The role of the epidermis in auxin-induced and fusicoccin-induced elongation of Pisum sativum stem segments

The effects of peeling and wounding on the indole-3-acetic acid (IAA) and fusicoccin (FC) growth response of etiolated Pisum sativum L. cv. Alaska stem tissue were examined. Over a 5 h growth period, peeling was found to virtually eliminate the IAA response, but about 30% of the FC response remained. In contrast, unpeeled segments wounded with six vertical slits exhibited significant responses to both IAA and FC, indicating that peeling does not act by damaging the tissue. Microscopy showed that the epidermis was removed intact and that the underlying tissue was essentially undamaged. Neither the addition of 2% sucrose to the incubation medium nor the use of a range of IAA concentrations down to 10^-8 M restored IAA-induced growth in peeled segments, suggesting that lack of osmotic solutes and supra-optimal uptake of IAA were not important factors over this time period. It is concluded that, although the possibility remains that peeling merely allows leakage of hydrogen ions into the medium, it seems more likely that peeling off the epidermis removes the auxin responsive tissue.Abbreviations IAA indole-3-acetic acid - FC fusicoccin     

Reactivation of Cytoplasmic Streaming in a Tonoplast-Permeabilized Cell Model of Acetabularia

To find whether cytoplasmic streaming in Acetabularia is controlledby Ca²⁺, a tonoplast-permeabilized cell model was prepared usinga vacuolar perfusion technique. The cytoplasmic streaming remainedalmost normal after perfusion with EGTA medium (10 mM EGTA,40 mM PIPES, 5mM MgCl₂ and 800 mM sorbitol, pH 6.9), but stoppedwithin 10 min when saponin medium (EGTA medium plus 50 µg/mlsaponin, 50 µg/ml hexokinase and 5 mM glucose) was perfused.This model system was reactivated with a solution containing0.5 mM ATP and different concentrations of Ca²⁺ (reactivationmedium). With the reactivation medium at pCa 6–5, theresumed streaming lasted for about 10 min before the cytoplasmaggregated. At pCa 4–3, the streaming was observed onlyfor a few minutes because the cytoplasm aggregated quickly.At pCa 7, no reactivated movement was observed. Reactivationwas not induced in an ATP- or Mg²⁺-deficient medium even inthe presence of an adequate concentration of Ca²⁺, and was inhibitedby 50 µg/ml cytochalasin B or 1 mM N-ethylmaleimide. We concluded from these observations that the cytoplasmic streamingin Acetabularia is very likely to be driven by the actomyosinsystem in the presence of Mg-ATP and Ca²⁺ at pCa 6–5. (Received October 31, 1984; Accepted April 1, 1985)     

Tonoplast Action Potential of Characeae

The plasmalemma action potential was found to be indispensableto the production of the tonoplast action potential. In a solutionlacking Ca²⁺ and containing other divalent cations such as Ba²⁺,Mg²⁺ or Mn²⁺, the plasmalemma excited in Nitella but did notin Chara. In Nitella, however, both the tonoplast action potentialand EC-coupling were abolished due to depletion of Ca²⁺ fromthe external medium. Ca²⁺ ions injected into the cytoplasmiclayer caused a transient change in both plasmalemma and tonoplastpotentials. These results suggest that a transient rise in Ca²⁺concentration during excitation of the plasmalemma may triggerthe tonoplast action potential. (Received February 14, 1986; Accepted August 29, 1986)     

Effects of ATP, Mg2+, and redox agents on the Ca2+ dependence of RyR channels from rat brain cortex

