Isolation of the Photoactive Reaction Center Complex that Contains Three Types of Fe-S Centers and a Cytochrome c Subunit from the Green Sulfur Bacterium Chlorobium limicola f. thiosulfatophilum, Strain Larsen

The photoactive reaction center (RC) complex from the greensulfur bacterium Chlorobium limicola f. thiosulfatophilum, strainLarsen, was isolated after solubilization and ammonium sulfatefractionation followed by ion-exchange chromatography. The spectrumof the complex was almost identical with that of the similarRC complex isolated by Feiler et al. [(1992) Biochemistry 31:2608–2614] except for the presence of cytochrome c₅₅₁instead of c₅₅₃ in the latter study. A molecular ratio of BChla to P840 of the isolated RC complex was assayed to be 25–35.SDSPAGE analysis revealed that the isolated complex containedthree major polypeptides with apparent molecular masses of 68,41 and 21 kDa, respectively. The 21-kDa polypeptide was identifiedto be a heme-binding protein by staining the gel for peroxidaseactivity. The cytochrome c₅₅₁ was oxidized by flash light ina biphasic manner with half times of 90 and 390 µs, respectively,that coincided with the reduction half times of P840⁺. Threedistinct iron-sulfur centers assigned to F_A, F_B and F_x, respectively,from their g-values were detected by EPR spectroscopy at cryogenictemperature. These results suggest that the present preparationcontains a minimal functional unit of the RC of this bacterium,and that this complex appears to lie on a evolutionary linebetween RC's of purple bacteria and photosystem I. (Received August 18, 1992; Accepted October 28, 1992)     

Reconstitution of the Photosystem I Secondary Quinone Acceptor (A1) in the P700-Fx Core Isolated from Synechococcus PCC 6301

By treating a F_A/F_B-depleted P700-F_x core from SynechococcusPCC 6301 with diethylether, most of the phylloquinone was removedwithout loss of P700. The 1 ms decay of P700⁺ in the originalcore was replaced by the 25 ns decay, which was interpretedas the backreaction occurring in a P700⁺     

Microheterogeneity of N-glycosylation on a stylar self-incompatibility glycoprotein of Nicotiana alata

Gametophytic self-incompatibility, a mechanism that preventsinbreeding in some families of flowering plants, is mediatedby the products of a single genetic locus, the S-locus. Theproducts of the S-gene in the female sexual tissues of Nicotianaalata are an allelic series of glycoproteins with RNase activity.In this study, we report on the microheterogeneity of N-linkedglycosylation at the four potential N-glycosylation sites ofthe S²-glycoprotein. The S-glycoproteins from N.alata containfrom one to five potential N-glycosylation sites based on theconsensus sequence Asn-Xaa-Ser/Thr. The S²-glycoprotein containsfour potential N-glycosylation sites at Asn²⁷, Asn³⁷, Asn¹³⁸and Asn¹⁵⁰, designated sites I, n, IV and V, respectively. SiteIII is absent from the S₂-glycoprotein. Analysis of glycopeptidesgenerated from the S₂-glycoprotein by trypsin and chymotrypsindigestions revealed the types of glycans and the degree of microheterogeneitypresent at each site. Sites I (Asn²⁷) and IV (Asn¹³⁸) displaymicroheterogeneity, site II (Asn³⁷) contains only a single typeof N-glycan, and site V (Asn¹⁵⁰) is not glycosylated. The microheterogeneityobserved at site I on the S₂-glycoprotein is the same as thatobserved at the only site, site I, on the Srglycoprotein (Woodwardet al., Glycobiology, 2, 241-250, 1992). Since the N-glycosylationconsensus sequence at site I is conserved in all S-glycoproteinsfrom other species of self-incompatible solanaceous plants,glycosylation at this site may be important to their function.No other post-translational modifications (e.g. O-glycosylation,phosphorylation) were detected on the S₂-glycoprotein. fertilization microheterogeneity N-glycans plants RNase     

