Deliberate quin2 overload as a method forIn Situ characterization of active calcium extrusion systems and cytoplasmic calcium binding: application to the human platelet

Summary The objectives of the title were accomplished by a four-step experimental procedure followed by a simple graphical and mathematical analysis. Platelets are (i) overloaded with the indicator quin2 to cytoplasmic concentrations of 2.9mm and (ii) are exposed to 2mm external Ca²⁺ and 1.0 m ionomycin to rapidly achieve cytoplasmic Ca²⁺ ([Ca²⁺]_cyt) of ca. 1.5 m. (iii) The external Ca²⁺ is removed by EGTA addition, and (iv) the active Ca²⁺ extrusion process is then monitored as a function of time. Control experiments show that the ionophore shunts dense tubular uptake and does not contribute to the Ca²⁺ efflux process during phases iii–iv and that the extrusion process is sensitive to metabolic inhibitors.The progress curves for the decline of quin2 fluorescence (resulting from active Ca²⁺ extrusion) were analyzed as a function of [Ca²⁺]_cyt using a mathematical model involving the probability that an exported Ca²⁺ was removed from a quin2 complex (vs. a cytoplasmic binding element). The observed rates of decline of quin2 fluorescence at a particular [Ca²⁺]_cyt are dependent upon (i) the absolute rate of the extrusion system (a function of itsK _m, V_m and Hill coefficient (n)), (ii) the intrinsic Ca²⁺ buffer capacity of the cytoplasm (a function of the total site concentration ([B] _T ) and itsK _d) and (iii) the buffer capacity of the intracytoplasmic quin2 (a function of its concentration andK _d). The contribution of (iii) was known and varied and was used to determine (ii) and (i) as a function of [Ca²⁺]_cyt.The Ca²⁺ binding data were verified by⁴⁵Ca²⁺ experimentation. The data fit a single binding site ([B] _T =730±200 m) with an averageK _d of 140±10n m. This can be accounted for by platelet-associated calmodulin. The rate of the Ca²⁺ extrusionvs. [Ca²⁺]_cyt curve can be described by two components: A saturable one withV _m=2.3±0.3 nmol min^–1 mg-membrane^–1,K _m=80±10 andn=1.7±0.3 (probably identified with a Ca²⁺-ATPase pump) and a linear one (probably identified with a Na⁺/Ca²⁺ exchanger).     

Isolation and characterization of the vitamin K dependent domain of human prothrombin

Chymotryptic cleavage of human prothrombin produces two fragments, prothrombin (des 1–44) previously characterized and peptide 1–41. This peptide has been purified by barium citrate adsorption and Sephadex G100 chromatography. It contains the 10 γ-carboxyglutamic residues of prothrombin. Added to a prothrombin activation mixture containing FXa, phospholipid and Ca⁺⁺, peptide 1–41 inhibits thrombin generation with the same potency as prothrombin fragment 1. Ca⁺⁺ produces a 20 % quenching of the intrinsic fluorescence of the peptide. So do Mn⁺⁺ and Mg⁺⁺ although to a lesser extent. Phospholipid enhances the Ca⁺⁺ induced quenching by a factor of 1.7 and shifts the midpoint of the transition from 0.34 to 0.46 mM Ca⁺⁺. The major difference with titration curves obtained with prothrombin F1 is the absence of cooperativity. Hence peptide 1–44 has retained some of the prothrombin properties to interact with Ca⁺⁺ and phospholipid and represents the vitamin K dependent domain of the molecule. The presence of the remaining part of F1 (residues 44–155) however is necessary for the expression of cooperativity.     

Steroid-protein interactions. Fluorescence quenching of progesterone-binding globulin and alpha1-acid glycoprotein upon binding of steroids.

