Mechanisms of fusicoccin action: evidence for concerted modulations of secondary K+ transport in a higher plant cell

Fusicoccin (FC) has long been known to promote K⁺ uptake in higher plant cells, including stomatal guard cells, yet the precise mechanism behind this enhancement remains uncertain. Membrane hyperpolarization, thought to arise from primary H⁺ pumping stimulated in FC, could help drive K⁺ uptake, but the extent to which FC stimulates influx and uptake frequently exceeds any reasonable estimates from Constant Field Theory based on changes in the free-running membrane potential (V _m) alone; furthermore, unidirectional flux analyses have shown that in the toxin K⁺ (⁸⁶Rb⁺) exchange plummets to 10% of the control (G.M. Clint and E.A.C. MacRobbie 1984, J. Exp. Bot.35 180–192). Thus, the activities of specific pathways for K⁺ movement across the membrane could be modified in FC. We have explored a role for K⁺ channels in mediating these fluxes in guard cells ofVicia faba L. The correspondence between FC-induced changes in chemical (⁸⁶Rb⁺) flux and in electrical current under voltage clamp was followed, using the K⁺ channel blocker tetraethylammonium chloride (TEA) to probe tracer and charge movement through K⁺-selective channels. Parallel flux and electrical measurements were carried out when cells showed little evidence of primary pump activity, thus simplifying analyses. Under these conditions, outward-directed K⁺ channel current contributed appreciably to charge balance maintainingV _m, and adding 10 mM TEA to block the current depolarized (positive-going)V _m; TEA also reduced⁸⁶Rb⁺ efflux by 68–80%. Following treatments with 10 M FC, both K⁺ channel current and⁸⁶Rb⁺ efflux decayed, irreversbly and without apparent lag, to 10%–15% of the controls and with equivalent half-times (approx. 4 min). Fusicoccin also enhanced⁸⁶Rb⁺ influx by 13.9-fold, but the influx proved largely insensitive to TEA. Overall, FC promotednet cation uptake in 0.1 mM K⁺ (Rb⁺), despite membrane potentials which were 30–60 mVpositive of the K⁺ equilibrium potential. These results tentatively link (chemical) cation efflux to charge movement through the K⁺ channels. They offer evidence of an energy-coupled mechanism for K⁺ uptake in guard cells. Finally, the data reaffirm early suspicions that FC alters profoundly the K⁺ transport capacity of the cells, independent of any changes in membrane potential.Abbreviations and symbols E _K equilibrium potential for K⁺ - FC fusicoccin - Hepes 4-(2-hydroxyethyl)-1-piperazineeth-anesulfonic acid - G _m membrane (slope) conductance atV _m - I-V current-voltage (relationship) - apparent rate constant for exchange - K _i ⁺ , K ₀ ⁺ intracellular, extracellular K⁺ (concentration) - TEA tetraethylammonium chloride - V _m free-running membrane potential (difference)     

Auxin causes oscillations of cytosolic free calcium and pH inZea mays coleoptiles

In epidermal cells of maize (Zea mays L.) coleoptiles, cytosolic pH (pH_c), cytosolic free calcium, membrane potential and changes thereof were monitored continuously and simultaneously (pH_c/, _m, Ca²⁺/ _m) using double-barrelled ion-sensitive microelectrodes. In the resting cells the cytosolic pH was 7.3–7.5 and the concentration of free calcium was 119±24 nM. One-micromolar indole-3-acetic acid (IAA), added to the external medium at pH 6.0 triggered oscillations in _m, pH_c and free calcium with a period of 20 to 30 min. Acidification of the cytosolic pH increased the cytosolic free calcium. The _m oscillations are attributed to changes in activity of the H⁺-extrusion pump at the plasmalemma, triggered off by pH and controlled by pH regulation (pH oscillation). The origin of the pH_c and Ca²⁺ changes remains unclear, but is possibly caused by auxin-receptor-induced lipid breakdown and subsequent second-messenger formation. It is suggested that the observed cytosolic pH and Ca²⁺ changes are intrinsically interrelated, and it is concluded that this onset of regulatory processes through the phytohormone IAA is indicative of calcium and protons mediating early auxin action in maize coleoptiles. It is further concluded that the double-barrelled ion-sensitive microelectrode is an invaluable tool for investigating in-vivo hormone action in plant tissues.Abbreviations and symbols FC fusicoccin - IAA indole-3-acetic acid - Mes 2-(N-morpholino)ethanesulfonic acid - pH_c cytosolic pH - Tris 2-amino-2-(hydroxymethyl)-1,3-propanediol - _m membrane potential difference (mV)     

