Interactions between anion exchange and other membrane proteins in rabbit kidney medullary collecting duct cells

Summary In separated outer medullary collecting duct (MCD) cells, the time course of binding of the fluorescent stilbene anion exchange inhibitor, DBDS (4,4-dibenzamido-2,2-stilbene disulfonate), to the MCD cell analog of band 3, the red blood cell (rbc) anion exchange protein, can be measured by the stopped-flow method and the reaction time constant, _DBDS, can be used to report on the conformational state of the band 3 analog. In order to validate the method we have now shown that the ID_50,DBDS,MCD (0.5±0.1 m) for the H₂-DIDS (4,4-diisothiocyano-2,2-dihydrostilbene disulfonate) inhibition of _DBDS is in agreement with the ID_50,Cl ^–,_MCD (0.94±0.07 m) for H₂-DIDS inhibition of MCD cell Cl^– flux, thus relating _DBDS directly to anion exchange. The specific cardiac glycoside cation transport inhibitor, ouabain, not only modulates DBDS binding kinetics, but also increases the time constant for Cl^– exchange by a factor of two, from _Cl=0.30±0.02 sec to 0.56±0.06 sec (30mm NaHCO₃). The ID_50,DBDS,MCD for the ouabain effect on DBDS binding kinetics is 0.003±0.001 m, so that binding is about an order of magnitude tighter than that for inhibition of rbc K⁺ flux (K _I,K ⁺,_rbc=0.017 m). These experiments indicate that the Na⁺,K^–-ATPase, required to maintain cation gradients across the MCD cell membrane, is close enough to the band 3 analog that conformational information can be exchanged. Cytochalasin E (CE), which binds to the spectrin/actin complex in rbc and other cells, modulates DBDS binding kinetics with a physiological ID_50,DBDS,MCD (0.076±0.005 m); 2 m CE also more than doubles the Cl^– exchange time constant from 0.20±0.04 sec to 0.50±0.08 sec (30mm NaHCO₃). These experiments indicate that conformational information can also be exchanged between the MCD cell band 3 analog and the MCD cell cytoskeleton.     

Modulation of natural killer activity by thymosin alpha 1 and interferon

Summary A single injection of -interferon (-IFN) (30 000 units/mouse), a major biological modifier of natural killer (NK) cytolytic activity, strongly stimulated NK activity in normal mice, as expected, while the same treatment did not statistically alter the NK response in cyclophosphamide (CY)-suppressed animals.We investigated the possibility of thymosin ₁ cooperating with -IFN in boosting NK activity in CY-suppressed animals.The results show that treatment with thymosin ₁ (200 g/kg) for 4 days, followed by a single injection of -IFN 24 h before testing, strongly restored NK activity in CY-suppressed mice. Thymosin ₁ was, moreover, able to accelerate the recovery rate of NK activity in bone marrow reconstituted murine chimeras.Taken together the data support the concept that the synergic effect between thymosin ₁ and -IFN could be the result of effects on differentiation of the NK lineage at different levels.     

Significance of the β-Subunit in the Biogenesis of Na+/K+-ATPase

This review summarizes our experiments on the significance of the -subunit in the functional expression of Na⁺/K⁺-ATPase. The -subunit acts like a receptor for the -subunit in the biogenesis of Na⁺/K⁺-ATPase and facilitates the correct folding of the -subunit in the membrane. The -subunit synthesized in the absence of the -subunit is subjected to rapid degradation in the endoplasmic reticulum. Several assembly sites are assigned in the sequence of the -subunit from the cytoplasmic NH₂-terminal domain to the extracellular COOH-terminus: the NH₂-terminal region of the extracellular domain, the conservative proline in the third disulfide loop, the hydrophobic amino acid residues near the COOH-terminus and the cysteine residues forming the second and the third disulfide bridges. Upon assembly, the -subunit confers a resistance to trypsin on the -subunit. The conformations induced in the -subunit of Na⁺/K⁺-ATPase by Na⁺/K⁺- and H⁺/K⁺-ATPase -subunits are somehow different from each other and are named the NK-type and KH-type, respectively. The extracellular domain of the -subunit is involved in the folding of the -subunit leading to trypsin-resistant conformations. The sequences from Cys150 to the COOH-terminus of the Na⁺/K⁺-ATPase -subunit and from Ile89 to the COOH–terminus of the H⁺/K⁺-ATPase -subunit are necessary to form trypsin-resistant conformations of the NK- and HK-type. respectively. The first disulfide loop of the extracellular domain of the -subunits is critical in the expression of functional Na⁺/K⁺-ATPase.     