Cl- currents activated via purinergic receptors in Xenopus follicles

Ionic currents elicited via purinergic receptors located in themembrane of Xenopus follicles werestudied using electrophysiological techniques. Follicles responded toATP-activating inward currents with a fast time course(F_in). InRinger solution, reversal potential (E_rev) ofF_in was 22mV, which did not change with external substitutions ofNa⁺ orK⁺, whereas solutions containing50 or 5% of normal Clconcentration shiftedE_rev to about +4and +60 mV, respectively, and decreasedF_in amplitude,indicating thatF_in was carriedby Cl.F_in had an onsetdelay of ~400 ms, measured by application of a brief jet of ATP froma micropipette positioned near the follicle (50 µm).F_in was inhibitedby 50% in follicles pretreated with pertussis toxin. This suggests a Gprotein-mediated receptor channel pathway.F_in was mimickedby 2-MeSATP and UTP, the potency order (half-maximal effectiveconcentration) was 2-MeSATP (194 nM) > UTP (454 nM) > ATP(1,086 nM). All agonists generatedCl currents and displayedcross-inhibition on the others.F_in activation byacetylcholine also cross-inhibitedF_in-ATPresponses, suggesting that all act on a common channel-activationpathway.

     

Intracellular pH shifts in cultured kidney (A6) cells: effects on apical Na+ transport

We report, for the epithelialNa⁺ channel (ENaC) in A6 cells,the modulation by cell pH (pH_c)of the transepithelial Na⁺ current(I_Na), thecurrent through the individual Na⁺channel (i), the openNa⁺ channel density(N_o), and thekinetic parameters of the relationship betweenI_Na and theapical Na⁺ concentration. Thei andN_o were evaluatedfrom the Lorentzian I_Na noise inducedby the apical Na⁺ channel blocker6-chloro-3,5-diaminopyrazine-2-carboxamide.pH_c shifts were induced, understrict and volume-controlled experimental conditions, byapical/basolateral NH₄Cl pulses orbasolateral arrest of theNa⁺/H⁺exchanger (Na⁺ removal; block byethylisopropylamiloride) and were measured with the pH-sensitive probe2',7'-bis(2-carboxyethyl)-5(6)-carboxyfluorescein. Thechanges in pH_c were positivelycorrelated to changes inI_Na and theapically dominated transepithelial conductance. The sole pH_c-sensitive parameter underlyingI_Na wasN_o. Only thesaturation value of theI_Na kinetics wassubject to changes in pH_c.pH_c-dependent changes inN_o may be causedby influencingP_o, the ENaC openprobability, or/and the total channel number,N_T = N_o/P_o.

     

Effects of Seed Treatments on the Emergence of Oil Seed Rape Seedlings from Compacted Soil

Imbibition of seeds of oil seed rape (Brassica napus cv Jetneuf)in 10^–3 M aminoethoxyvinylglycine (AVG) or 10^–2silver thiosulphate (Ag⁺) had no effect on germination nor onthe emergence of seedlings from uncompacted or lightly compressedsoil, but significantly reduced emergence from moderately compressedsoil of 68.4 or 143.3 N cm^–2 impedance. Exertion of force by emerging control seedlings against a staticcantilever bar fitted with strain gauges reached a maximum (F_max)of 6 g over 10 h. Higher axial forces were achieved when theseedlings were emerging from compressed soil, without any changein the time required to reach F_max, so that the build-up offorce was considerably (1.8 fold) faster than in uncompressedsoil. This adaptive response to soil impedance was modified by theseed pretreatments employed. Seedlings from AVG or Ag⁺pretreatedseeds produced lower axial forces than controls, and neitherF_max nor the rate at which force developed showed any responseto soil compression. After pretreatment in 10^–3 ethephon or 10^–4 naphthaleneacetic acid (NAA) the seedlings achieved similar F_max to controlseedlings, but responded more rapidly to soil compression sothat the rate of build up of emergence force was 2.3 fold (NAA)or 2.8 fold (ethephon) faster in compressed than in uncompressedsoil. The results suggest that the exertion of force by a seedlingagainst a barrier involves a dynamic response to impedance onthe part of the seedling. This response can be either enhancedor suppressed by substances which affect ethylene productionor ethylene action. Such compounds may have promise for modifyingseedling emergence from impeding soils. Brassica napus, oil seed rape, seedling emergence, soil compaction, ethylene, Ethrel, silver, aminoethoxyvinylglycine, naphthalene acetic acid     