Transmembrane electrical potentials in growing maize roots

The anti-auxin 4-chlorophenoxyisobutyric acid (PCIB) applied at a concentration of 10^-2 mol m^-3 to maize root segments was found to induce a transmembrane electrical potential of up to-130 mV (pd of 30 mV). The kinetics of this response were comparable to the time scale for PCIB-stimulated H⁺-extrusion. Both effects are eliminated by the addition of p-fluoromethoxycarbonyl cyanide phenylhydrazone (FCCP). Treatment with fusicoccin (FC) and PCIB together does not result in a hyperpolarization greater than with FC alone. Benzoic acid (10^-2 mol m^-3) had no effect on the transmembrane electrical potentials. These results are discussed in relation to a possible electrogenic proton pump which may be regulated by perturbations in the cellular auxin content or activity.Abbreviations ATPase adenosine triphosphatase - FC fusicoccin - FCCP p-fluoromethoxy carbonylcyanide phenylhydrazone - IAA indole-3yl-acetic acid - NAA naphthyl-lylacetic acid - PCIB 4-chlorophenoxyisobutyric acid - PD potential difference     

Voltage dependence of theChara proton pump revealed by current-voltage measurement during rapid metabolic blockade with cyanide

Summary It is generally agreed that solute transport across theChara plasma membrane is energized by a proton electrochemical gradient maintained by an H⁺-extruding ATPase. Nonetheless, as deduced from steady-state current-voltage (I-V) measurements, the kinetic and thermodynamic constraints on H⁺-ATPase function remain in dispute. Uncertainties necessarily surround long-term effects of the relatively nonspecific antagonists used in the past; but a second, and potentially more serious problem has sprung from the custom of subtracting, across the voltage spectrum, currents recorded following pump inhibition from currents measured in the control. This practice must fail to yield the trueI-V profile for the pump when treatments alter the thermodynamic pressure on transport.We have reviewed these issues, using rapid metabolic blockade with cyanide and fitting the resultant whole-cellI-V and difference-current-voltage (dI-V) relations to a reaction kinetic model for the pump and parallel, ensemble leak. Measurements were carried out after blocking excitation with LaCl₃, so that steady-state currents could be recorded under voltage clamp between –400 and +100 mV. Exposures to 1mm NaCN (CN) and 0.4mm salicylhydroxamic acid (SHAM) depolarized (positive-going)Chara membrane potentials by 44–112 mV with a mean half time of 5.4±0.8 sec (n=13). ATP contents, which were followed in parallel experiments, decayed coincidently with a mean half time of 5.3±0.9 sec ([ATP] _t=0, 0.74±0.3mm; [ATP] _t=x , 0.23±0.02mm). Current-voltage response to metabolic blockade was described quantitatively in context of these changes in ATP content and the consequent reduction in pump turnover rate accompanied by variable declines in ensemble leak conductance. Analyses ofdI-V curves (±CN+SHAM) as well as of families ofI-V curves taken at times during CN+SHAM exposures indicated a stoichiometry for the pump of one charge (H⁺) transported per ATP hydrolyzed and an equilibrium potential near –420 mV at neutral external pH; under these conditions, the pump accounted for approximately 60–75% of the total membrane conductance nearV _m. Complementary results were obtained also in fitting previously publishedI-V data gathered over the external pH range 4.5–7.5 Kinetic features deduced for the pump were dominated by a slow step preceding H⁺ unloading outside, and by recycling and loading steps on the inside which were in rapid equilibrium. These characteristics predict, in marked contrast to the situation forNeurospora, that cytoplasmic acid loads inChara should shift the pumpI-V curve negative-going along the voltage axis with little change in maximum current output at positive voltages.     