Modulation of the serotonin-activated K+ channel by G protein subunits and nucleotides in rat hippocampal neurons

In hippocampal neurons, 5-hydroxytryptamine (5-HT) activates an inwardly rectifying K⁺ current via G protein. We identified the K⁺ channel activated by 5-HT (K_5-HT channel) and studied the effects of G protein subunits and nucleotides on the K⁺ channel kinetics in adult rat hippocampal neurons. In inside-out patches with 10 m 5-HT in the pipette, application of GTP (100 m) to the cytoplasmic side of the membrane activated an inwardly rectifying K⁺ channel with a slope conductance of 36±1 pS (symmetrical 140 mm K⁺) at –60 mV and a mean open time of 1.1±0.1 msec (n=5). Transducin activated the (K_5-HT) channels and this was reversed by -GDP. Whether the K_5-HT channel was activated endogenously (GTP, GTPS) or exogenously (), the presence of 1 mm ATP resulted in a 4-fold increase in channel activity due in large part to the prolongation of the open time duration. These effects of ATP were irreversible and not mimicked by AMPPMP, suggesting that phosphorylation might be involved. However, inhibitors of protein kinases A and C (H-7, staurosporine) and tyrosine kinase (tyrphostin 25) failed to block the effect of ATP. These results show that G activates the G protein-gated K⁺ channel in hippocampal neurons, and that ATP modifies the gating kinetics of the channel, resulting in increased open probability via as yet unknown pathways.     

Renal basolateral membrane anion transporter characterized by a fluorescent disulfonic stilbene

Summary The fluorescence enhancement of 4,4-dibenzamido-2,2-disulfonic stilbene (DBDS) upon binding to membranes was used to examine proximal tubule stilbene binding sites. Equilibrium binding studies of DBDS to renal brush border (BBMV) and basolateral membrane vesicles (BLMV) were performed using a fluorescence enhancement technique developed for red blood cells (A.S. Verkman, J.A. Dix and A.K. Solomon,J. Gen. Physiol. 81:421–449, 1983). In the absence of transportable anions, DBDS bound reversibly to a single class of sites on BLMV isolated from rabbit (K _d =3.8 m) and rat (3.2 m); 100 m dihydro-4,4-diisothiocyano-2,2-disulfonic stilbene (H₂DIDS) blocked >95% of binding. H₂DIDS inhibitable DBDS binding was not detected using rat or rabbit BBMV. In rabbit BLMV, DBDSK _d doubled with 10mm SO₄, 50mm HCO₃ and 100mm Cl, but was not altered by Na or pH (6–8). In stopped-flow experiments the exponential time constant for DBDS binding slowed with SO₄, HCO₃ and Cl, but was unaffected by Na. These results are consistent with competitive binding of DBDS and anions at an anion transport site. To relate DBDS binding data to anion transport inhibition we used³⁵SO₄ uptake to characterize several modes of rabbit BLM anion transport: H/SO₄ and Na/SO₄ cotransport, and Cl/SO₄ countertransport. Each transport process was electroneutral and was inhibited by H₂DIDS, furosemide, probenecid, chlorothiazide and DBDS. The apparentK _t 's for DBDS (3–20 m) were similar toK _d for DBDS binding. These studies define a class of anion transport sites on the proximal tubule basolateral membrane measureable optically by a fluorescent stilbene.     

