Germination of Monocolpate Angiosperm Pollen: Effects of Inhibitory Factors and the Ca2+-Channel Blocker, Nifedipine

Hydration of pollen of Narcissus pseudonarcissus was retardedand germination blocked in media with supra-optimal concentrationsof osmoticum. Activation of the grains, expressed in circulatorymovement in the vegetative cell, was not blocked. Wall developmentwas disrupted, and pectic material and callose were depositedthroughout. In the absence of calcium many grains burst on hydration.The survivors showed evidence of activation, but few tubes wereformed. In medium with supra-optimal Ca²⁺, activation proceeded,but where tube tips were produced they became occluded withcallose, which eventually formed a general lining to the intine.Nifedipine, a Ca²⁺-blocker, did not prevent activation at 10^–4M, but reduced callose deposition and inhibited polarized movementin the vegetative cell. Prominences formed at the germinationsites were mostly low and rounded. During recovery in normalmedium, tube tips with normal callose linings were formed. Colchicine,a microtubule inhibitor, had no effect on activation or germination.Cytochalasin D, an actin inhibitor, prevented activation ofthe vegetative cell, but did not arrest all wall deposition.Movement began soon after transfer to normal medium, and somegrains produced adventitious tube tips. While Ca²⁺ appears notto be essential for activation, these results may be interpretedas indicating links in the normal course of germination betweenthe initial Ca²⁺ influx at the potential germination sites and:(a) polarization of movement in the vegetative cell, probablyrelated to re-orientation of the actin cytoskeleton; and (b)patterned deposition of callose, which appears to have an importantmorphogenetic role. Narcissus pseudonarcissus, pollen activation, pollen germination, osmotic effects, actin cytoskeleton, nifedipine, cytochalasin D, colchicine, role of Ca²⁺ flux     

ROLE OF CALCIUM IN THE CALLOSE RESPONSE OF SELF-POLLINATED BRASSICA STIGMAS

In Brassica oleracea, sporophytic self-incompatibility prevents germination of self pollen, or normal growth of self pollen tubes. After self-pollination, the papillae of stigmas synthesize callose. The role of Ca⁺⁺ in the formation of stigmatic callose was tested by adding compounds that interact with Ca⁺⁺ to suspensions of pollen that were known to induce callose formation in self stigmas. The calcium channel antagonist, lanthanum, and the calcium chelating agent, EGTA, reduced or abolished the callose response to self-pollen suspensions. In the presence of Ca⁺⁺, the calcium ionophore, A23187, induced callose in stigmatic papillae when added to pollen suspensions, or alone. Therefore, callose deposition in response to incompatible pollinations appears to be a calcium-dependent process. Pretreatment of pistils with 100 μm 2-deoxy-D-glucose abolished the callose response to self-pollination, while self pollen remained inhibited and cross pollen grew normally in treated pistils. Thus, callose formation in the stigma is not an essential part of the self-incompatibility mechanism preventing the growth of self pollen in Brassica.     

Computer-assisted Video Image Analysis of Spatial Variations in Membrane-associated Ca2+ and Calmodulin during Pollen Hydration, Germination and Tip Growth in Nicotiana tabacum L.

Video images of the distributional pattern of membrane-associatedcalcium (Ca²⁺) and calmodulin (CaM) have been documented andanalysed during pollen hydration, germination and tip growthin Nicotiana tabacum. Digitization of fluorescence microscopeimages of chlorotetracycline (CTC) and fluphenazine (FPZ)-fluorescenceemissions reveal that there is a maximum concentration of membrane-associatedCa²⁺ and also CaM in the vicinity of germination apertures ofhydrated pollen. With the onset of germination relatively higheramounts of Ca²⁺ and CaM were found to regionalize towards theaperture through which the pollen tube would emerge Both shortand long growing pollen tubes manifest tip-to-base Ca²⁺ andCaM gradients which are disturbed in non-growing tubes. Tubegrowth and the Ca²⁺-gradient were significantly affected byvanadate and verapamil suggesting that both a vanadate-sensitiveCa²⁺-transport system and verapamil-sensitive Ca²⁺ channelsare involved in maintaining Ca²⁺ homeostasis during pollen germinationand tube growth. The possible interactions of Ca²⁺ and CaM withdifferent cytoskeletal proteins modulating organelle movementare also briefly discussed. Image analysis, calcium, calmodulin, Nicotiana tabacum L., pollen germination, pollen tube, tip growth, Ca²⁺-channels, Ca²⁺ transport ATPase     