Effects of glycine on dark-and ligh-induced pulvinar movements and modifications of proton fluxes in the pulvinus of Mimosa pudica during glycine uptake

Glycine (1–50 mM) increases the rate of the dark-induced (scotonastic) movements and decreases the amplitude and the rate of the light-induced (photonastic) movements of the secondary pulvini of Mimosa pudica leaves. The uptake of glycine is accompanied by a long-lasting dose-dependent increase in the alkalinity of the bathing medium of the excised pulvini. The data are in agreement with a H⁺-glycine co-transport mechanism within the pulvinar cells. Fusicoccin (50 M), known to promote H⁺–K⁺ exchange, antagonizes the effects of glycine on the movements and the alkalization of the bathing medium of the excised pulvini. The present results argue for the hypothesis that proton fluxes mediate the scotonastic and photonastic pulvinar movements.Abbreviations Gly glycine - FC fusicoccin - P₁ primary pulvinus - P₂ secondary pulvinus     

Ion fluxes inAcetabularia: Vesicular shuttle

Summary Ion flux relations in the unicellular marine algaAcetabularia have been investigated by uptake and washout kinetics of radioactive tracers (²²Na⁺,⁴²K⁺,³⁶Cl^– and⁸⁶Rb⁺) in normal cells and in cell segments with altered compartmentation (depleted of vacuole or of cytoplasm). Some flux experiments were supplemented by simultaneous electrophysiological recordings. The main results and conclusions about the steady-state relations are: the plasmalemma is the dominating barrier for translocation of K⁺ with influx and efflux of about 100 nmol·m^–2·sec^–1×K⁺ passes three- to sevenfold more easily than Rb⁺ does. Under normal conditions, Cl^– (the substrate of the electrogenic pump, which dominates the electrical properties of the plasmalemma in the resting state) shows two efflux components of about 17 and 2 mol·m^–2·sec^–1, and a cytoplasmic as well as vacuolar [Cl^–] of about 420mm ([Cl^–] _o =529mm). At 4°C, when the pump is inhibited, both influx and efflux, as well as the cellular [Cl^–], are significantly reduced. Na⁺ ([Na⁺] _i : about 70mm, [Na⁺] _o : 461mm), which is of minor electrophysiological relevance compared to K⁺, exhibits rapid and virtually temperature-insensitive (electroneutral) exchange (two components with about 2 and 0.2 mol·m^–2·sec^–1 for influx and efflux). Some results with Na⁺ and Cl^– are inconsistent with conventional (noncyclic) compartmentation models: (i) equilibration of the vacuole (with the external medium) can be faster than equilibration of the cytoplasm, (ii) absurd concentration values result when calculated by conventional compartmental analysis, and (iii) large amounts of ions can be released from the cell without changes in the electrical potential of the cytoplasm. These observations can be explained by the particular compartmentation of normalAcetabularia cells (as known by electron micrographs) with about 1 part cytoplasm, 5 parts central vacuole, and 5 parts vacuolar vesicles. These vesicles communicate directly with the central vacuole, with the cytoplasm and with the external medium.     

Evidence for the acid-growth theory of fusicoccin action

Three predictions of the acid-growth theory of fusicoccin (FC) action in inducing cell elongation were reinvestigated using abraded segments of maize (Zea mays L.) coleoptiles. i) Quantitative comparison of segment elongation and medium-acidification kinetics measured in the same sample of tissue shows that these FC-induced processes are strictly correlated in time and respond coordinately to cations present in the medium. ii) Fusicoccin (1 mol l^-1) induces a rapid acidification of the cell-wall solution, reaching a final level of pH 3.8–4.0. Exogenous protons are able to substitute quantitatively for FC in causing segment elongation at pH 3.8–4.0. At pH 4, FC has no additional effect on cell elongation. iii) Neutral buffers (pH 7) completely abolish the FC-mediated growth response. iv) Cycloheximide (10 mg l^-1) inhibits both FC-induced and acid-buffer(pH 4)-induced elongation after a lag of 40–45 min, and FC-induced H⁺ excretion after a lag of 2 h. Under the same conditions, indole-3-acetic acid-induced elongation and H⁺ excretion are inhibited without detectable lag. It is concluded that these results are fully compatible with the acid-growth theory of FC action.Abbreviations IAA indole-3-acetic acid - CHI cycloheximide - FC fusicoccin     

Fusicoccin action in cell-suspension cultures of Corydalis sempervirens Pers.