Microscale analysis of glycosphingolipids by TLC blotting/secondary ion mass spectrometry: a novel blood group A-active glycosphingolipid and changes in glycosphingolipid expression in rat mammary tumour cells with different metastatic potentials

The glycosphingolipid compositions of rat mammary tumour cell lines with different metastatic potentials for the lung [a parental tumour cell line (MTC) and its subclones MTLn2 (a non metastatic subclone) and MTLn3 (a subclone with high metastatic potential to the lung)] were studied using a newly developed TLC blotting/secondary ion mass spectrometry system and crude glycosphingolipids obtained from 0.5–1×10⁷ cells of each cell line. G_M3 and G_M2 were the major components of the MTC cell line, but they were very minor components in the MTLn2 and MTLn3 cell lines, G_Dla being the major ganglioside. HexNAc-fucosyl-G_Mla was found in the MTLn2 cells by the TLC blotting/SIMS method, and the terminal sugar linkage was shown to be a blood group A-type structure by immunostaining. These findings suggest that the ganglioside is a novel type of blood group A-active ganglioside, GalNAc1-3(Fuc1-2)G_Mla. No blood group A-active lipid was present in MTLn3 cells, whereas Hex-G_Mla and neutral glycosphingolipids with more than 5 sugar residues were. Abbreviations: TLC, thin-layer chromatography; HPTLC plate, high performance thin-layer chromatography-plate; PVDF, polyvinylidene difluoride; SIMS, secondary ion mass spectrometry; GC-MS, gas chromatography-mass spectrometry; C16:0, hexadecanoic acid; C18:0, octadecanoic acid; C22:0, docosanoic acid; C24:0, tetracosanoic acid; d18:1, 2-amino-4-octadecene-1,3-diol; Hex, hexose; HexNAc,N-acetylhexosamine; Gal, galactose; Glc, glucose; GalNAc,N-acetylgalactosamine; Lac, lactose; NeuAc,N-acetylneuraminic acid; Cer, ceramide; Glob, globoside; iGlob, isogloboside; GlcCer, glucosylceramide; LacCer, lactosylceramide; Gb₃Cer, Gal1-4Gal1-4Glc1-1Cer; Gb₄Cer (Glob), GalNAc1-3Gal1-4Glc1-1Cer; iGb₃Cer, Gal1-3Gal1-4Glc1-1Cer; iGb₄Cer (iBlob), GalNAc1-3Gal1-4Glc1-1Cer; Ganglio-series gangliosides are named according to Svennerholm [1].     

Uptake of lysine and prolinevia separate α-neutral amino acid transport pathways inMytilus gill brush border membranes

Summary Brush border membrane vesicles (BBMV) were prepared from the gills of the marine mussel,Mytilus edulis. These membranes contained two distinct pathways for cotransport of Na⁺ and -neutral amino acids. The major pathway in mussel gill BBMV was the alanine-lysine (AK) pathway, which had a high affinity for alanine and for the cationic amino acid, lysine. The AK pathway was inhibited by nonpolar -neutral amino acids and cationic amino acids, but was not affected by -neutral amino acids or imino acids. The kinetics of lysine transport were consistent with a single saturable process, with aJ _max of 550 pmol/mg-min and aK _t of 5 m. The AK pathway did not have a strict requirement for Na⁺, and concentrative transport of lysine was seen in the presence of inwardly directed gradients of Li⁺ and K⁺, as well as Na⁺. Harmaline inhibited the transport of lysine in solutions containing either Na⁺ or K⁺. The alanine-proline (AP) pathway transported both alanine and proline in mussel gill BBMV. The AP pathway was strongly inhibited by nonpolar -neutral amino acids, proline, and -(methylamino)isobutyric acid (Me-AIB). The kinetics of proline transport were described by a single saturable process, with aJ _max of 180 pmol/mg-min andK _t of 4 m. In contrast to the AK pathway, the AP pathway appeared to have a strict requirement for Na⁺. Na⁺-activation experiments with lysine and proline revealed sigmoid kinetics, indicating that multiple Na⁺ ions are involved in the transport of these substrates. The transport of both lysine and proline was affected by membrane potential in a manner consistent with electrogenic transport.     