Lithium-sensitive calcium activity in the germination of apple (Malus domestica Borkh.), tobacco (Nicotiana tabacum L.), and potato (Solanum tuberosum L.) pollen

We have investigated Ca²⁺ activity during pollen germinationand the possibility that it may be responding to a phosphoinositidesignal transduction pathway, by employing inhibitors of Ca²⁺channels (verapamil and TMB-8), EGTA as a Ca²⁺ scavenger andthe inositol 1-phosphatase inhibitor lithium chloride. We havefound that at least two Ca²⁺ pools are utilized during pollengermination. Influx of extracellular Ca²⁺ appears to be necessaryfor the germination of apple and tobacco pollen, but it doesnot appear to be required for the germination of potato pollen.Conversely, activation of intracellularly stored Ca²⁺ was necessaryfor optimal germination of all three pollen species. LiCI hadstrong effects on pollen germination. At 5 mM LiCI, pollen germinationwas inhibited by 78% for apple, 84% for tobacco, and 74% forpotato. Li⁺ inhibition was overcome by the addition of Ca²⁺,which restores germination of all three species to 85–100%of that observed in controls, myo-lnositol also partially overcomesLi⁺ inhibition of pollen germination, thus providing some evidencefor a link between Li⁺ inhibition and Ca²⁺ rescue, myo-lnositolrescue of Li⁺ inhibition was most effective for potato pollen.Chlorotetracycline (CTC) spectroscopy revealed a higher levelof membrane-Ca²⁺ in Li ⁺ -treated pollen grains than in controls,and the short pollen tubes which did emerge did not accumulatemembrane-associated Ca²⁺. The results suggest that Li⁺ inhibitionmay interfere with the release (activation) or partitioningof membrane-Ca²⁺ during pollen germination and that this Ca²⁺activity may be responding, at least in part, with a phosphoinositidesignal transduction pathway. Key words: Pollen germination, lithium inhibition, calcium, inositol, calcium inhibitors     

Regulation of Ca2+ release-activated Ca2+ channels by INAD and Ca2+ influx factor

Thecoupling mechanism between depletion of Ca²⁺ stores in theendoplasmic reticulum and plasma membrane store-operated ion channelsis fundamental to Ca²⁺ signaling in many cell types and hasyet to be completely elucidated. Using Ca²⁺release-activated Ca²⁺ (CRAC) channels in RBL-2H3 cells asa model system, we have shown that CRAC channels are maintained in theclosed state by an inhibitory factor rather than being opened by theinositol 1,4,5-trisphosphate receptor. This inhibitory role can befulfilled by the Drosophila protein INAD (inactivation-noafter potential D). The action of INAD requires Ca²⁺ andcan be reversed by a diffusible Ca²⁺ influx factor. Thusthe coupling between the depletion of Ca²⁺ stores and theactivation of CRAC channels may involve a mammalian homologue of INADand a low-molecular-weight, diffusible store-depletion signal.

     

Aluminium Effects on Pollen Germination and Tube Growth of Chamelaucium uncinatum. A Comparison with Other Ca2+Antagonists