The influence of progesterone and four other steroids on the intrinsic fluorescence of progesterone-binding globulin was investigated. The corresponding effect of progesterone on α₁-acid glycoprotein was also studied. The intrinsic fluorescence of the progesterone-binding globulin and of α₁-acid glycoprotein was quenched by about 60 and 17%, respectively, upon forming stoichiometric complexes with progesterone. Graphical analysis of fluorescence quenching titrations with progesterone gave affinity constants at 23 °C of 2 × 10⁹m^?1 for progesterone-binding globulin and 1 × 10⁶m^?1 for α₁-acid glycoprotein. With progesterone-binding globulin, affinity constants of 1 × 10⁹m^?1 were determined for desoxycorticosterone, 1 × 10⁸m^?1 for testosterone, and 2 × 10⁶m^?1 for cortisol. The fluorescence quenching of PBG by 5-pregnen-3β-ol-20-one, 5α-pregnanedione, and 5β-pregnanedione, steroids lacking the Δ⁴-3-keto grouping, was too small to be evaluated; however, binding of the pregnanediones to progesterone-binding globulins was demonstrated when the progesterone-progesterone-binding globulin complex was “unquenched” as a result of competitive displacement of progesterone by addition of the pregnanediones. The quenching phenomenon is assumed to be mainly due to radiationless transfer from protein to the near uv (n → π1) absorption band of steroids containing the Δ⁴-3-keto chromophore.     

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).     

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     

The Photosynthesis and Chlorophyll a Fluorescence in Seedlings of Kandelia Candel (L.) Druce Grown under Different Nitrogen and NaCl Controls

Kandelia candel (L.) Druce is the dominant mangrove species on the west coast of northern Taiwan. We have measured the net photosynthetic rate (P _N) and chlorophyll (Chl) a fluorescence of seedlings grown at combinations of two nitrogen (0.01 and 0.1 mM) and two NaCl (250 and 430 mM NaCl) controls. With the same nitrogen level, seedlings grown at higher salinity (HS) had a significantly lower P _N and stomatal conductance (g _s) than those at lower salinity (LS). An increase in nitrogen availability significantly elevated P _N and g _s of the LS-grown seedlings. Compared to dark adapted leaves, the maximum quantum yield of photosystem 2 (PS2) (F_v/F_m) of leaves exposed to PFDs of 1200 and 1600 μmol m^-2 s^-1 for 2 h was significantly reduced. The degree of F_v/F_m reduction differed among leaves of the four types of treated plants. Chl fluorescence quenching analysis revealed differences among the examined plants in coefficients of non-photochemical and photochemical quenching. This revised version was published online in June 2006 with corrections to the Cover Date.     

Photoadaptation in the Green Alga Spongiochloris Sp. A Three-Fluorometer Study

The dark-adapted cells of the green alga Spongiochloris sp. were exposed to "white light" of 1000 μmol(photon) m⁻² s⁻¹ for 2 h and then dark adapted for 1.5 h. Changes of photochemical activities during photoadaptation were followed by measurement of chlorophyll (Chl) fluorescence kinetics, 77 K emission spectra, photosynthetic oxygen evolution, and pigment composition. We observed a build-up of slowly-relaxing non-photochemical quenching which led to a decrease of the F_v/F_m parameter and the connectivity. In contrast to the depression of F_v/F_m (35 %) and the rise of non-photochemical quenching (∼ 1.6), we observed an increase in effective absorption cross-section (20 %), Hill reaction (30 %), photosynthetic oxygen evolution (80 %), and electron transport rate estimated from the Chl fluorescence analysis (80 %). We showed an inconsistency in the presently used interpretation schemes, and ascribe the discrepancy between the increase of effective absorption cross-section and the photosynthetic activities on one side and the effective non-photochemical quenching on the other side to the build-up of a quenching mechanism which dissipates energy in closed reaction centres. Such a type of quenching changes the ratio between thermal dissipation and fluorescence without any effect on photochemical yield. In this case the F_v/F_m ratio cannot be used as a measure of the maximum photochemical yield of PS2. This revised version was published online in August 2006 with corrections to the Cover Date.     

Quenching of a proton gradient and concomitant increase of intragranular calcium in interstitial cells of Mytilus retractor muscle