Mid-log-phase cell suspensions of Corydalis sempervirens Pers., when incubated in micromolar or submicromolar concentrations of fusicoccin, strongly acidified the culture medium. High-affinity fusicoccin-binding sites were found in microsomes prepared from these cells using the radioligand [³H]-9-norfusicoccin-8-alcohol. Binding was saturable with an apparent dissociation constant (K _d) of 2.8 nM, a pH optimum of 6.0, a temperature optimum of 35° C and was rapid (t_1/2 = 8 min). The site abundance was 0.76±0.17 pmol · (mg of protein)^–1. In the same membrane preparations, the K⁺, Mg²⁺-ATPase (EC 3.6.1.3) was characterized. The enzyme was highly vanadate-sensitive (IC₅₀=6.5 M) and nucleotide-specific (ATPNTP), had a pH optimum of 6.2, an apparent K _m for ATP of 0.23±0.12 mM, and V _max of 10.6±1.8 nkat (mg of protein)^–1. Fusicoccin doubled V _max and lowered, by a factor of 2, the apparent K _m for ATP of the enzyme when the cells were incubated with the toxin for 30 min prior to homogenization of the cells. The stimulation of the enzyme was also pronounced when fusicoccin was added to the homogenization medium just prior to homogenization of the cells, but was slight to zero when the toxin was added at the microsomal stage. The pronounced stimulatory effect of fusicoccin on the ATPase was seen at pH 7.1, i.e. at a pH typical for the cytoplasmic compartment, but was not detectable at pH 6.2, the pH optimum of the enzyme. The implications of these findings for an understanding of fusicoccin action are discussed.Abbreviations [³H]ABE-FC 9-nor-8-(4-azido-3,5-[³H]-benzoyl-diaminoethyl)-fusicoccin - FC fusicoccin - FCol 9-norfusicoc-cin-8-alcohol - Mes 2(N-morpholino)ethanesulfonic acid This work was supported by the Deutsche Forschungsgemeinschaft, Bonn, FRG and the Fonds der Chemischen Industrie, Frankfurt, FRG (literature provision).     

Proton translocation in corn coleoptiles: ATPase or redox chain?

The O₂ dependence of net H⁺ efflux of maize coleoptiles has been investigated. Below 100 M O₂, H⁺ efflux in young (1 cm long) coleoptiles is markedly decreased while old (7 cm long) coleoptiles show a decline only at 10 M O₂. Old coleoptiles show the same decrease in net H⁺ efflux as young ones if treated with fusicoccin. The ratio of alteration of CO₂ production to the change in net proton efflux is about 1:1 at 40–80 M O₂ but not at 10 M O₂. An influx can be observed at 10 M O₂ in young as well as in old coleoptiles if the H⁺ concentration is held at values below pH 6.5. Lower O₂ concentrations lead to an increase of net H⁺ efflux, which might be caused by leaching of organic acids resulting from anaerobic processes, but CO₂ production is not significantly changed at these values. It is proposed that more than one system is responsible for proton translocation across the plasmalemma. One of the systems has a high sensitivity to reduced O₂ concentration which is within the same range as the high K_m of the alternative path.Abbreviation FC fusicoccin     

Inhibition of elongation and H+ and K+ transport by the phosphodiesterase inhibitor aminophylline in plant tissue

Aminophylline, an inhibitor of cyclic nucleotide phosphodiesterase (EC 3.1.4.17), inhibits elongation and correlated H⁺ and K⁺ transport in embryos of Haplopappus gracilis and in pea internode segments. Moreover, the drug strongly inhibits the stimulation of these processes by fusicoccin and indole-3-acetic acid and reduces passive permeability of the membrane. The possible mechanisms of action of aminophylline are discussed.Abbreviations cAMP adenosine 3:5-cyclic monophosphate - FC fusicoccin - IAA indole-3-acetic acid - MES 2-N-morpholinoethanesulfonic acid - PDE cyclic nucleotide phosphodiesterase     