An interaction between aluminium (Al) and calcium (Ca) may bea cause of Al toxicity in plants. The pollen tube is a suitablesystem to test the interaction between Al and Ca since Ca ionsplay a pivotal role in pollen germination and tube growth. Weinvestigated how Al and other known blockers of Ca²⁺-permeablechannels (trivalent cations, ruthenium red, verapamil and nifedipine)influence pollen of an Australian native species Geraldton waxflower(Chamelaucium uncinatum). Pollen germination was inhibited bymicromolar concentrations of trivalent cations (La³⁺>Al³⁺>Gd³⁺)and ruthenium red, but it was relatively insensitive to a micromolarconcentration of verapamil. Exposure of the growing pollen tubesto micromolar concentrations of Al³⁺and La³⁺, and a millimolarconcentration of Ca²⁺chelator ethyleneglycol-bis(ß-aminoethylether)-N,N'-tetraacetic acid (EGTA) led to rapid tip bursting.In contrast, exposure to Gd³⁺, nifedipine, ruthenium red, verapamiland the organic trivalent cation tris (ethylenediamine)cobalt(TEC³⁺) caused only inhibition of pollen tube growth. The Al³⁺-relatedpollen tube bursting was reduced significantly by increasingeither solution pH from 4.5 to 6 or activity of Ca²⁺from 0.25to 5 m M. In contrast, La³⁺-related pollen tube bursting wasinsensitive to changes in Ca²⁺activity. The results are discussedin terms of Al interactions with cell wall Ca²⁺and the plasmamembrane Ca²⁺-permeable channels. Copyright 1999 Annals of BotanyCompany Aluminium toxicity, Ca²⁺-channel blockers, cell wall, Chamelaucium uncinatum, pollen germination, pollen tube growth.     

Xenopus oocyte plasma membrane sheets for FRET analysis

Plasma membrane sheets from Xenopus oocytes have been isolated for use in fluorescence resonance energy transfer (FRET) measurements. This system has the following advantages: 1) fluorescent recordings from a large surface area to maximize the signal-to-noise ratio, 2) reduction in background fluorescence from proteins retained in intracellular compartments, and 3) access to the cytoplasmic surface of the plasma membrane for rapid solution changes. To demonstrate the utility of this approach, we have examined a previously published FRET-based Ca²⁺ sensor, namely, the Cameleon-PM. This construct targets to the plasma membrane and, upon various Ca²⁺ additions to the cytoplasmic face of the membrane, shows ratiometric FRET changes. From the ratiometric changes recorded, an apparent Ca²⁺ affinity of 1.65 µM was determined. Thus preparation of Xenopus oocyte plasma membrane sheets and FRET measurements demonstrates all three of the advantages outlined above. fluorescence resonance energy transfer     

Pollen Viability and Pollen-tube Growth Following Controlled Pollination and their Relation to Low Fruit Production in Teak (Tectona grandisLinn. f.)

Pollen released at 1100 h has the highest viability (92.2%)but is no longer viable 3 d (84 h) after anthesis.In vitropollen-tubegrowth is fast (140 µm h^-1) and increases significantlywithin the first 8 h.In vivopollen tubes also grow quickly andreach the base of the style within 2 h after pollination andenter the micropyle 8 h after pollination. There is no significantdifference between self- and cross-pollination in either therate and the number of pollen tubes in the pistil and the numberof ovules penetrated by a pollen tube. Teak has late-actinggametophytic self-incompatibility; the majority of pollen tubesgrow through the style but some do not continue to grow fromthe style towards the embryo sacs. Pollen-tube abnormalitiesinclude swollen, reversed, forked and tapered tips and irregularand spiralling tubes. These are most prevalent in self-pollination(20.4%). The index of self-incompatibility of 0.17 and low fruitset following self-pollination (2.49%) indicates that teak ismostly self-incompatible. Drastic fruit abortion occurs withinthe first week following controlled pollination. Within 14 d,fruit size and fruit set from cross-pollination is generallymuch greater than from self-pollination. Tectona grandis; pollen viability; pollen-tube growth; pollination; controlled pollinations; incompatibility.     

An Excel-based model of Ca2+ diffusion and fura 2 measurements in a spherical cell