Electrogenic properties of the cloned Na+/glucose cotransporter: II. A transport model under nonrapid equilibrium conditions

Summary The results of the accompanying electrophysiological study of the cloned Na⁺/glucose cotransporter from small intestine (Parent, L., Supplisson, S., Loo, D.D.F., Wright, E.M. (1992) J. Membrane Biol. 125:49–62) were evaluated in terms of a kinetic model. The steady-state and presteady-state cotransporter properties are described by a 6-state ordered kinetic model (mirror symmetry) with a Na⁺:MDG stoichiometry of 2. Carrier translocation in the membrane as well as Na⁺ and sugar binding and dissociation are treated as a function of their individual rate constants. Empty carrier translocation and Na⁺ binding/ dissociation are the only steps considered to be voltage dependent. Currents were associated with the translocation of the negatively charged carrier in the membrane. Negative membrane potential facilitates sugar transport. One numerical solution was found for the 14 rate constants that account quantitatively for our experiment observations: i.e., (i) sigmoidal shape of the sugar-specific current-voltage curves (absence of outward currents and inward current saturation at high negative potentials), (ii) Na⁺ and voltage dependence of K _0.5 ^sugar and i _max ^sugar , (iii) sugar and voltage dependence of K _0.5 ^Na and i _max ^Na , (iv) presteady-state currents and their dependence on external Na⁺, MDG and membrane potential, and (v) and carrier Na⁺ leak current. We conclude that the main voltage effect is on carrier translocation. Na⁺ ions that migrate from the extracellular medium to their binding sites sense 25 to 35% of the transmembrane voltage, whereas charges associated with the carrier translocation experiences 60 to 75% of the membrane electrical field. Internal Na⁺ ion binding is not voltage dependent. In our nonrapid equilibrium model, the rate-limiting step for sugar transport is a function of the membrane potential, [Na]₀ and [MDG]₀. At 0 mV and at saturating [Na]₀ and [MDG]₀, the rate-limiting step for sugar transport is the empty carrier translocation (5 sec^–1). As the membrane potential is made more negative, the empty carrier translocation gets faster and the internal Na⁺ dissociation becomes increasingly rate limiting. However, as [Na]₀ is decreased to less than 10 mm, the rate-limiting step is the external Na⁺ ions binding in the 0 to –150 mV potential range. At 0 mV, the external Na⁺ dissociation constant KNa is 80 mm and decreases to 24 mm at –150 mV. The external sugar dissociation constant KNaS is estimated to be 200 m and voltage independent. Finally, the internal leak pathway (CNa₂ translocation) is insignificant. While we cannot rule out a more complex kinetic model, the electrical properties of the cloned Na⁺/glucose cotransporter are found to be adequately described by this 6-state kinetic model.We are grateful to Drs. A. Berteloot, S. Ciani, and J.-Y. Lapointe for stimulating discussions and thank our colleagues for comments. L.P. was recipient of a post-doctoral fellowship from the Medical Research Council of Canada. This work was supported by a grant from the U.S. Public Health Service DK 19567.     

Regulation of intracellular pH in LLC-PK1 cells by Na+/H+ exchange

Summary Suspensions of LLC-PK₁ cells (a continuous epitheliod cell line with renal characteristics) are examined for mechanisms of intracellular pH regulation using the fluorescent probe BCECF. Initial experiments determine suitable calibration procedures for use of the BCECF fluorescent signal. They also determine that the cell suspension contains cells which (after 4 hr in suspension) have Na⁺ and K⁺ gradients comparable to those of cells in monolayer culture. The steady-state intracellular pH (7.05±0.01,n=5) of cells which have recovered in (pH 7.4) Na⁺-containing medium is not affected over several minutes by addition of 100 M amiloride or removal of extracellular Na⁺ (Na _o ⁺ /H _i ⁺ and Na _i ⁺ /H _o ⁺ exchange reactions are functionally inactive (compared to cellular buffering capacity). In contrast, Na _o ⁺ /H _i ⁺ exchange is activated by an increased cellular acid load. This activation may be observed directly either as a stimulation of net H⁺ efflux or net Na⁺ influx with decreasing intracellular pH. The extrapolation of this latter data suggests a set point of Na⁺/H⁺ exchange of approximately pH 7.0, consistent with the observed resting intracellular pH of approximately 7.05.     