Subthreshold changes in excitable membranes of Cucurbits pepo L. stem cells during cooling-induced action-potential generation

The nature of subthreshold changes in excitable plasma membranes has been investigated in stem parenchyma cells of Cucurbita pepo L. during action-potential generation induced by gradual cooling (from 23 to 10 ° C). The character of the subthreshold depolarization of excitable cells is shown to be mainly defined by a decrease in the activity of the plasma-membrane electrogenie pump (H⁺-ATPase). In its turn, the pump activity is controlled by thermal changes in the structure of the membrane lipid matrix. Based on the results obtained, a sequence of subthreshold changes has been suggested in which thermally induced structural rearrangements of membrane lipids play the role of trigger.Abbreviations AP action potential - DCCD N,N-dicyclohexil-carbodiimide - E_m membrane potential - I_e/I_m ratio of pyrene excimer/monomer fluorescence intensities     

Electrical characteristics of stomatal guard cells: The ionic basis of the membrane potential and the consequence of potassium chlorides leakage from microelectrodes

The membrane electrical characteristics of stomatal guard cells in epidermal strips from Vicia faba L. and Commelina communis L. were explored using conventional electrophysiological methods, but with double-barrelled microelectrodes containing dilute electrolyte solutions. When electrodes were filled with the customary 1–3 M KCl solutions, membrane potentials and resistances were low, typically decaying over 2–5 min to near-30 mV and <0.2 k·cm² in cells bathed in 0.1 mM KCl and 1 mM Ca²⁺, pH 7.4. By contrast, cells impaled with electrodes containing 50 or 200 mM K⁺-acetate gave values of-182±7 mV and 16±2 k·cm² (input resistances 0.8–3.1 G, n=54). Potentials as high as (-) 282 mV (inside negative) were recorded, and impalement were held for up to 2 h without appreciable decline in either membrane parameter. Comparison of results obtained with several electrolytes indicated that Cl^- leakage from the microelectrode was primarily responsible for the decline in potential and resistance recorded with the molar KCl electrolytes. Guard cells loaded with salt from the electrodes also acquired marked potential and conductance responses to external Ca²⁺, which are tentatively ascribed to a K⁺ conductance (channel) at the guard cell plasma membrane.Measurements using dilute K⁺-acetate-filled electrodes revealed, in the guard cells, electrical properties common to plant and fungal cell membranes. The cells showed a high selectivity for K⁺ over Na⁺ (permeability ratio P_Na/P_K=0.006) and a near-Nernstian potential response to external pH over the range 4.5–7.4 (apparent P_H/P_K=500–600). Little response to external Ca²⁺ was observed, and the cells were virtually insensitive to CO₂. These results are discussed in the context of primary, charge-carrying transport at the guard cell plasma membrane, and with reference to possible mechanisms for K⁺ transport during stomatal movements. They discount previous notions of Ca²⁺-and CO₂-mediated transport control. It is argued, also, that passive (diffusional) mechanisms are unlikely to contribute to K⁺ uptake during stomatal opening, despite membrane potentials which, under certain, well-defined conditions, lie negative of the potassium equilibrium potential likely prevailing.Abbreviations and symbols EGTA ethylene glycol-bis(-aminoethyl ether)-N,N,N,N-tetraacetic acid - Hepes 4-(2-hydroxyethyl)-1-piperazineethanesulfonic acid - Mes 2-(N-morpholino) propanesulfornic acid - E equilibrium potential - G_m membrane conductance - R_in input resistance - V_m membrane potential     

Energetics of threonine uptake by pod wall tissues of Vicia faba L.