Summary The content of specific glio-interstitial granules in situ was studied in Mytilus retractor muscle using fluorescent probes and X-ray microanalysis. The granules readily take up the fluorescent monoamine dye acridine orange added to sea water (2.7×10^-6 M) and appear red in fluorescence microscopy. The addition of ammonium chloride (10 mM) or various proton ionophores results in extinction of the granule fluorescence. In addition, a step-wise decrease in granule fluorescence is observed when the tissue is perfused with artificial sea water of decreasing pH. These granules thus appear to be acidic inside. The animals were maintained in artificial sea water containing 8.36 mM Ca²⁺ and 528.90 mM Na⁺, the ratio R=[Ca²⁺]₀/[Na⁺]² ₀ being thus equal to 3x10^-5. Perfusions of the tissue with artificial sea water containing a higher calcium concentration (12.2 mM) and/or a higher [Ca²⁺]₀/[Na⁺]² ₀ ratio (R=4.5×10^-5) result in a drastic reduction of the proton gradient, evidenced by a quenching of the acridine orange fluorescence. Under the same conditions, a significant increase of the total intragranular calcium concentration was demonstrated by quantitative X-ray micro-analysis of the tissue processed by quick freezing and freeze-substitution in the presence of oxalic acid. The fluorescence of the probe Fluo-3/AM, indicative of ionized calcium, is higher in the granules than in the surrounding cytoplasm; this suggests that calcium is accumulated in the granule against its concentration gradient. The acidic gradient of specific glio-interstitial cell granules could provide the energy needed for this calcium accumulation through a Ca²⁺/H⁺ exchange. These results are discussed with regard to the hypothesis that the glio-interstitial tissue can regulate pericellular calcium and/or hydrogen ion ioncentration in the vicinity of nerve and muscle cells.     

Calcium buffering properties of sarcoplasmic reticulum and calcium-induced Ca2+ release during the quasi-steady level of release in twitch fibers from frog skeletal muscle

Experiments were performed to characterize the properties of the intrinsic Ca²⁺ buffers in the sarcoplasmic reticulum (SR) of cut fibers from frog twitch muscle. The concentrations of total and free calcium ions within the SR ([Ca_T]_SR and [Ca²⁺]_SR) were measured, respectively, with the EGTA/phenol red method and tetramethylmurexide (a low affinity Ca²⁺ indicator). Results indicate SR Ca²⁺ buffering was consistent with a single cooperative-binding component or a combination of a cooperative-binding component and a linear binding component accounting for 20% or less of the bound Ca²⁺. Under the assumption of a single cooperative-binding component, the most likely resting values of [Ca²⁺]_SR and [Ca_T]_SR are 0.67 and 17.1 mM, respectively, and the dissociation constant, Hill coefficient, and concentration of the Ca-binding sites are 0.78 mM, 3.0, and 44 mM, respectively. This information can be used to calculate a variable proportional to the Ca²⁺ permeability of the SR, namely d[Ca_T]_SR/dt ÷ [Ca²⁺]_SR (denoted release permeability), in experiments in which only [Ca_T]_SR or [Ca²⁺]_SR is measured. In response to a voltage-clamp step to −20 mV at 15°C, the release permeability reaches an early peak followed by a rapid decline to a quasi-steady level that lasts ∼50 ms, followed by a slower decline during which the release permeability decreases by at least threefold. During the quasi-steady level of release, the release amplitude is 3.3-fold greater than expected from voltage activation alone, a result consistent with the recruitment by Ca-induced Ca²⁺ release of 2.3 SR Ca²⁺ release channels neighboring each channel activated by its associated voltage sensor. Release permeability at −60 mV increases as [Ca_T]_SR decreases from its resting physiological level to ∼0.1 of this level. This result argues against a release termination mechanism proposed in mammalian muscle fibers in which a luminal sensor of [Ca²⁺]_SR inhibits release when [Ca_T]_SR declines to a low level.     

The relationship between the binding of ATP and calcium to annexin IV. Effect of nucleotide on the calcium-dependent interaction of annexin with phosphatidylserine

With the use of ATP analogues, we have found that porcine liver annexin (Anx) IV can be covalently labelled with 8-azido[γ-³²P]-ATP In the presence of Ca²⁺ (K_d 4.2 μM) and that the labelling is prevented by asolectin/cholesterol liposomes or chelation of calcium ions. On the other hand, non-covalent binding of 2 -(or 3)-0-(2,4,6-trinitrophenyl)adenoslne 5-triphosphate (TNP-ATP) to AnxlV occurs optimally in the presence of liposomes and Ca²⁺ (K_d 7 μM). These observations were further confirmed by the results of intrinsic fluorescence quenching of AnxlV with various nucleotides, suggesting the existence of a relationship between Ca²⁺, phospholipid- and ATP-binding sites within the annexin molecule. The Interaction of AnxIV with nucleotides does not significantly affect its In vitro properties concerning the binding to phosphatidylserine (PS) monolayers.     