Can the 15N Dilution Technique be used to Study N2 Fixation in Tropical Tree Symbioses as Affected by Water Deficit?

Three methods were used to study N₂ fixation and effects ofwater deficit on N₂ fixation: C₂H₂ reduction assay (ARA), ¹⁵Ndilution technique and accumulated N content. In addition, ¹⁵Ndilution was calculated both in a traditional way and in a modifiedway, which takes into consideration N and ¹⁵N content for theplants before the experiment started. The three methods wereapplied on the following Rhizobium-symbioses: Acacia albidaDel (Faidherbia albida (Del) A. Chev.) and Leucaena leucocephala(Lam) de Wit., and the Frankia-symbiosis Casuarina equisetifoliaL. The plants wereabout 4-months-old when they were harvested. Nitrogen derived from N₂ fixation in control plants of Acaciaalbida was 54·2 mg as measured with ARA, while it was28·5 mg as measured with the ¹⁵N dilution technique,compared to 30·7 mg calculated as accumulated N. In comparison,L. leucocephala fixed 41·6 mg N (ARA), 53·5 mgN(15N dilution technique) and 56·3 mg N (accumulatedN). The Frankia-symbiosis had fixed 27·4 mg N as measuredby ARA, 8·1 mg N as measured by ¹⁵N dilution techniqueand 12·3 mg N as accumulated N. There were no differencesbetween the estimates based ontraditional and modified waysof calculating ¹⁵N dilution. The immediate effect of water deficit treatment on N₂ fixationwas continuously measured inall species with ARA, which startedto decrease approximately 10 d after the initiation of the treatment,and declined to less than 5% of the initial level after 21–28d. The decrease in the amount of N derived from N₂ fixation wasstudied in L. leucocephala during the period of treatment. Therewas a 26% decrease in amount of N derived from N₂ fixation asresult of water deficit (as measured with ARA), while the decreasewas 23% when measured withboth the ¹⁵N dilution method and asaccumulated N. The three different methods for measuring N₂ fixation and effectsof water deficit on N₂ fixation are discussed. Key words: Acacia albida, ARA, Casuarina equisetifolia, Leucaena leucocephala, ¹⁵N dilution, N₂N fixation, water deficit     

Proton Translocation Associated with Denitrification in a Photodenitrifier, Rhodopseudomonas sphaeroides forma sp. denitrificans

H⁺ translocation driven by NO₃^–, NO₂^– and N₂O reductionswith endogenous substrates in cells of Rhodopseudomonas sphaeroidesforma sp. denitrificans was investigated by the oxidant pulsemethod. Upon injection of nitrogenous oxides to anaerobic cellsin darkness, an alkaline transient in the external medium wasobserved, followed by acidification. The alkaline transientwas enhanced by carbonyl cyanide m-chlorophenylhydrazone. When a viologen dye was used as an electron donor in the presenceof 1 mM Af-ethylmaleimide and 0.1 mM 2-n-heptyl-4-hydroxyquinoline-N-oxideto preclude respiration-linked H⁺ extrusion, addition of KNO₃,KNO₂ and N₂O caused only a rapid alkalinization. The H⁺ consumptionstoichiometries, H⁺/2e^– ratios for NO₃^– reductionto NO₂^–, NO₂^– reduction to 1/2 N₂O and N₂O reductionto N₂ were –1.90, –3.18 and –2.04, respectively.These values agreed well with the fact that all reductions ofnitrogenous oxides in denitrification occur on the periplasmicside of the cytoplasmic membrane. When corrected for H⁺ consumption in the periplasm, the H⁺ extrusionstoichiometries, H⁺/2e^– ratios with endogenous substratesin the presence of K⁺/valinomycin for NO₃^– reduction toNO₂^–, NO₂^– reduction to 1/2 N₂O and N₂O reductionto N₂ were 4.05, 4.95 and 6.01, respectively. (Received August 4, 1982; Accepted January 13, 1983)     