Kjeldahl assays showed that the pod wall of Vicia faba fruits behaves as a transitory reservoir of nitrogen. We have studied the properties and energetics of amino-acid uptake during the accumulating stage of pod wall development. A comparative analysis using various inhibitors or activators of the proton pump has been carried out i) on threonine uptake, ii) on the acidifying activity of the tissues, and iii) on the transmembrane potential difference of mesocarp cells. Except for the effect of dicyclohexylcarbodiimide which could not be satisfactorily explained, all other results obtained with ATPase inhibitors, uncouplers and fusicoccin were consistent with the view of a transport energized by the proton-motive force. Adding threonine to a medium containing fragments of pericarp or of endocarp induced a pH change (to-wards more alkaline values) of the medium and a membrane depolarization of the storage cells which depended on the amino-acid concentration added. These data indicate H⁺-threonine cotransport in the pod wall of broad bean. Moreover, because p-chloromercuribenzenesulphonic acid inhibits threonine uptake without affecting the transmembrane potential difference, it is concluded that the threonine carrier possesses a functional SH-group located at the external side of the plasmalemma.Abbreviations CCCP carbonylcyanide- m-chlorophenylhydrazone - DCCD N,N-dicyclohexylcarbodiimide - DES diethylstilbestrol - DNP 2,4-dinitrophenol - FC fusicoccin - PCMBS p-chloromercuribenzenesulphonic acid - PD potential difference     

Movement and compartmentation of abscisic acid in guard cells of Valerianella locusta: Effects of osmotic stress,external H+-concentration and fusicoccin

Epidermal peels of Valerianella locusta were acid-treated for 1 h at pH 3.9 to kill all cells other than guard cells. These guard-cell preparations were used to explore the steady-state one-way fluxes and the cytoplasmic and vacuolar contents of abscisic acid (ABA). The method of compartmental analysis has been applied. The intracellular ABA concentrations were surprisingly high. At an external pH of 5.8 the cytoplasm contained 1.28 mmol·dm^-3 of ABA, twice of the amount which accumulated in the vacuoles (0.57 mmol·dm^-3). The fluxes of ABA at the plasmalemma (_oc=_oc=0.43 fmol · cell ^–1 · h ^–1) were higher than those at the tonoplast (_cv=_vc=0.12 fmol · cell ^–1 · h ^–1). Moderate stress (0.1 and 0.3 mol·dm^-3 sorbitol in the medium) caused a change in the kinetics of ABA movement. The rate constants of the fluxes from the cytoplasm into the vacuole (_cv) and into the apoplast (_co) were increased while the rate constant of the flux from the vacuoles into the cytoplasm (_vc) was decreased. As a consequence the amount of ABA sequestered in the vacuole remained unchanged; the cytoplasmic ABA content, however, was reduced to only 20% of that found in the control treatments (no sorbitol in the medium). Under moderate stress, one Valerianella guard cell released rapidly about 0.36 fmol·cell^-1 to its direct cell-wall space. This surprising result is discussed in regard to rapid stomatal closure under reduced water supply.Abbreviations ABA abscisic acid - FC fusicoccin     

Extent of intracellular pH changes during H+ extrusion by maize root-tip cells

³¹P-Nuclear-magnetic-resonance spectra of maize (Zea mays L.) root tips, that had been induced to extrude large amounts of H⁺ in response to fusicoccin (FC) in the presence of potassium salts, indicate that the cytoplasmic pH does not become higher than that of controls. In fact, the cytoplasmic pH may become slightly (approx. 0.1 pH unit) lower in cells extruding H⁺. Estimations of the buffer capacity of the cells show that without active intracellular pH regulation, H⁺ extrusion caused by FC would cause the intracellular pH to rise by at least 0.6 pH unit h^-1. Our results indicate that intracellular pH is tightly regulated even during extreme rates of acid extrusion, and that a rise in cytoplasmic pH is not the signal linking H⁺ extrusion with enhanced organic-acid synthesis or other intracellular responses to H⁺ pumping.Abbreviations FC fusicoccin - P_i inorganic phosphate - NMR nuclear magnetic resonance - chemical shift - MDP methylene diphosphonic acid     

Monitoring of the mitochondrial and plasma membrane potentials in human fibroblasts by tetraphenylphosphonium ion distribution