We wrote a program that runs as a Microsoft Excel spreadsheet to calculate the diffusion of Ca²⁺ in a spherical cell in the presence of a fixed Ca²⁺ buffer and two diffusible Ca²⁺ buffers, one of which is considered to be a fluorescent Ca²⁺ indicator. We modeled Ca²⁺ diffusion during and after Ca²⁺ influx across the plasma membrane with parameters chosen to approximate amphibian sympathetic neurons, mammalian adrenal chromaffin cells, and rat dorsal root ganglion neurons. In each of these cell types, the model predicts that spatially averaged intracellular Ca²⁺ activity ([Ca²⁺]_avg) rises to a high peak and starts to decline promptly on the termination of Ca²⁺ influx. We compared [Ca²⁺]_avg with predictions of ratiometric Ca²⁺ measurements analyzed in two ways. Method 1 sums the fluorescence at each of the two excitation or emission wavelengths over the N compartments of the model, calculates the ratio of the summed signals, and converts this ratio to Ca²⁺ ([Ca²⁺]_avg,M1). Method 2 sums the measured number of moles of Ca²⁺ in each of the N compartments and divides by the volume of the cell ([Ca²⁺]_avg,M2). [Ca²⁺]_avg,M1 peaks well after the termination of Ca²⁺ influx at a value substantially less than [Ca²⁺]_avg because the summed signals do not reflect the averaged free Ca²⁺ if the signals come from compartments containing gradients in free Ca²⁺ spanning nonlinear regions of the relationship between free Ca²⁺ and the fluorescence signals. In contrast, [Ca²⁺]_avg,M2 follows [Ca²⁺]_avg closely. intracellular calcium; kinetic model; diffusion coefficient; fura 2ff; furaptra     

Ca2+ Regulation of Outward Rectifying K+ Channel in the Plasma Membrane of Tobacco Cultured Cells in Suspension: a Role of the K +Channel in Mitigation of Salt-Stress Effects by External Ca2+

The patch-clamp technique was used to study effect of the Ca²⁺on K⁺ channels in the plasma membrane of protoplasts isolatedfrom tobacco (Nicotiana tabacum L., cv. Bright Yellow) culturedcells in suspension. The outward rectifying whole-cell K⁺ currentswere not affected by in-tracellular Ca²⁺, but they were reducedwith increasing extracellular Ca²⁺. Neither extracellular norintracellular Ca²⁺ affected the permeability ratios (p_K+/P_Na+)of the plasma membrane. These results suggest that the inhibitionof outward-rectifying K⁺ channels by extracellular Ca²⁺may partiallycontribute towards the mitigation of detrimental effects ofsalinity on growth by extracellular Ca²⁺. (Received January 19, 1998; Accepted July 30, 1998)     

Unidirectional Ca2+ Fluxes in Roots of Rye (Secale cereale L). A Comparison of Excised Roots with Roots of Intact Plants

The unidirectional Ca²⁺ fluxes across the plasma membrane andtonoplast were determined in both excised roots and roots ofintact seedlings of rye (Secale cereale L. cv. Rheidol). Theunidirectional Ca²⁺ fluxes across the plasma membrane and tonoplastmeasured in excised roots were of a similar order of magnitudeto those determined in roots of intact plants. Influx and effluxof Ca²⁺ across the root plasma membrane were similar (estimatedto be between 0·7 and 3·4 µmol g     

Ca(2+)-dependent activation of c-jun NH(2)-terminal kinase in primary rabbit proximal tubule epithelial cells

Previous work from this laboratorydemonstrated that arachidonic acid activates c-junNH₂-terminal kinase (JNK) through oxidative intermediatesin a Ca²⁺-independent manner (Cui X and Douglas JG.Arachidonic acid activates c-jun N-terminal kinase throughNADPH oxidase in rabbit proximal tubular epithelial cells. ProcNatl Acad Sci USA 94: 3771-3776, 1997.). We now report thatJNK can also be activated via a Ca²⁺-dependent mechanism byagents that increase the cytosolic Ca²⁺ concentration(Ca²⁺ ionophore A₂₃₁₈₇, Ca²⁺-ATPaseinhibitor thapsigargin) or deplete intracellular Ca²⁺stores [intracellular Ca²⁺ chelator1,2-bis(2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid(BAPTA)-AM]. The activation of JNK by BAPTA-AM occurs despite adecrease in cytosolic Ca²⁺ concentration as detected by theindicator dye fura 2, but appears to be related to Ca²⁺metabolism, because modification of BAPTA with two methyl groups increases not only the chelation affinity for Ca²⁺, butalso the potency for JNK activation. BAPTA-AM stimulates Ca²⁺ influx across the plasma membrane, and the resultinglocal Ca²⁺ increases are probably involved in activation ofJNK because Ca²⁺ influx inhibitors (SKF-96365, nifedipine)and lowering of the free extracellular Ca²⁺ concentrationwith EGTA reduce the BAPTA-induced JNK activation.