Despite their relevance for neuronal Ca²⁺-induced Ca²⁺ release (CICR), activation by Ca²⁺ of ryanodine receptor (RyR) channels of brain endoplasmic reticulum at the [ATP], [Mg²⁺], and redox conditions present in neurons has not been reported. Here, we studied the effects of varying cis-(cytoplasmic) free ATP concentration ([ATP]), [Mg²⁺], and RyR redox state on the Ca²⁺ dependence of endoplasmic reticulum RyR channels from rat brain cortex. At pCa 4.9 and 0.5 mM adenylylimidodiphosphate (AMP-PNP), increasing free [Mg²⁺] up to 1 mM inhibited vesicular [³H]ryanodine binding; incubation with thimerosal or dithiothreitol decreased or enhanced Mg²⁺ inhibition, respectively. Single RyR channels incorporated into lipid bilayers displayed three different Ca²⁺ dependencies, defined by low, moderate, or high maximal fractional open time (P_o), that depend on RyR redox state, as we have previously reported. In all cases, cis-ATP addition (3 mM) decreased threshold [Ca²⁺] for activation, increased maximal P_o, and shifted channel inhibition to higher [Ca²⁺]. Conversely, at pCa 4.5 and 3 mM ATP, increasing cis-[Mg²⁺] up to 1 mM inhibited low activity channels more than moderate activity channels but barely modified high activity channels. Addition of 0.5 mM free [ATP] plus 0.8 mM free [Mg²⁺] induced a right shift in Ca²⁺ dependence for all channels so that [Ca²⁺] <30 µM activated only high activity channels. These results strongly suggest that channel redox state determines RyR activation by Ca²⁺ at physiological [ATP] and [Mg²⁺]. If RyR behave similarly in living neurons, cellular redox state should affect RyR-mediated CICR. Ca²⁺-induced Ca²⁺ release; Ca²⁺ release channels; endoplasmic reticulum; thimerosal; 2,4-dithiothreitol; ryanodine receptor     

The role of intracellular pH in cell growth arrest induced by ATP

In this study, we investigated ionic mechanisms involved in growth arrest induced by extracellular ATP in androgen-independent prostate cancer cells. Extracellular ATP reversibly induced a rapid and sustained intracellular pH (pH_i) decrease from 7.41 to 7.11. Inhibition of Ca²⁺ influx, lowering extracellular Ca²⁺, and buffering cytoplasmic Ca²⁺ inhibited ATP-induced acidification, thereby demonstrating that acidification is a consequence of Ca²⁺ entry. We show that ATP induced reuptake of Ca²⁺ by the mitochondria and a transient depolarization of the inner mitochondrial membrane. ATP-induced acidification was reduced after the dissipation of the mitochondrial proton gradient by rotenone and carbonyl cyanide p-trifluoromethoxyphenylhydrazone, after inhibition of Ca²⁺ uptake into the mitochondria by ruthenium red, and after inhibition of the F₀F₁-ATPase with oligomycin. ATP-induced acidification was not induced by either stimulation of the Cl^–/HCO₃^– exchanger or inhibition of the Na⁺/H⁺ exchanger. In addition, intracellular acidification, induced by an ammonium prepulse method, reduced the amount of releasable Ca²⁺ from the endoplasmic reticulum, assessed by measuring change in cytosolic Ca²⁺ induced by thapsigargin or ATP in a Ca²⁺-free medium. This latter finding reveals cross talk between pH_i and Ca²⁺ homeostasis in which the Ca²⁺-induced intracellular acidification can in turn regulate the amount of Ca²⁺ that can be released from the endoplasmic reticulum. Furthermore, pH_i decrease was capable of reducing cell growth. Taken together, our results suggest that ATP-induced acidification in DU-145 cells results from specific effect of mitochondrial function and is one of the major mechanisms leading to growth arrest induced by ATP. prostate; cancer; acidification     

In squid nerves intracellular Mg(2+) promotes deactivation of the ATP-upregulated Na(+)/Ca(2+) exchanger

We investigated the role of intracellular Mg²⁺(Mg_i²⁺) on the ATP regulation ofNa⁺/Ca²⁺ exchanger in squid axons and bovineheart. In squid axons and nerve vesicles, the ATP-upregulated exchangerremains activated after removal of cytoplasmic Mg²⁺, evenin the absence of ATP. Rapid and complete deactivation of theATP-stimulated exchange occurs upon readmission ofMg_i²⁺. At constant ATP concentration, the effectof intracellular Mg²⁺ concentration([Mg²⁺]_i) on the ATP regulation of exchangeris biphasic: activation at low [Mg²⁺]_i,followed by deactivation as [Mg²⁺]_i isincreased. No correlation was found between the above results and thelevels of phosphatidylinositol 4-phosphate and phosphatidylinositol 4,5-bisphosphate [PtdIns(4,5)P₂] measured innerve membrane vesicles. Incorporation ofPtdIns(4,5)P₂ into membrane vesicles activates Na⁺/Ca²⁺ exchange in mammalian heart but not insquid nerve. Moreover, an exogenous phosphatase prevents MgATPactivation in squid nerves but not in mammalian heart. It is concludedthat 1) Mg_i²⁺ is an essentialcofactor for the deactivation part of ATP regulation of the exchangerand 2) the metabolic pathway of ATP upregulation of theNa⁺/Ca²⁺ exchanger is different in mammalianheart and squid nerves.