Overexpression and purification of non-glycosylated recombinant endo-{beta}-N-acetylglucosaminidase F3

The gene for endo-ß-N-acetylglucosaininldase F₃ wascloned into the high-expression vector pMAL c-2, and expressedin Escherichia coli as a fusion protein. A key step in the purificationemployed Poros II (HS) chromatography, which greatly facilitatedisolation of the enzyme from crude intracellular lysates. Theunfused enzyme was recovered following digestion with FactorX_a, and was isolated in a homogeneous form. The enzyme is non-glycosylatedand fully active, and is a very useful analytical tool for investigatingthe structure of asparagine-linked glycans, especially thosewith core-substituted 1,6 fucosyl residues. deglycosylation Endo F₃ endoglycosidase MBP-Endo F₃     

Tritium labelling of amino sugars at C-2 by alkaline epimerization in tritiated water

N-Acetyl-D-[2-³H]glucosamine was synthesized from N-acetyl-D-mannosamineby alkaline 2-epimerization in pyridine containing ³H₂O andnickelous acetate. The reaction involves reversible formationof an enol intermediate and therefore also resulted in incorporationof tritium into N-acetylmannosamine. After completed reaction,the two N-acetylhexosamines were separated from other radioactiveproducts and Morgan-Elson chromogens by chromatography on acolumn of Sephadex G-10, which was eluted with 10% ethanol,and were then separated from each other by chromatography onSephadex G-15 in 0·27 M sodium borate (pH 7·8).The location of the incorporated tritium was established bytreatment of the N-acetylhexosamines with borate under the conditionsof the Morgan-Elson reaction, which converts the sugars to Kuhn'schromogen I with concomitant loss of the C-2 hydrogen. As expected,this treatment resulted in the formation of ³H₂O, indicatingthat the tritium was located at C-2. [2-³H]Glucosamine was preparedby acid hydrolysis of the labelled N-acetylglucosamine and wasconverted to [2-³H]glucosamine 6-phosphate by incubation withhexokinase and ATP. The sugar phosphate was used as a substratefor glucosamine 6-phosphate deaminase (isomerase, EC 5.3.1.10 [EC] )in a simple ³H₂O release assay. N-acetyl[2-³H]glucosamine N-acetyl[2-³H]mannosamine [2-³H]glucosamine glucosamine 6-phosphate deaminase [2-³H]mannosamine     

Growth of Actinorhizal Plants as Influenced by the Form of N with Special Reference to Myrica gale and Alnus incana