The lipophilic cation tetraphenylphosphonium (TPP⁺) is accumulated by human skin fibroblasts across both the plasma and mitochondrial membranes. We show here that TPP⁺ uptake is indeed greatly decreased under conditions leading to de-energization of mitochondria. The TPP⁺ accumulation in the presence of the proton ionophore FCCP has been used for determination of the plasma membrane potential across the plasma membrane, after correction for potential-independent binding of TPP⁺ to cellular components. Following this procedure, a value of 75 mV has been obtained. Through the amount of TPP⁺ released by FCCP treatment, an estimate of thein situ mitochondrial membrane potential has been made. Furthermore, we report that the mitochondrial component of TPP⁺ accumulation decreases with aging of fibroblast cultures.Abbreviations _m membrane potential across thein situ mitochondria - _p membrane potential across the plasma membrane - TPP⁺ tetraphenylphosphonium - HEPES N-2-hydroxyethylpiperazineN-2-ethanesulfonic acid - FCCP carbonyl cyanidep-trifluoromethoxyphenylhydrazone     

The Na<Superscript>+</Superscript>-translocating ATPase in the plasma membrane of the marine microalga<Emphasis Type="Italic"> Tetraselmis viridis</Emphasis> catalyzes Na<Superscript>+</Superscript>/H<Superscript>+</Superscript> exchange

Our previous investigations have established that Na⁺ translocation across the Tetraselmis viridis plasma membrane (PM) mediated by the primary ATP-driven Na⁺-pump, Na⁺-ATPase, is accompanied by H⁺ counter-transport [Y.V. Balnokin et al. (1999) FEBS Lett 462:402–406]. The hypothesis that the Na⁺-ATPase of T. viridis operates as an Na⁺/H⁺ exchanger is tested in the present work. The study of Na⁺ and H⁺ transport in PM vesicles isolated from T. viridis demonstrated that the membrane-permeant anion NO₃^– caused (i) an increase in ATP-driven Na⁺ uptake by the vesicles, (ii) an increase in (Na⁺+ATP)-dependent vesicle lumen alkalization resulting from H⁺ efflux out of the vesicles and (iii) dissipation of electrical potential, , generated across the vesicle membrane by the Na⁺-ATPase. The (Na⁺+ATP)-dependent lumen alkalization was not significantly affected by valinomycin, addition of which in the presence of K⁺ abolished at the vesicle membrane. The fact that the Na⁺-ATPase-mediated alkalization of the vesicle lumen is sustained in the absence of the transmembrane is consistent with a primary role of the Na⁺-ATPase in driving H⁺ outside the vesicles. The findings allowed us to conclude that the Na⁺-ATPase of T. viridis directly performs an exchange of Na⁺ for H⁺. Since the Na⁺-ATPase generates electric potential across the vesicle membrane, the transport stoichiometry is mNa⁺/nH⁺, where m>n.Abbreviations BTP Bis-Tris-Propane, 1,3-bis[tris(hydroxymethyl)methylamino]-propane - CCCP Carbonyl cyanide m-chlorophenylhydrazone - DTT Dithiothreitol - NCDC 2-Nitro-4-carboxyphenyl N,N-diphenylcarbamate - PMSF Phenylmethylsulfonyl fluoride - PM Plasma membrane     

Isolation and biochemical characterization of fusicoccin-insensitive variant lines of Arabidopsis thaliana (L.) Heynh

Arabidopsis thaliana lines have been isolated that are insensitive to the fungal toxin fusicoccin (FC). Initial screening was done by selecting for plants that either grew well on high concentrations of FC or did not respond to FC by increases in H⁺-extrusion. All selected plants were tested, in several additional rounds of screening, for binding to microsomal proteins of a ³H-labeled radioligand of fusicoccin. A novel assay allowing for the direct selection of individual plants exhibiting reduced binding of FC was developed and used as screening procedure. Independent variant lines (43) with stably expressed, reduced binding of FC were isolated and subjected to a detailed characterization of their binding sites. The lines could be subdivided into several distinct classes with respect to these characteristics. In class-I lines, the data indicate a partial conversion of high-affinity binding sites to a low-affinity state. In class-II lines, the affinity of the binding site to FC is strongly reduced while the number of sites, as well as several other biochemical parameters, is completely unchanged, suggesting a specific alteration in the properties of the fusicoccin-binding protein. In class-III lines, the ligand-binding protein complex, while retaining its high affinity, is destabilized at supraoptimal concentrations of FC (such as those used for screening). In wild-type plants, only the high-affinity binding site was detected. Combined, these data prove that the high-affinity sites represent the plant's FC receptor.Abbreviations A_o binding site concentration - FC fusicoccin - FCBP fusicoccin-binding protein - FCol 9-nor-8-hydroxyfusicoccin - K_D dissociation constant of the FCBP-radioligand complex We are grateful to Iris Sandorf and Gudrun Henrichs for excellent technical assistance. This work was supported by the Deutsche Forschungsgemeinschaft, Bonn, Germany and by Fonds der Chemischen Industrie (literature provision).     

