s intensity function or escape probability function - s space time or mean residence time     

The metabolism of cyclic nucleotides in the guinea-pig pancreas. Cyclic AMP phosphodiesterase and cyclic GMP phosphodiesterase

Both cyclic AMP phosphodiesterase and cyclic GMP phosphodiesterase were recovered mainly from the supernatant fractions of guinea-pig pancreas, but a higher proportion of the activity of the former was associated with the pellet fractions. The activities in the supernatant were not separated by gel filtration, but were clearly separated by subsequent chromatography on an anion-exchange resin. The activities of cyclic AMP phosphodiesterase and cyclic GMP phosphodiesterase had high-affinity (K_m 6.5±1.1μm and 31.9±3.9μm respectively) and low-affinity (K_m 0.56±0.05mm and 0.32±0.03mm respectively) components. The activity of neither enzyme was affected by the pancreatic secretogens, cholecystokinin-pancreozymin, secretin and carbachol. Removal of ions by gel filtration resulted in a marked reduction in cyclic nucleotide phosphodiesterase activity, which could be restored by addition of Mg²⁺. Mn²⁺ (3mm) was as effective as Mg²⁺ (3mm) in the case of cyclic AMP phosphodiesterase, but was less than half as effective in the case of cyclic GMP phosphodiesterase. The metal-ion chelators, EDTA and EGTA, also decreased activity. Ca²⁺ (1mm) did not affect the activity of cyclic nucleotide phosphodiesterase when the concentration of Mg²⁺ was 3mm. At concentrations of Mg²⁺ between 0.1 and 1mm, 1mm-Ca²⁺ was activatory, and at concentrations of Mg²⁺ below 0.1mm, 1mm-Ca²⁺ was inhibitory. These results are discussed in terms of the possible significance of cyclic nucleotide phosphodiesterase in the physiological control of cyclic nucleotide concentrations during stimulus–secretion coupling.     

Depolarization-induced calcium release from isolated triads measured with impermeant Fura-2

Summary Depolarization-induced Ca²⁺ release was studied in a mixture of triads and terminal cisternae isolated from rabbit skeletal muscle. The vesicles were actively loaded with known amounts of Ca²⁺ in the absence of precipitating anions in a solution containing 100 mm K propionate buffer. Changes in extravesicular Ca²⁺ were monitored with 10 m Fura-2 (membrane impermeant form). Ca²⁺ release was initiated by diluting an aliquot of the loaded vesicles into a TEACl release solution designed to maintain a constant [K⁺] · [Cl^–] product. Fast release, defined as the percentage of total Ca²⁺ loaded which released in less than 10 sec, occurred when extravesicular free Ca²⁺ was in the submicromolar range and was unaffected by 5 mm caffeine under depolarizing conditions, change in external pH to 6.5, and an increase in external Mg²⁺ concentration from 0.1 to 0.2 mm. Thus, the Ca²⁺ release measured in these studies is distinct from Ca²⁺-induced Ca²⁺ release. The fast release more than doubled when a greater dilution (1 20 versus 1 10) of the loaded vesicles into the release solution, which would produce a larger depolarization, was used. The percentage of loaded Ca²⁺ which released rapidly in a particular triad preparation was similar to the percentage of vesicles structurally coupled as visualized by electron microscopy.We thank Gerry Vaio and Melanie Vander Klok for excellent technical support. This work was supported by the National Institutes of Health program project grant PO1-HL27867, NSF Biological Instrumentation Grant DIR-8812094 and State of Ohio Research Challenge Grant.