Growth of two actinorhizal species was studied in relation tothe form of N supply in water culture. Non-nodulated bog myrtle(Myrica gale) and grey alder (Alnus incana) were grown withNH₄⁺, NH₄NO₃^– or NO₃^– (4 mol m^–3 N). A nodulatedseries of bog myrtle was also cultivated in N-free medium. Relative growth rate (RGR), utilization rate of N, and shoot/rootratio were highest for the two species with the N completelysupplied as NH₄⁺. In both species, nitrate was largely reducedin the roots and the presence of NO₃^– in combined-N supplyalways affected the RGR and N utilization rate negatively. BothN₂ fixation and complete NO₃^– nutrition represented conditionsof relative N-deficiency resulting in relatively low tissue-Nconcentrations and a greater allocation of dry mass to the roots.The physiological N status of nodulated M. gale plants was comparativelygood, as indicated by a normal nodule weight ratio and a relativelyhigh N₂-fixing rate per unit nodule mass. However, whole-plantN₂-fixing capacity remained relatively low in comparison withacquisition rates of N in combined-N plants. The anion charge from the nitrate reduction was largely directlyexcreted as an OH^– efflux. H ⁺ /N ratios generally agreedwith the theory. In comparison with NH₄⁺ nutrition, carboxylateconcentrations were higher in N₂-fixing M. gale plants and theH ⁺ /N ratio in nodulated plants was less than unity below thevalue for ammonium plants as previously found for other actinorhizalspecies. Therefore, NH₄⁺ should be an energetically more attractiveN source for actinorhizal plants than N₂. The results agree with commonly accepted views on energeticsof N uptake and assimilation in higher plants and support theconcept of a basically similar physiological behaviour betweennon-legumes and legumes. Key words: Actinorhizal symbioses, ammonium, H⁺/OH^– efflux, nitrate, N₂ fixation, NRA     

影响叶螨磷酸酯酶活性的四因子数学模型

应用二次回归通用旋转组合设计,组建了影响叶螨磷酸酯酶（酸性和碱性）活性的四因子（缓冲液Ph值X₁、温浴时间X₂、反应温度X₃、底物浓度X₄）数学模型: Y_酸性=0.456380+0.107889X₂+0.069027X₃-0.026836X₁²-0.030794X₃², F=24.98,P<0.01;Y_碱性=0.267286-0.200736X₁+0.049541X₂+0.030930X₃-.049063X₁X₂+0.053585X₁²-0.049665X₂^2, F=57.68,P<0.01。结果表明,温浴时间是影响叶螨酸性磷酸酯酶活性的关键因子,在缓冲液pH 4.4、底物浓度8.5×10^-3 mol/L、42℃温浴40 min测得该酶活性最强。影响碱性磷酸酯酶活性的关键因子则是缓冲液pH值,pH 9.0、37℃恒温30 min、底物7.5×10^-3 mol/L的条件下,光密度值最大。两种酶的最大吸收峰波长为405 nm。     

Mechanical signals and mechanosensitive modulation of intracellular [Ca(2+)] in smooth muscle

We testedthe hypothesis that strain is the primary mechanical signal in themechanosensitive modulation of intracellular Ca²⁺concentration ([Ca²⁺]_i) in airway smoothmuscle. We found that [Ca²⁺]_i wassignificantly correlated with muscle length during isotonic shorteningagainst 20% isometric force (F_iso). When the isotonic loadwas changed to 50% F_iso, data points from the 20 and 50% F_iso experiments overlapped in thelength-[Ca²⁺]_i relationship. Similarly, datapoints from the 80% F_iso experiments clustered near thosefrom the 50% F_iso experiments. Therefore, despite 2.5- and4-fold differences in external load, [Ca²⁺]_idid not deviate much from the length-[Ca²⁺]_irelation that fitted the 20% F_iso data. Maximal inhibition of sarcoplasmic reticular (SR) Ca²⁺ uptake by 10 µMcyclopiazonic acid (CPA) did not significantly change[Ca²⁺]_i in carbachol-induced isometriccontractions and isotonic shortening. CPA also did not significantlychange myosin light-chain phosphorylation or force redevelopment whencarbachol-activated muscle strips were quickly released from optimallength (L_o) to 0.5 L_o. These results are consistent with thehypothesis and suggest that SR Ca²⁺ uptake is not theunderlying mechanism.