     

Calcitonin gene-related peptide elevates calcium and polarizes membrane potential in MG-63 cells by both cAMP-independent and -dependent mechanisms

Published data suggest that the neuropeptide calcitonin gene-related peptide (CGRP) can stimulate osteoblastic bone formation; however, interest has focused on activation of cAMP-dependent signaling pathways in osteogenic cells without full consideration of the importance of cAMP-independent signaling. We have now examined the effects of CGRP on intracellular Ca²⁺ concentration ([Ca²⁺]_int) and membrane potential (E_m) in preosteoblastic human MG-63 cells by single-cell fluorescent confocal analysis using fluo 4-AM-fura red-AM and bis(1,3-dibarbituric acid)-trimethine oxanol [DiBAC₄(3)] bis-oxonol assays. CGRP produced a two-stage change in [Ca²⁺]_int: a rapid transient peak and a secondary sustained increase. Both responses were dose dependent with an EC₅₀ of 0.30 nM, and the maximal effect (initially 3-fold over basal levels) was observed at 20 nM. The initial phase was sensitive to inhibition of Ca²⁺ mobilization with thapsigargin, whereas the secondary phase was eliminated only by blocking transmembrane Ca²⁺ influx with verapamil or inhibiting cAMP-dependent signaling with the Rp isomer of adenosine 3',5'-cyclic monophosphorothioate (Rp-cAMPS). These data suggest that CGRP initially stimulates Ca²⁺ discharge from intracellular stores by a cAMP-independent mechanism and subsequently stimulates Ca²⁺ influx through L-type voltage-dependent Ca²⁺ channels by a cAMP-dependent mechanism. In addition, CGRP dose-dependently polarized cellular E_m, with maximal effect at 20 nM and an EC₅₀ of 0.30 nM. This effect was attenuated with charybdotoxin (–20%) or glyburide (glibenclamide; –80%), suggesting that E_m hyperpolarization is induced by both Ca²⁺-activated and ATP-sensitive K⁺ channels. Thus CGRP signals strongly by both cAMP-dependent and cAMP-independent signaling pathways in preosteoblastic human MG-63 cells. osteoblastic cells; calcium; membrane potential; potassium channels; adenosine 3',5'-cyclic monophosphate     

Secretory Activity Is Rapidly Induced in Stigmatic Papillae by Compatible Pollen,but Inhibited for Self-Incompatible Pollen in the Brassicaceae

[In the Brassicaceae, targeted exocytosis to the stigmatic papillar plasma membrane under the compatible pollen grain is hypothesized to be essential for pollen hydration and pollen tube penetration. In contrast, polarized secretion is proposed to be inhibited in the stigmatic papillae during the rejection of self-incompatible pollen. Using transmission electron microscopy (TEM), we performed a detailed time-course of post-pollination events to view the cytological responses of the stigmatic papillae to compatible and self-incompatible pollinations. For compatible pollinations in Arabidopsis thaliana and Arabidopsis lyrata, vesicle secretion was observed at the stigmatic papillar plasma membrane under the pollen grain while Brassica napus stigmatic papillae appeared to use multivesicular bodies (MVBs) for secretion. Exo70A1, a component of the exocyst complex, has been previously implicated in the compatible pollen responses, and disruption of Exo70A1 in both A. thaliana and B. napus resulted in a loss of secretory vesicles/MVBs at the stigmatic papillar plasma membrane. Similarly, for self-incompatible pollinations, secretory vesicles/MVBs were absent from the stigmatic papillar plasma membrane in A. lyrata and B. napus; and furthermore, autophagy appeared to be induced to direct vesicles/MVBs to the vacuole for degradation. Thus, these findings support a model where the basal pollen recognition pathway in the stigmatic papilla promotes exocytosis to accept compatible pollen, and the basal pollen recognition pathway is overridden by the self-incompatibility pathway to prevent exocytosis and reject self-pollen.     