     

Effect of Fusicoccin on Adventitious Root Formation of Birch Shoot Tips (Betula pendula ROTH) Cultured in vitro

The effect of fusicoccin (FC) on adventitious root formationwas investigated using in vitro shoot tip cultures of birch(Betula pendula ROTH) as test system. Treatment with 10^–7–10^–5M FC hastened root appearance as well as 5 ? 10^–6 M IAAdid. Optimal FC concentrations also promoted rooting by increasingthe root number per cutting. FC application during the first48 hours of culture was enough to obtain these effects. Usinginternode segments without any bud it was shown that FC couldnot replace the root inducing activity of endogenous auxin asapplied IAA did, but FC lowered the threshold concentrationof IAA for rooting response and stimulated adventitious rootformation if it was applied with IAA simultanously. Root growthwas enhanced in the early phase but inhibited later by continuoustreatment with FC. Some aspects of possible FC IAA interactionsare discussed. (Received September 4, 1986; Accepted November 24, 1987)     

Studies on factors in sweet potato root which induce spore germination of Ceratocystis fimbriata

Spore germination of Ceratocystis fimbriata was studied in termsof host-parasite specificity. The sweet potato, coffee and cacaostrains of Ceratocystis fimbriata germinated well in a fractionof sweet potato root water extract which had been passed througha column of cation exchange resin. The results showed that germinationof these strains was independent of exogenous cations. On theother hand, the prune, oak, taro and almond strains requiredfor germination both the absorbed and unabsorbed fractions ofsweet potato root water extract which were separated from eachother with a cation exchange resin column. Divalent cationssuch as Ca²⁺ Mg²⁺, Mn²⁺ and Zn²⁺ were identified as the activeprinciples in the absorbed fraction and Ca²⁺ showed the highestinductive activity for spore germination in the presence ofthe unabsorbed fraction. The active principle(s) in the unabsorbedfraction has not yet been identified. There was no relationshipbetween the Ca²⁺ and Mg²⁺ contents of the spores and the requirementof exogenous Ca²⁺ for germination. Ca²⁺ appeared to functionas a trigger of spore germination, not as a normal nutrient.These results suggest that the divalent cations such as Ca²⁺and Mg²⁺ in sweet potato contribute to the establishment ofhost-parasite specificity of this system. (Received August 10, 1977; )     

Role of aspartate residues in Ca(2+) affinity and permeation of the distal ECaC1

The Ca²⁺ affinity andpermeation of the epithelial Ca²⁺ channel (ECaC1) wereinvestigated after expression in Xenopus oocytes. ECaC1displayed anomalous mole-fraction effects. Extracellular Ca²⁺ and Mg²⁺ reversibly inhibited ECaC1 wholecell Li⁺ currents: IC₅₀ = 2.2 ± 0.4 µM (n = 9) and 235 ± 35 µM (n = 10), respectively. These values compare well with theCa²⁺ affinity of the L-type voltage-gated Ca²⁺(Ca_V1.2) channel measured under the same conditions,suggesting that high-affinity Ca²⁺ binding is awell-conserved feature of epithelial and voltage-gated Ca²⁺channels. Neutralization of D550 and E535 in the pore region had nosignificant effect on Ca²⁺ and Mg²⁺ affinities.In contrast, neutralization of D542 significantly decreasedCa²⁺ affinity (IC₅₀ = 1.1 ± 0.2 mM,n = 6) and Mg²⁺ affinity(IC₅₀ > 25 ± 3 mM, n = 4).Despite a 1,000-fold decrease in Ca²⁺ affinity in D542N,Ca²⁺ permeation properties and theCa²⁺-to-Ba²⁺ conductance ratio remainedcomparable to values for wild-type ECaC1. Together, our observationssuggest that D542 plays a critical role in Ca²⁺ affinitybut not in Ca²⁺ permeation in ECaC1.