     

DNA damage-induced [Zn(2+)](i) transients: correlation with cell cycle arrest and apoptosis in lymphoma cells

Reactive changes in free intracellularzinc cation concentration ([Zn²⁺]_i) weremonitored, using the fluorescent probe Zinquin, in human lymphoma cells exposed to the DNA-damaging agent VP-16. Two-photon excitation microscopy showed that Zinquin-Zn²⁺ formscomplexes in cytoplasmic vesicles. [Zn²⁺]_iincreased in both p53^wt (wild type) and p53^mut(mutant) cells after exposure to low drug doses. In p53^mutcells noncompetent for DNA damage-induced apoptosis, elevated [Zn²⁺]_i was maintained at higher drug doses,unlike competent p53^wt cells that showed a collapse of thetransient before apoptosis. In p53^wt cells, the[Zn²⁺]_i rise paralleled an increase in p53and bax-to-bcl-2 ratio but preceded an increase in p21^WAF1,active cell cycle arrest in G₂, or nuclear fragmentation.Reducing [Zn²⁺]_i, usingN,N,N',N'-tetrakis(2-pyridylmethyl)ethylenediamine, caused rapid apoptosis in both p53^wt andp53^mut cells, although cotreatment with VP-16 exacerbatedapoptosis only in p53^wt cells. This may reflectchanged thresholds for proapoptotic caspase-3 activation incompetent cells. We conclude that the DNA damage-induced transient isp53-independent up to a damage threshold, beyond which competent cellsreduce [Zn²⁺]_i before apoptosis.Early stress responses in p53^wt cells take place in anenvironment of enhanced Zn²⁺ availability.

     

Regulation of KCa current by store-operated Ca2+ influx depends on internal Ca2+ release in HSG cells

This study examines theCa²⁺ influx-dependent regulationof the Ca²⁺-activatedK⁺ channel(K_Ca) in human submandibulargland (HSG) cells. Carbachol (CCh) induced sustained increases in theK_Ca current and cytosolic Ca²⁺ concentration([Ca²⁺]_i),which were prevented by loading cells with1,2-bis(2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid (BAPTA). Removal of extracellularCa²⁺ and addition ofLa³⁺ orGd³⁺, but notZn²⁺, inhibited the increases inK_Ca current and[Ca²⁺]_i.Ca²⁺ influx during refill (i.e.,addition of Ca²⁺ to cells treatedwith CCh and then atropine inCa²⁺-free medium) failed to evokeincreases in the K_Ca current but achieved internal Ca²⁺ storerefill. When refill was prevented by thapsigargin,Ca²⁺ readdition induced rapidactivation of K_Ca. These dataprovide further evidence that intracellularCa²⁺ accumulation provides tightbuffering of[Ca²⁺]_iat the site of Ca²⁺ influx (H. Mogami, K. Nakano, A. V. Tepikin, and O. H. Petersen. Cell 88: 49-55, 1997). We suggestthat the Ca²⁺ influx-dependentregulation of the sustained K_Cacurrent in CCh-stimulated HSG cells is mediated by the uptake ofCa²⁺ into the internalCa²⁺ store and release via theinositol 1,4,5-trisphosphate-sensitive channel.

     

Mutagenesis of the N-glycosylation site of hNaSi-1 reduces transport activity

The human Na⁺-sulfate cotransporter (hNaSi-1) belongs to the SLC13 gene family, which also includes the high-affinity Na⁺-sulfate cotransporter (hSUT-1) and the Na⁺-dicarboxylate cotransporters (NaDC). In this study, the location and functional role of the N-glycosylation site of hNaSi-1 were studied using antifusion protein antibodies. Polyclonal antibodies against a glutathione S-transferase fusion protein containing a 65-amino acid peptide of hNaSi-1 (GST-Si65) were raised in rabbits, purified, and then used in Western blotting and immunofluorescence experiments. The antibodies recognized native NaSi-1 proteins in pig and rat brush-border membrane vesicles as well as the recombinant proteins expressed in Xenopus oocytes. Wild-type hNaSi-1 and two N-glycosylation site mutant proteins, N591Y and N591A, were functionally expressed and studied in Xenopus oocytes. The apparent mass of N591Y was not affected by treatment with peptide-N-glycosylase F, in contrast to the mass of wild-type hNaSi-1, which was reduced by up to 15 kDa, indicating that Asn⁵⁹¹ is the N-glycosylation site. Although the cell surface abundance of the two glycosylation site mutants, N591Y and N591A, was greater than that of wild-type hNaSi-1, both mutants had greatly reduced V_max, with no change in K_m. These results suggest that Asn⁵⁹¹ and/or N-glycosylation is critical for transport activity in NaSi-1. antifusion protein antibodies; Xenopus oocytes; sulfate; immunofluorescence     