Combining Voltage and Calcium Imaging from Neuronal Dendrites

The ability to monitor membrane potential (V _m) and calcium (Ca²⁺) transients at multiple locations on the same neuron can facilitate further progress in our understanding of neuronal function. Here we describe a method to combine V _m and Ca²⁺ imaging using styryl voltage sensitive dyes and Fura type UV-excitable Ca²⁺ indicators. In all cases V _m optical signals are linear with membrane potential changes, but the calibration of optical signals on an absolute scale is presently possible only in some neurons. The interpretation of Ca²⁺ optical signals depends on the indicator Ca²⁺ buffering capacity relative to the cell endogenous buffering capacity. In hippocampal CA1 pyramidal neurons, loaded with JPW-3028 and 300 μM Bis-Fura-2, V _m optical signals cannot be calibrated and the physiological Ca²⁺ dynamics are compromised by the presence of the indicator. Nevertheless, at each individual site, relative changes in V _m and Ca²⁺ fluorescence signals under different conditions can provide meaningful new information on local dendritic integration. In cerebellar Purkinje neurons, loaded with JPW-1114 and 1 mM Fura-FF, V _m optical signals can be calibrated in terms of mV and Ca²⁺ optical signals quantitatively reveal the physiological changes in free Ca²⁺. Using these two examples, the method is explained in detail.     

The action potential in Chara: Ca2+ release from internal stores visualized by Mn2+‐induced quenching of fura‐dextran

The action potential (AP) in Chara is associated with a transient elevation in the concentration of cytoplasmic-free Ca²⁺ ([Ca²⁺]_cyt). The quenching properties of the fluorescent Ca²⁺ indicator dye fura-dextran, in combination with Mn²⁺, was used to investigate whether this [Ca²⁺]_cyt transient is due to Ca²⁺ release from internal stores or to Ca²⁺ influx across the plasma membrane. Adding Mn²⁺ to the external medium or pre-injection of Mn²⁺ into the vacuole caused no perceivable quenching of the fura fluorescence, during an AP. This makes it unlikely that Ca²⁺ influx across the plasma membrane or the tonoplast contributes significantly to the [Ca²⁺]_cyt transient in an excited cell. When cells were pre-incubated in external solutions containing Mn²⁺ from 25 to 30 mM APs evoked a transient quenching of fura fluorescence in Mn²⁺-free solutions. Under these conditions, the quenching must be attributed to an AP-associated release of Mn²⁺ from internal stores. Based on the finding that exposing cells to millimolar concentrations of Mn²⁺ caused a progressive quenching of the fura fluorescence in non-excited cells, it can be assumed that some Mn²⁺ enters the cells during pre-incubation and is loaded into internal stores. During excitation, this stored Mn²⁺ is released together with Ca²⁺.     

Electrogenic Partial Reactions of the SR-Ca-ATPase Investigated by a Fluorescence Method

A fluorescence method was adapted to investigate active ion transport in membrane preparations of the SR-Ca-ATPase. The styryl dye RH421 previously used to investigate the Na,K-ATPase was replaced by an analogue, 2BITC, to obtain optimized fluorescence changes upon substrate-induced partial reactions. Assuming changes of the local electric field to be the source of fluorescence changes that are produced by uptake/release or by movement of ions inside the protein, 2BITC allowed the determination of electrogenic partial reactions in the pump cycle. It was found that Ca²⁺ binding on the cytoplasmic and on the lumenal side of the pump is electrogenic while phosphorylation and conformational transition showed only minor electrogenicity. Ca²⁺ equilibrium titration experiments at pH 7.2 in the two major conformations of the protein indicated cooperative binding of two Ca²⁺ ions in state E₁ with an apparent half-saturation concentration, K _M of 600 nm. In state P-E₂ two K _M values, 5 μm and 2.2 mM, were determined and are in fair agreement with published data. From Ca²⁺ titrations in buffers with various pH and from pH titrations in P-E₂, it could be demonstrated that H⁺ binding is electrogenic and that Ca²⁺ and H⁺ compete for the same binding site(s). Tharpsigargin-induced inhibition of the Ca-ATPase led to a state with a specific fluorescence level comparable to that of state E₁ with unoccupied ion sites, independent of the buffer composition. Received: 21 September 1998/Revised: 18 December 1998     