     

Modulation of Ca2+-gated cardiac muscle Ca2+-release channel (ryanodine receptor) by mono- and divalent ions

The effects of mono- and divalent ions onCa²⁺-gated cardiac muscleCa²⁺-release channel (ryanodinereceptor) activity were examined in [³H]ryanodine-bindingmeasurements. Ca²⁺ bound with thehighest apparent affinity to Ca²⁺activation sites in choline chloride medium, followed by KCl, CsCl,NaCl, and LiCl media. The apparentCa²⁺ binding affinities ofCa²⁺ inactivation sites were lowerin choline chloride and CsCl media than in LiCl, NaCl, and KCl media.Sr²⁺ activated the ryanodinereceptor with a lower efficacy thanCa²⁺. Competition studiesindicated that Li⁺,K⁺,Mg²⁺, andBa²⁺ compete withCa²⁺ forCa²⁺ activation sites. In 0.125 MKCl medium, the Ca²⁺ dependence of[³H]ryanodine bindingwas modified by 5 mM Mg²⁺ and 5 mM,-methyleneadenosine 5'-triphosphate (a nonhydrolyzable ATPanalog). The addition of 5 mM glutathione was without appreciable effect. Substitution of Clby 2-(N-morpholino)ethanesulfonic acid ion caused anincrease in the apparent Ca²⁺affinity of the Ca²⁺ inactivationsites, whereas an increase in KCl concentration had the oppositeeffect. These results suggest that cardiac muscle ryanodine receptoractivity may be regulated by 1)competitive binding of mono- and divalent cations toCa²⁺ activation sites,2) binding of monovalent cations toCa²⁺ inactivation sites, and3) binding of anions to anionregulatory sites.

     

Cell Wall Acidification and its Role in Auxin-Stimulated Growth

The role of cell wall acidification in auxin-stimulated growthwas examined in abraded hypocotyl segments of etiolated Cucumis.sativus seedlings. Acidification of the medium by these segmentswas strongly inhibited by a pretreatment and the continued presenceof 1?0 mol m^–3 vanadate, widely used as an inhibitor ofplasma membrane ATPase activity. Elongation of segments in pH6?5 buffer was almost completely inhibited by such a treatmentwith vanadate, and the promotion of growth by indole-3-aceticacid (IAA) seen in the absence of vanadate was completely abolished.However, both inhibited and uninhibited segments showed a pronouncedelongation in response to pH 4?0) buffer. In pH 4?0 buffer,in contrast to the results obtained at pH 6?5, IAA significantlypromoted growth in both the presence and absence of vanadate.The results indicate that IAA can promote growth in the absenceof endogenous acidification, but that an acid wall is necessaryfor wall loosening to occur. Key words: Acidification, auxin-stimulated growth, Cucumis sativus, vanadate     

Matrix free Mg2+ and the regulation of mitochondrial volume

Mitochondria must maintain volume homeostasis inorder to carry out oxidative phosphorylation. It has been postulatedthat the concentration of freeMg²⁺([Mg²⁺]) serves as thesensor of matrix volume and regulates aK⁺-extrudingK⁺/H⁺antiport (K. D. Garlid. J. Biol. Chem.255: 11273-11279, 1980). To test this hypothesis, the fluorescentprobe furaptra was used to monitor[Mg²⁺] and freeCa²⁺ concentration ([Ca²⁺]) in the matrix ofisolated beef heart mitochondria, andK⁺/H⁺antiport activity was measured by passive swelling in potassium acetate. Concentrations that result in 50% inhibition of maximum activity of 92 µM matrix [Mg²⁺] and 2.2 µM[Ca²⁺] were determined for theK⁺/H⁺ antiport. Untreated mitochondria average670 µM matrix [Mg²⁺], a value that would permit <1%of maximumK⁺/H⁺antiport activity. Hypotonic swelling results in large decreases inmatrix [Mg²⁺], butswelling due to accumulation of acetate salts does not alter[Mg²⁺]. Swelling inphosphate salts decreases matrix[Mg²⁺], but not tolevels that permit appreciable antiport activity. We conclude that1) it is unlikely that matrix[Mg²⁺] serves as themitochondrial volume sensor, 2) ifK⁺/H⁺antiport functions as a volume control transporter, it is probably regulated by factors other than[Mg²⁺], and3) alternative mechanisms formitochondrial volume control should be considered.