Sample preconditioning for measurement of fluorescence induction of chlorophyll a in marine phytoplankton

Conditions for measuring fluorescence induction curves (time-scalems) of in vivo chlorophyll ^a were studied using cultures ofDunaliella tertiolecta Butcher (Chlorophyceae) and of Thalassiosirapseudonana Hustedt (3H) (Bacillariophyceae), and samples ofnatural phytoplankton populations from the Grand Banks. Thearea above the fluorescence induction curve (A_DCMU) and themaximum fluorescence intensity (F_max) measured in the presenceof 3-(3,4-dichlorophenyl)-1, 1-dimethylurea (DCMU) were computedby microcomputer. Cells must be ‘conditioned’ or‘adapted’ prior to obtaining a fluorescence inductioncurve; dark-adaptation resulted in a lower A_DCMU and F_max thandid adaptation in far-red (720 nm) light, and was the conditioningmethod chosen. A_DCMU and F_max increased linearly with increasingirradiance up to 32.8 W m^–2 the highest actinic irradianceavailable. Information on the light history of D. tertiolectawas obtained by following the time-course of change in A_DCMUand in F_max for cells exposed for 10 min to far-red or to bluelight. The rise-time of the fluorescence induction curve andvalues of F_max were greater for samples of D. tertiolecta concentratedonto glass-fiber filters than for liquid samples, however, valuesof A_DCMU for filtered and liquid samples were not significantlydifferent. Samples of Grand Banks phytoplankton collected ontoglass-fiber filters and frozen for 28 d exhibited a significantdecrease in F_max and in A_DCMU relative to the same freshly-filteredsamples. Filtration and freezing of samples is not recommended. ^*This paper is the result of a study made at the Group for AquaticPrimary Productivity (GAP). Second International Workshop heldat the National Oceanographic Institute. Haifa. Israel in April–May1984.     

Novel role of the Ca2+-ATPase in NMDA-induced intracellular acidification

The mechanism involved inN-methyl-D-glucamine(NMDA)-induced Ca²⁺-dependentintracellular acidosis is not clear. In this study, we investigated indetail several possible mechanisms using cultured rat cerebellargranule cells and microfluorometry [fura 2-AM or 2',7'-bis(2-carboxyethyl)-5(6)-carboxyfluorescein-AM].When 100 µM NMDA or 40 mM KCl was added, a marked increase in theintracellular Ca²⁺ concentration([Ca²⁺]_i)and a decrease in the intracellular pH were seen. Acidosis wascompletely prevented by the use ofCa²⁺-free medium or1,2-bis(2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid-AM, suggesting that it resulted from an influx of extracellular Ca²⁺. The following fourmechanisms that could conceivably have been involved were excluded:1)Ca²⁺ displacement of intracellularH⁺ from common binding sites;2) activation of an acid loader or inhibition of acid extruders; 3)overproduction of CO₂ or lactate; and 4) collapse of the mitochondrialmembrane potential due to Ca²⁺uptake, resulting in inhibition of cytosolicH⁺ uptake. However,NMDA/KCl-induced acidosis was largely prevented by glycolyticinhibitors (iodoacetate or deoxyglucose in glucose-free medium) or byinhibitors of the Ca²⁺-ATPase(i.e.,Ca²⁺/H⁺exchanger), including La³⁺,orthovanadate, eosin B, or an extracellular pH of 8.5. Our results therefore suggest that Ca²⁺-ATPaseis involved in NMDA-induced intracellular acidosis in granule cells. Wealso provide new evidence that NMDA-evoked intracellular acidosisprobably serves as a negative feedback signal, probably with theacidification itself inhibiting the NMDA-induced[Ca²⁺]_i increase.