Fluorescence study on transmembrane Ca2+ gradient-mediated conformation changes of sarcoplasmic reticulum Ca2+-ATPase

The conformational states of Ca²⁺-ATPase in sarcoplasmic reticulum (SR) vesicles with or without a thousand-fold transmembrane Ca²⁺ gradient have been studied by fluorescence spectroscopy and fluorescence quenching. In consequence of the establishment of the transmembrane Ca²⁺ gradient, the steady-state fluorescence results revealed a reproducible 8% decrease in the intrinsic fluorescence while time-resolved fluorescence measurements showed that 13 tryptophan residues in SR · Ca²⁺-ATPase could be divided into three groups. The fluorescence lifetime of one of these groups increased from 5.5 ns to 5.95 ns in the presence of a Ca²⁺ gradient. Using KI and hypocrellin B (a photosensitive pigment obtained from a parasitic fungus, growing in Yunnan, China), the fluorescence quenching further indicated that the dynamic change of this tryptophan group, located at the protein-lipid interface, is a characteristic of transmembrane Ca²⁺ gradient-mediated conformational changes in SR · Ca²⁺-ATPase.Abbreviations SR sarcoplasmic reticulum - HB hypocrellin B - Trp tryptophan - DMSO dimethysulfoxide - Hepes N-2-hydroxyethyl piperazine-N-ethanesulfonic acad - SR(50005) SR vesicles with 1000-fold transmembrane Ca²⁺ gradient - SR(5050) SR vesicles without Ca²⁺ gradient - K_sv(app) apparent Stern-Volmer constant - K_svi Stern-Volmer constant of component i for dynamic quenching     

Chlorophyll fluorescence images demonstrate variable pathways in the effects of plasma membrane excitation on electron flow in chloroplasts of <Emphasis Type="Italic">Chara</Emphasis> cells

Chlorophyll fluorescence Imaging and Microscopy PAM fluorometry were applied to study spatial dynamics of photosystem II quantum yield ( DF/F_m￠ ) \left( {\Delta F/F_m^\prime } \right) and non-photochemical quenching (NPQ) in resting and electrically stimulated Chara corallina cells in the absence and presence of the hydrophilic electron acceptor methyl viologen (MV) in the external medium. Electrical excitation of the plasma membrane temporarily enhanced the heterogeneity of photosynthetic patterns under physiological conditions (in the absence of MV), but irreversibly eliminated these patterns in the presence of MV. These findings suggest that the action potential (AP) of the excitable plant cell affects the spatial patterns of photosynthesis and chlorophyll fluorescence through different pathways operated in the absence and presence of MV. Based on the extent of NPQ as an indicator of MV-dependent electron flow, it is supposed that MV cannot permeate into the chloroplasts of photosynthetically active “acid cell regions” but gains an immediate access to the stroma of these chloroplasts after triggering of an AP. The AP-triggered MV-dependent non-photochemical quenching in the chloroplasts of acidic cell regions was routinely observed at 0.1 mM Ca²⁺ in the medium but not at elevated (2 mM) external Ca²⁺ concentration. The results are interpreted in terms of competition between two permeant divalent ion species, Ca²⁺ and MV²⁺, for their passage through the voltage-gated calcium channels of the plasma membrane. It is proposed that the herbicidal activity of MV in characean cells, here serving as model object, can be manipulated by triggering AP and varying Ca²⁺ concentration in the environmental medium.     

The calmodulin-activated form of the Ca2+-pumping ATPase of the cardiac sarcolemmal membrane produces Ca2+ gradients with a thermodynamic efficiency of 100%