Measurement of Changes in Cytosolic Ca2+ in Arabidopsis Guard Cells and Mesophyll Cells in Response to Blue Light

Phototropins (phot1 and phot2) are blue light (BL) receptorsthat mediate responses including phototropism, chloroplast movementand stomatal opening, and increased cytosolic Ca²⁺. BL absorbedby phototropins activates plasma membrane H⁺-ATPase in guardcells, resulting in membrane hyperpolarization, and drives K⁺uptake and stomatal opening. However, it is unclear whetherthe phototropin-mediated Ca²⁺ increase activates the H⁺-ATPase.Here, we determined cytosolic Ca²⁺ concentrations in guard cellprotoplasts (GCPs) from Arabidopsis transformed with aequorin.Cytosolic Ca²⁺ increased rapidly in response to BL in GCPs fromboth the wild type and phot1 phot2 double mutants, but was mostlysuppressed by an inhibitor of photosynthetic electron flow (DCMU).With depleted external K⁺, we observed another slower Ca²⁺ increase,which was phototropin- dependent. Fusicoccin, a H⁺-ATPase activator,mimicked the effect of BL. The slow Ca²⁺ increase thus appearsto result from membrane hyperpolarization. The slow Ca²⁺ increasewas suppressed by external K⁺ and was restored by blockers ofinward-rectifying K⁺ channels, CsCl and tetraethylammonium,suggesting the preferential uptake of K⁺ over Ca²⁺. Such efficientK⁺ uptake in response to BL was not found in mesophyll cells.Both the fast and the slow Ca²⁺ increases were inhibited byCa²⁺ channel blockers (CoCl₂ and LaCl₃) and a chelating agent(EGTA). These results indicate that the phototropin-mediatedCa²⁺ increase was not observed prior to H⁺-ATPase activationin guard cells and that Ca²⁺ entered guard cells via Ca²⁺ channelsthrough photosynthesis and phototropin-mediated membrane hyperpolarization.     

Effects of Calcium and Abscisic Acid on Volume Changes of Guard Cell Protoplasts of Commelina

Calcium ions contracted guard cell protoplasts (GCP) of Commelinacommunis L., being particularly effective within the concentrationrange of 0 to 0.2 mol m^–3. Abscisic acid (ABA) in thepresence of EGTA, which chelates free Ca²⁺ in the medium, contractedGCP to a similar extent to Ca²⁺ alone or Ca²⁺ and ABA together.Similarly, ABA in the absence of free Ca²⁺ (i.e. an ABA/EGTAtreatment) inhibited K⁺-induced swelling of contracted GCP,as did Ca²⁺ alone or ABA and Ca²⁺ together. Lanthanum, a Ca²⁺channel blocker, prevented the contraction of GCP by Ca²⁺ buthad no effect if ABA was also present with Ca²⁺. The inhibitionof swelling of GCP by Ca²⁺ was also prevented by the presenceof lanthanum or verapamil (another Ca²⁺ channel blocker). These results indicate that Ca²⁺ and ABA can act independentlyof each other in contracting swollen GCP and in preventing K⁺-inducedswelling of contracted GCP of C. communis. If swelling and contractionof GCP are equivalent to stomatal opening and closure, respectively,the results do not support the hypothesis that ABA opens Ca²⁺channels in the plasma membrane of guard cells allowing Ca²⁺to enter the cells and, as a second messenger, to set in motionclosing processes. Key words: Abscisic acid, calcium, guard cell protoplasts, stomata     

Visualization of Membrane Calcium and Calmodulin in Embryo Sacs in situ and Isolated from Petunia hybrida L. and Nicotiana tabacum L.