     

Proton/Pyruvate Cotransport into Mesophyll Chloroplasts of C4 Plants

Light-enhanced active pyruvate uptake into mesophyll chloroplastsof C₄ plants was reported to be mimicked by either of the twotypes of cation jump: H⁺-jump in maize and phylogenically relatedspecies (H⁺-type) and Na⁺-jump in all the other C₄ species tested(Na⁺-type) [Aoki, N., Ohnishi, J. and Kanai, R. (1992) PlantCell Physiol. 33: 805]. In this study, medium and stromal pH was monitored in the suspensionof C₄ mesophyll chloroplasts. Medium alkalization lasting for5 to 10 seconds after pyruvate addition was detected by a pHelectrode and observed only in the light and only in mesophyllchloroplasts from H⁺-type species, Zea mays L. and Coix lacryma-jobiL., but not in those from Na⁺-type species Panicum miliaceumL., Setaria italica (L.) Beauv. and Panicum maximum Jacq. Theinitial rate of H⁺ consumption showed good correlation with[¹⁴C]pyruvate uptake measured by silicone oil filtering centrifugation,both being inhibited by N-ethylmaleimide and 7-chloro-4-nitrobenzo-2-oxa-l,3-diazole to the same degree. The ratio of the rate of H⁺ uptaketo that of pyruvate uptake was always about 1. Pyruvate-inducedacidification of the stroma was observed in maize mesophyllchloroplasts. These results show one to one cotransport of H⁺and pyruvate anion into mesophyll chloroplasts of H⁺-type C₄species in the light. (Received January 5, 1994; Accepted May 6, 1994)     

Rat cerebellar granule cells are protected from glutamate-induced excitotoxicity by S-nitrosoglutathione but not glutathione

In cultured rat cerebellar granule cells, glutamate or N-methyl-D-aspartate (NMDA) activation of the NMDA receptor caused a sustained increase in cytosolic Ca²⁺ levels ([Ca²⁺]_i), reactive oxygen species (ROS) generation, and cell death (respective EC₅₀ values for glutamate were 12, 30, and 38 µM) but no increase in caspase-3 activity. Removal of extracellular Ca²⁺ blocked all three glutamate-induced effects, whereas pretreatment with an ROS scavenger inhibited glutamate-induced cell death but had no effect on the [Ca²⁺]_i increase. This indicates that glutamate-induced cell death is attributable to [Ca²⁺]_i increase and ROS generation, and the [Ca²⁺]_i increase precedes ROS generation. Apoptotic cell death was not seen until 24 h after exposure of cells to glutamate. S-nitrosoglutathione abolished glutamate-induced ROS generation and cell death, and only a transient [Ca²⁺]_i increase was seen; similar results were observed with another nitric oxide (NO) donor, S-nitroso-N-acetylpenicillamine, but not with glutathione, which suggests that the effects were caused by NO. The transient [Ca²⁺]_i increase and the abolishment of ROS generation induced by glutamate and S-nitrosoglutathione were still seen in the presence of an ROS scavenger. Glial cells, which were present in the cultures used, showed no [Ca²⁺]_i increase in the presence of glutamate, and glutamate-induced granule cell death was independent of the percentage of glial cells. In conclusion, NO donors protect cultured cerebellar granule cells from glutamate-induced cell death, which is mediated by ROS generated by a sustained [Ca²⁺]_i increase, and glial cells provide negligible protection against glutamate-induced excitotoxicity. cytosolic calcium concentration; N-methyl-D-aspartate; reactive oxygen species