The thermodynamic efficiency of the calmodulin-activated form of the Ca²⁺-pumping ATPase of the bovine cardiac sarcolemma (SL) was evaluated in sealed vesicles under reversible conditions. The free internal Ca²⁺ concentration ([Ca²⁺]_i) established in the SL vesicle lumen by action of the ATPase was determined as a function of the [ATP]/([ADP][P_i]) ratio for the following experimental conditions: 250mM sucrose, 100mM KCI, 0.1mM Mg²⁺, 25mM HEPES, 25mM Tris, pH 7.40, at 37°C, [Ca²⁺]_o=50nM (1mM Ca/EGTA buffer), 0.75mM Mg-ATP, 0.1mM P_i, variable [ADP]. Under these conditions, with the pump working near itsK _m of 64nM, the [Ca²⁺]_i achieved was 18mM, decreasing with increasing [ADP] for [ADP] 0.84mM. A plot of the square of the [Ca²⁺]_i/[Ca²⁺]_o ratio against [ATP]/([ADP][P_i]) gave a straight line with a slope of 1.5×10⁷M. This was in agreement, within the experimental error, with the equilibrium constant for ATP hydrolysis under these conditions (1.09×10⁷M). These results demonstrate (1) tight coupling between Ca²⁺ transport and ATP hydrolysis with a stoichiometry of 2 Ca²⁺ moved per ATP split and (2) a low degree of passive leakage. Analysis at low [ADP] (<0.83mM) showed the unexpected result that ADP increases the rate of theforward reaction of the pump. The maximal effect on the initial rate is a 96±5% increase, with an EC₅₀ of approximately 0.4mM (ADP). Similar but lesser stimulation was observed with CDP. The implications of the above results for the energetics of the pump and for its physiological function in the beating heart are discussed.     

MOUSE NEUROBLASTOMA CELL ADENYLATE CYCLASE: REGULATION BY 2-CHLOROADENOSINE, PROSTAGLANDIN E1 AND THE CATIONS Mg2+, Ca2+ AND Mn

—Some basic kinetic properties of adenylate cyclase in cell free preparations of mouse neuroblastoma were investigated. Production of cAMP from ATP by the enzyme requires the presence of either Mg²⁺ or Mn²⁺ in addition to ATP. In the presence of Mg²⁺, the K_m for ATP is 120 ± 15 μM and the interaction of ATP and adenylate cyclase appears to be non-cooperative (Hill coefficient of 1). Magnesium ion concentrations in excess of the ATP concentration cause stimulation although similar excess concentrations of Mn²⁺ cause inhibition. Prostaglandin E₁ and 2-chloroadenosine activate the enzyme. The K_m of the cyclase for 2-chloroadenosine is 6 μm . Activation by 2-chloroadenosine leads to an increase in V_max but does not effect the K_m for ATP. At a fixed ATP concentration, the extent of activation caused by prostaglandin E₁ and 2-chloroadenosine is inversely related to the Mg²⁺ concentration. Calcium ion causes inhibition of adenylate cyclase from 0.1 to 4mM with a K_i of 5 ± 10^?4m . Ca²⁺ interaction with the enzyme in the absence or presence of either 2-chloroadenosine or prostaglandin E₁ appears cooperative (i.e. Hill coefficients of ?2). Ca²⁺ inhibition is non-competitive with respect to either ATP or 2-chloroadenosine but is progressively diminished by increasing Mn²⁺ concentrations. Divalent cation effects and activation by 2-chloroadenosine and prostaglandin E₁ of the neuroblastoma adenylate cyclase are compared with ion effects and hormone activation of the enzyme obtained from non-neuronal tissue.     

Nonselective Suppression of Voltage-gated Currents by Odorants in the Newt Olfactory Receptor Cells

Effects of odorants on voltage-gated ionic channels were investigated in isolated newt olfactory receptor cells by using the whole cell version of the patch–clamp technique. Under voltage clamp, membrane depolarization to voltages between −90 mV and +40 mV from a holding potential (V_h) of −100 mV generated time- and voltage-dependent current responses; a rapidly (< 15 ms) decaying initial inward current and a late outward current. When odorants (1 mM amyl acetate, 1 mM acetophenone, and 1 mM limonene) were applied to the recorded cell, the voltage-gated currents were significantly reduced. The dose-suppression relations of amyl acetate for individual current components (Na⁺ current: I_Na, T-type Ca²⁺ current: I_Ca,T, L-type Ca²⁺ current: I_Ca,L, delayed rectifier K⁺ current: I_Kv and Ca²⁺-activated K⁺ current: I_K(Ca)) could be fitted by the Hill equation. Half-blocking concentrations for each current were 0.11 mM (I_Na), 0.15 mM (I_Ca,T), 0.14 mM (I_Ca,L), 1.7 mM (I_Kv), and 0.17 mM (I_K(Ca)), and Hill coefficient was 1.4 (I_Na), 1.0 (I_Ca,T), 1.1 (I_Ca,L), 1.0 (I_Kv), and 1.1 (I_K(Ca)), suggesting that the inward current is affected more strongly than the outward current. The activation curve of I_Na was not changed significantly by amyl acetate, while the inactivation curve was shifted to negative voltages; half-activation voltages were −53 mV at control, −66 mV at 0.01 mM, and −84 mV at 0.1 mM. These phenomena are similar to the suppressive effects of local anesthetics (lidocaine and benzocaine) on I_Na in various preparations, suggesting that both types of suppression are caused by the same mechanism. The nonselective blockage of ionic channels observed here is consistent with the previous notion that the suppression of the transduction current by odorants is due to the direst blockage of transduction channels.     