We have used chlorotetracycline (CTC) and fluphenazine (FPZ)as fluorescent probes to visualize the distributional patternsof membrane calcium (mCa²⁺) and the Ca²⁺-receptor protein calmodulin(CaM) in various cell types of unfixed living isolated and unisolatedembryo sacs of Petunia hydrida L. and Nicotiana tabacum L. Ourresults indicate that in the young embryo sacs of Petunia, bothsynergids and the central cell sequester relatively higher amountsof mCa²⁺ and CaM than the egg cell and the antipodals. Much of the mCa²⁺ in the synergids is polarized in its distributionin that the mCa²⁺ is higher towards the micropylar end of thesynergids. Interestingly, in the mature embryo sacs of Petuniaonly one of the two synergids and the egg cell proper manifesta higher level of mCa²⁺. In vivo only one of the synergids inthe young as well as in the mature embryo sacs if Nicotianaconsistently show higher mCa²⁺. In the mature embryo sacs of Petunia the level of CaM is almostuniform in all the cell types except that one of the synergidsand the three antipodal cells show a slightly higher level ofCaM. The possible implications of these findings in the late eventsof vectorial orientation of pollen tube tip, pollen-tube-synergidinteractions and sperm delivery mechanism are discussed.Copyright1993, 1999 Academic Press Membrane-Ca²⁺, calmodulin, living embryo sacs, Petunia, Nicotiana, pollen tube-synergid interaction     

Activities of Ca2+ pump and low affinity Ca2+/H+ antiport in plasma membrane vesicles of corn roots

ATP-dependent Ca₂₊-uptake was investigated in sealed plasmamembrane vesicles isolated from corn roots (Zea mays L. cv.Hybrid-3352/Palma-Pioneer). In a chloride-containing medium,at high calcium concentrations, about 30% of the total Ca²⁺accumulation ({small tilde}4 nmol Ca²⁺ mg^–1 protein) wasshown to be protonophore-sensitive and corresponded to the fractionof Ca²⁺ not accumulated in a sulphate-containing medium. Furthermore,vesicles in the presence of nitrate, which stimulates H⁺ transport,or vesicles preloaded with H⁺, take up Ca²⁺ more rapidly, suggestingthat, at high calcium concentrations, there is a mechanism forCa²⁺ transport which depends on the magnitude of the protongradient across the membrane. The fraction of Ca²⁺ uptake shownto be sensitive to the protonophore CCCP increased by about150–200% as the Ca²⁺ concentration in the medium increasedfrom 50µM to 250µM. Under the same conditions, theCCCP-insensitive fraction of Ca²⁺ accumulated was reduced byabout 25–30% suggesting that different Ca²⁺ affinitiesexist in the two Ca²⁺ uptake processes. Although calmodulinstimulation was not observed, the sensitivity to Ca²⁺ and externalpH indicates that H⁺ gradient-independent Ca²⁺ accumulationreflects activity of the Ca²⁺–pump. These results indicatethat the plasma membrane of corn roots contain two distinctmechanisms of Ca²⁺ transport: a high Ca²⁺ affinity, proton gradient-independentCa²⁺ pump and a low Ca²⁺ affinity, proton gradient-dependentCa²⁺/H⁺ antiport, which have greatest activity at concentrationsof Ca²⁺ below and above 50+M, respectively. Key words: Ca²⁺/H+ antiport, Ca²⁺ pump, plasmalemma, roots, Zea mays L.     

Salinity Effects on the Activity of Plasma Membrane H+and Ca2+Transporters in Bean Leaf Mesophyll: Masking Role of the Cell Wall

Net fluxes of H⁺and Ca²⁺were measured in the mesophyll tissueof broad bean (Vicia faba L.) leaves and in protoplasts derivedfrom these cells. NaCl at 90 m M enhanced H⁺extrusion in bothprotoplasts and tissue, but in different ways. Proton extrusionwas inhibited by vanadate, suggesting the involvement of theplasma membrane H⁺-ATPase in cell responses to salinity. Therewas virtually no effect of NaCl on the net Ca²⁺flux in protoplasts,while in the tissue a large transient Ca²⁺efflux followed thesalt treatment. Salt-induced Ca²⁺efflux was essentially independentof external Ca²⁺concentrations in the range 0.1 to 10 m M. Also,Ca²⁺flux responses were ‘saturated’ above 50 m MNaCl. It is suggested that almost all the measured Ca²⁺fluxoriginates from Na⁺/Ca²⁺and H⁺/Ca²⁺ion exchange in the cellwall. This conclusion was supported by the results of modellingcation exchange in the cell wall. Copyright 2000 Annals of BotanyCompany Salinity, membrane transporters, wall ion exchange, proton, calcium, Vicia faba