     

Repression of the K+ Uptake and Cation-Stimulated ATPase Activity Associated with the Plasma Membrane-Enriched Fraction of Cucumber Roots Due to Ca2+ Starvation

The uptake of K⁺ by cucumber plants decreased markedly duringCa²⁺ starvation. A plasma membrane-enriched fraction, judgedfrom the distribution of marker enzymes, was prepared from controland Ca²⁺-starved roots. The Mg²⁺- and K⁺-Mg²⁺-ATPase activitiesassociated with the plasma membrane-enriched fraction of controlroots were maxima at pH 6.5. Various monovalent cations andpotassium salts of monovalent anions stimulated Mg²⁺-ATPaseactivity. Vanadate, DES and DCCD inhibited K⁺- Mg²⁺-ATPase activity.Of the divalent cations and phosphate esters tested, Mg²⁺ andATP were most effective for the stimulation of ATPase by K⁺,whereas Ca²⁺ was ineffective in replacing Mg²⁺. Mg²⁺- and K⁺-Mg²⁺-ATPase activities associated with the plasmamembrane enriched fraction of Ca²⁺-starved roots were much lowerthan those of control roots. K_m values of K⁺-Mg²⁺-ATPase forATP were comparable for control and Ca²⁺-starved roots. The K⁺-stimulated activity of Mg²⁺-ATPase in Ca²⁺-starved rootswas approximately one fourth that of the control, whereas therate of stimulation was only slightly lower in Ca²⁺-starvedroots. (Received May 9, 1984; Accepted September 17, 1984)     

Differing temporal roles of Ca2+ and cAMP in nicotine-elicited elevation of tyrosine hydroxylase mRNA

The involvement of cAMP- andCa²⁺-mediated pathways in theactivation of tyrosine hydroxylase (TH) gene expression by nicotine wasexamined in PC-12 cells. ExtracellularCa²⁺ and elevations inintracellular Ca²⁺ concentration([Ca²⁺]_i)were required for nicotine to increase TH mRNA. The nicotine-elicited rapid rise in[Ca²⁺]_iwas inhibited by blockers of either L-type or N-type, and to a lesserextent P/Q-, but not T-type, voltage-gatedCa²⁺ channels. With continualnicotine treatment,[Ca²⁺]_ireturned to basal levels within 3-4 min. After a lag of~5-10 min, there was a smaller elevation in[Ca²⁺]_ithat persisted for 6 h and displayed different responsiveness toCa²⁺ channel blockers. This secondphase of elevated[Ca²⁺]_iwas blocked by an inhibitor of store-operatedCa²⁺ channels, consistent with theobserved generation of inositol trisphosphate.1,2-Bis(2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid-AM (BAPTA-AM), when added before or 2 h after nicotine,prevented elevation of TH mRNA. Nicotine treatment significantly raised cAMP levels. Addition of the adenylyl cyclase inhibitor2',5'-dideoxyadenosine (DDA) prevented thenicotine-elicited phosphorylation of cAMP response element bindingprotein. DDA also blocked the elevation of TH mRNA only when addedafter the initial transient rise in [Ca²⁺]_iand not after 1 h. This study reveals that several temporal phases areinvolved in the induction of TH gene expression by nicotine, each ofthem with differing requirements forCa²⁺ and cAMP.