Xanthophyll cycle and light stress in nature: uniform response to excess direct sunlight among higher plant species

Photosystem II (PS II) efficiency, nonphotochemical fluorescence quenching, and xanthophyll cycle composition were determined in situ in the natural environment at midday in (i) a range of differently angled sun leaves ofEuonymus kiautschovicus Loesener and (ii) in sun leaves of a wide range of different plant species, including trees, shrubs, and herbs. Very different degrees of light stress were experienced by these leaves (i) in response to different levels of incident photon flux densities at similar photosynthetic capacities amongEuonymus leaves and (ii) as a result of very different photosynthetic capacities among species at similar incident photon flux densities (that were equivalent to full sunlight). ForEuonymus as well as the interspecific comparison all data fell on one single, close relationship for changes in intrinsic PSII efficiency, nonphotochemical fluorescence quenching, or the levels of zeaxanthin + antheraxanthin in leaves, respectively, as a function of the actual level of light stress. Thus, the same conversion state of the xanthophyll cycle and the same level of energy dissipation were observed for a given degree of light stress independent of species or conditions causing the light stress. Since all increases in thermal energy dissipation were associated with increases in the levels of zeaxanthin + antheraxanthin in these leaves, there was thus no indication of any form of xanthophyll cycle-independent energy dissipation in any of the twenty-four species or varieties of plants examined in their natural environment. It is also concluded that transient diurnal changes in intrinsic PSII efficiency in nature are caused by changes in the efficiency with which excitation energy is delivered from the antennae to PSII centers, and are thus likely to be purely photoprotective. Consequently, the possibility of quantifying the allocation of absorbed light into PSII photochemistry versus energy dissipation in the antennae from changes in intrinsic PSII efficiency is explored.Abbreviations A antheraxanthin - F actual level of fluorescence - F_a, F _o minimal fluorescence in the absence, presence of thylakoid energization - F_m, F _m maximal fluorescence in the absence, presence of thylakoid energization - F_m, - F)/F _m actual PSII efficiency ( = percent of absorbed light utilized in PSII photochemistry) - F_v/F_m, F _v /F_m/ PSII efficiency of open centers in the absence, presence of thylakoid energization - NPQ nonphotochemical fluorescence quenching - F_m/F _m - 1; q_p quenching coefficient for photochemical quenching - V violaxanthin - Z zeaxanthin     

Cooperative binding of calcium to glycerinated skeletal muscle fibers

The binding of ⁴⁵Ca²⁺ to glycerinated rabbit psoas fibers was measured by means of a double isotope technique. With 5 mM Mg²⁺ (no ATP) binding was half-maximal at 1.4 · 10^?6M Ca²⁺ and the maximal amount bound was 1.6 μmol/g protein. At < 50% saturation, the Scatchard plot had a positive slope and the Hill coefficient was 2.2. At greater than 50% saturation, the Scatchard plot was linear with a negative slope (K′ = 0.8 · 10⁶ M^?1) and the Hill coefficient was 1.0. In the absence of Mg²⁺, binding was half-maximal at 3 · 10^?7 M Ca²⁺ and the maximal amount bound was 2.9 μmol/g protein. The Scatchard plot indicated two classes of sites with K′ values of about 2 · 10⁷ and 2 · 10⁶ M^?1. The Hill coefficient in the mid-saturation range was approx. 0.6. The data indicate that in the presence of Mg²⁺ binding to about half of the total Ca²⁺ binding sites is suppressed and there is a strong positive cooperativity involving half of the remaining sites.