Mechanism of arginine transport in Chlorella

The incubation of Chlorella cells with glucose causes the induction of an uptake system, which is specific for the basic amino acids arginine and lysine. Both amino acids are taken up in the positively charged form and with high affinity (K _m values 2 M and 7 M, respectively). The transport of arginine depolarizes the membrane by 20–30 mV. The charge compensation is achieved within a few seconds after arginine addition by the proton pump, later on K⁺ efflux serves for charge compensation. No evidence for arginine-proton symport was found, neither by inhibitor studies nor by use of other Chlorella strains which have a slower-responding proton pump. The accumulation of arginine is appreciably higher than it should be according to the thermodynamic force of the membrane potential. There is, however, some evidence that a large proportion of arginine is trapped by intracellular compartments and is therefore not in equilibrium with the outside arginine.Abbreviations DCCD N,N-dicyclohexylcarbodiimide - FCCP p-trifluoromethoxycarbonylcyanide phenylhydrazone     

The role of acidification in gibberellic acid- and fusicoccin-induced elongation growth of lettuce hypocotyl sections

The roles of gibberellic acid (GA₃) and fusicoccin (FC) in the elongation growth and acidification of the medium by excised hypocotyl sections of lettuce (Lactuca sativa L.) were investigated. Hypocotyl sections incubated in buffer without GA₃ elongate optimally at pH 4.0–4.25 while sections incubated with GA₃ show the same growth between pH 4.25 and 6.0. Preincubation of sections at pH 6.0 for 6 h does not affect the subsequent elongation response to acidic medium (pH 4.25); however, the sections become refractory to further acid treatment after their initial burst of growth in response to pH 4.25. Sections made refractory to acid are responsive to GA₃ application, however, and the rate of growth in response to GA₃ of sections pretreated for 6 h at pH 4.25 is 85% of that of sections pretreated at pH 6.0. Although preincubation of sections for 48 h in medium at pH 6.0 abolishes the GA₃ response, it does not affect the response to buffer at pH 4.25. FC stimulates elongation growth in letuce hypocotyls at an optimal concentration of 1 M, and pretreatment of sections at pH 4.25 does not affect this elongation response. Although both GA₃ and FC increase elongation of the section, neither causes appreciable acidification of the medium. Addition of KCl or NaCl to FC-treated sections causes rapid medium acidification but addition of salts to GA₃-treated tissue does not cause acidification. Abrasion of the hypocotyl to remove the cuticle does not enhance acidification of the medium by the sections nor deos it affect elongation of the sections in response to GA₃ or FC. Medium acidification by the sections is not a passive process since it is abolished both by low temperature (2° C) and metabolic inhibitors (carbonyl cyanide-m-chlorophenyl-hydrazone, azide). The acidification of the medium by barley (Hordeum vulgare L.) roots in response to FC is also dependent on the presence of KCl. We conclude that the acid-growth hypothesis does not explain GA₃- or FC-induced elongation in lettuce hypocotyls.Abbreviations FC tusicoccin - GA₃ gibberellic acid - HEPES N-2-hydroxyethylpiperazine-N-2-ethanesulfonic acid - CCCP carbonyl cyanide-m-chlorophenyl-hydrazone - MES 2-(N-morpholino)ethanesulphonic acid - Tris tris-(hydroxymethyl)aminomethane