     

Channel phosphorylation and modulation of L-type Ca2+ currents by cytosolic Mg2+ concentration

Previous studies have shown that inhibition of L-type Ca²⁺ current (I_Ca) by cytosolic free Mg²⁺ concentration ([Mg²⁺]_i) is profoundly affected by activation of cAMP-dependent protein kinase pathways. To investigate the mechanism underlying this counterregulation of I_Ca, rat cardiac myocytes and tsA201 cells expressing L-type Ca²⁺ channels were whole cell voltage-clamped with patch pipettes in which [Mg²⁺] ([Mg²⁺]_p) was buffered by citrate and ATP. In tsA201 cells expressing wild-type Ca²⁺ channels (_1C/_2A/₂), increasing [Mg²⁺]_p from 0.2 mM to 1.8 mM decreased peak I_Ca by 76 ± 4.5% (n = 7). Mg²⁺-dependent modulation of I_Ca was also observed in cells loaded with ATP--S. With 0.2 mM [Mg²⁺]_p, manipulating phosphorylation conditions by pipette application of protein kinase A (PKA) or phosphatase 2A (PP_2A) produced large changes in I_Ca amplitude; however, with 1.8 mM [Mg²⁺]_p, these same manipulations had no significant effect on I_Ca. With mutant channels lacking principal PKA phosphorylation sites (_1C/S1928A/_{2A/S478A/S479A}/₂), increasing [Mg²⁺]_p had only small effects on I_Ca. However, when channel open probability was increased by _1C-subunit truncation (_1C1905/_{2A/S478A/S479A}/₂), increasing [Mg²⁺]_p greatly reduced peak I_Ca. Correspondingly, in myocytes voltage-clamped with pipette PP_2A to minimize channel phosphorylation, increasing [Mg²⁺]_p produced a much larger reduction in I_Ca when channel opening was promoted with BAY K8644. These data suggest that, around its physiological concentration range, cytosolic Mg²⁺ modulates the extent to which channel phosphorylation regulates I_Ca. This modulation does not necessarily involve changes in channel phosphorylation per se, but more generally appears to depend on the kinetics of gating induced by channel phosphorylation. voltage-gated Ca²⁺ channel; cardiac myocytes; human embryonic kidney cells; protein kinase A; protein phosphatase 2A     

The concentration of selected cations in normal and crown-gall tumors obtained from potato discs

Crown-gall tumor tissue obtained from potato discs inoculatedwith virulent strains of Agrobacterium tumefadens containedhigher concentrations of K⁺, Mg²⁺ and Ca²⁺ than the correspondingnormal tissue. These tumors also contained higher concentrationsof these cations than normal tissue inoculated with an avirulentstrain of Agrobacterium tumefadens, or than normal tissue adjacentto the crown-gall tumors on the same potato disc. The concentrationof these cations remained significantly higher than controltissue regardless of the tumor age. 2,4-Dinitrophenol and myo-inositol,while affecting the concentration of Ca²⁺ in these tissues,had no effect on the Mg²⁺ and K⁺ concentrations. These resultssuggest increased concentrations of certain cations may be aspecific property of crown-gall tumors. (Received August 16, 1978; )     

Effects of Ca2+ and Mg2+ on Elongation and H+ Secretion of Vigna radiata Hypocotyl Sections

The effects exerted by divalent cations Ca²⁺ and Mg²⁺ on spontaneous,IAA- and H⁺-induced elongation were investigated with excisedmung bean hypocotyl segments. Low concentrations of calcium(<1 mM) were sufficient to inhibit spontaneous and IAA-inducedelongation of abraded segments without any lag time whereaseffects of magnesium were not so evident. The initial growthrate could be restored, at least partly, with EDTA or acidicsolutions. Both calcium and magnesium enhanced H⁺ excretionbut Mg²⁺ was a more potent activator. Divalent cations alsoinduced simultaneously an inhibition of growth and a stimulationof proton release. Such contrasting effects are discussed withrespect to the functions of the cuticle. (Received May 1, 1984; Accepted September 10, 1984)     

Effect of Divalent Cations on Na+ Permeability of Chara corallina and Freshwater Grown Chara buckellii

The effect of elevated Na⁺ concentration on Na⁺ permeability(P_Na) and Na⁺ influx in the presence of two levels of externaldivalent cations was determined in Chara corallina and freshwater-culturedChara buckellii. When Na⁺ in the medium was increased from 1.0to 70 mol m^–3, Na⁺ influx increased in both species ifCa²⁺ was low (0.1 mol m–3). If Ca²⁺ was increased to 7.0mol m^–3 when Na⁺ was increased, Na⁺ influx remained atthe low control level in C. corallina, and showed only a temporaryincrease in C. buckellii. Mg²⁺ was a better substitute for Ca²⁺in C. buckellii than in C. corallina. Na⁺ permeability data suggest that when the external Ca²⁺ concentrationis low, P_Na does not increase in the presence of elevated NaCl;the increase in Na⁺ influx appears to be due to the increasein external Na⁺ concentration alone. Ca^{2 +} supplementation appearsto decrease P_Na whereas supplemental Mg²⁺ has no effect. Na⁺ effluxes were computed from previously determined net fluxesand the influxes. It was found that for both species, fluxesin both directions were stimulated in response to all experimentaltreatments, but Na⁺ influx always exceeded efflux. This resultedin net Na⁺ accumulation in the vacuoles of both species. The results are discussed with reference to net flux and electrophysiologicaldata obtained previously under identical conditions, as wellas the comparative salinity tolerance of both species and theNa⁺/divalent cation ratio. Key words: Na⁺ influx, Na⁺ tolerance, membrane potential, permeability, Chara     

Lanthanum is transported by the sodium/calcium exchanger and regulates its activity

La³⁺ uptake was measured in fura 2-loaded Chinese hamster ovary cells expressing the bovine cardiac Na⁺/Ca²⁺ exchanger (NCX1.1). La³⁺ was taken up by the cells after an initial lag phase of 50-60 s and achieved a steady state within 5-6 min. Neonatal cardiac myocytes accumulated La³⁺ in a similar manner. La³⁺ uptake was due to the activity of the exchanger, because no uptake was seen in nontransfected cells or in transfected cells that had been treated with gramicidin to remove cytosolic Na⁺. The low rate of La³⁺ uptake during the lag period resulted from insufficient cytosolic Ca²⁺ to activate the exchanger at its regulatory sites, as shown by the following observations. La³⁺ uptake occurred without a lag period in cells expressing a mutant of NCX1.1 that does not exhibit regulatory activation by cytosolic Ca²⁺. The rate of La³⁺ uptake by wild-type cells was increased, and the lag phase was reduced or eliminated, when the cytosolic Ca²⁺ concentration was increased before initiating La³⁺ uptake. La³⁺ could substitute for Ca²⁺ at very low concentrations to activate exchange activity. Thus preloading cells expressing NCX1.1 with a small quantity of La³⁺ increased the rate of exchange-mediated Ca²⁺ influx by 20-fold; in contrast, cytosolic La³⁺ partially inhibited Ca²⁺ uptake by the regulation-deficient mutant. With an estimated K_D of 30 pM for the binding of La³⁺ to fura 2, we conclude that cytosolic La³⁺ activates exchange activity at picomolar concentrations. We speculatively suggest that endogenous trace metals might activate exchange activity under physiological conditions. fura 2; NCX1.1; myocyte     

Responses of Avena coleoptiles to suboptimal fusicoccin: kinetics and comparisons with indoleacetic Acid

Proton excretion induced by optimal concentrations of indoleacetic acid (IAA) and fusicoccin (FC) differs not only in maximum rate of acidification but also in the lag before onset of H⁺ excretion and in sensitivity to cycloheximide. Because these differences might simply be a consequence of the difference in rate of proton excretion, FC and IAA have now been compared using oat coleoptiles (cv. Victory) under conditions where the rates of acidification are more similar, i.e. suboptimal FC versus optimal IAA. As the concentration of FC is reduced, the rate of H⁺ excretion decreases, the final equilibrium pH increases, and the lag before detectable acidification increases up to 7-fold. This enhanced lag period is not primarily a consequence of wall buffering, inasmuch as it persists when a low concentration of FC is added to sections which were already excreting H⁺ in response to IAA. An extended lag also occurs, upon reduction of FC levels, in the hyperpolarization of the membrane potential, before enhancement of O₂ uptake and before the increased rate of Rb⁺ uptake. The presence or absence of a lag is not a distinguishing feature between FC and IAA actions on H⁺ excretion and cannot be used to discriminate between their sites of action. In contrast, the insensitivity of FC-induced H⁺ excretion to cycloheximide, as compared with the nearly complete inhibition of this auxin effect by cycloheximide, persists even at dilute concentrations of FC. This seems to be a basic difference in H⁺ excretion by IAA and FC.