Rapid Ca2+ extrusion via the Na+/Ca2+ exchanger of the human platelet

Summary This communication reports the kinetics of the Na⁺/ Ca²⁺ exchanger and of the plasma membrane (PM) Ca²⁺ pump of the intact human platelet. The kinetic properties of these two systems were deduced by studying the rate of Ca²⁺ extrusion and its Na⁺ dependence for concentrations of cytoplasmic free Ca²⁺ ([Ca²⁺]_cyt) in the 1–10-m range. The PM Ca²⁺ATPase was previously characterized (Johansson, J.S. Haynes, D.H. 1988. J. Membrane Biol. 104:147–163) for [Ca²⁺]_cyt] 1.5 m with the fluorescent Ca²⁺ indicator quin2 (K _d= 115 nm). That study determined that the PM Ca²⁺ pump in the basal state has a V _max = 0.098 mm/min, a K _m= 80 nm and a Hill coefficient = 1.7. The present study extends the measurable range of [Ca²⁺]_cyt with the intracellular Ca²⁺ probe, rhod2 (K _d= 500 nm), which has almost a fivefold lower affinity for Ca²⁺. An Appendix also describes the Mg²⁺ and pH dependence of the K _dand fluorescence characteristics of the commercially available dye, which is a mixture of two molecules. Rates of active Ca²⁺ extrusion were determined by two independent methods which gave good agreement: (i) by measuring Ca²⁺ extrusion into a Ca²⁺-free medium (above citation) or (ii) by the newly developed ionomycin short-circuit method, which determines the ionomycin concentration necessary to short circuit the PM Ca²⁺ extrusion systems. Absolute rates of extrusion were determined by knowledge of how many Ca²⁺ ions are moved by ionomycin per minute. The major findings are as follows: (i) The exchanger is saturable with respect to Ca²⁺ with a K _m= 0.97 ± 0.31 m and V_max = 1.0 ± 0.6 mm/ min. (ii) At high [Ca²⁺]_cyt, the exchanger works at a rate 10 times as large as the basal V _max of the PM Ca²⁺ extrusion pump. (iii) The exchanger can work in reverse after Na⁺ loading of the cytoplasm by monensin. (iv) The PM Ca²⁺ extrusion pump is activated by exposure to [Ca²⁺]_cyt 1.5 m for 20–50 sec. Activation raises the pump V _max to 1.6 ± 0.6 mm/min and the K _mto 0.55 ± 0.24 m. (v) The Ca²⁺ buffering capacity of the cytoplasm is 3.6 mm in the 0.1 to 3 m range of [Ca²⁺]_cyt. In summary, the results show that the human platelet can extrude Ca²⁺ very rapidly at high [Ca²⁺]_cyt. Both the Na⁺/Ca²⁺ exchanger and Ca²⁺ pump activation may prevent inappropriate platelet activation by marginal stimuli.Abbreviations cAMP cyclic adenosine 3,5-monophosphate - cGMP cyclic guanosine 3,5,-monophosphate - Ca-CAM calcium calmodulin; - DT dense tubules - B intrinsic cytoplasmic Ca²⁺ binding sites - R rhod2 or 5-(3,6-bis(dimethylamino)xanth-9-yl)-1-(2-amino-4-hy droxy lphenoxy)-2-(2-amino-5-methylphen- oxy)ethane-N,N,NN-tetraacetic acid - [Ca²⁺]_cyt cytoplasmic Ca²⁺ activity - quin2 2-[[2-bis[(carboxymethyl)amino]-5-methyl-phenoxy]methyl]-6-methoxy-8-[bis(carboxymethyl)amino]quinoline - V or V_extrusion true rate of Ca²⁺ extrusion - fura-2 1-[2-(5-carboxyoxazol-2-yl)-6-aminobenzofuran-5-oxy]-2-(2-amino-5-methylphenoxy)-ethane-N,N,NN-tetraacetic acid - AM acetoxymethyl ester - DMSO dimethylsulfoxide - CTC chlortetracycline - EGTA ethyleneglycol-bis(-aminoethyl ether) N,N,N,N- tetraacetic acid - HEPES 4-(2-hydroxyethyl)-1-piperazine ethanesulfonic acid - NMDG N-methyl-d-glucamine - PIPES 1,4-piperazine-bis-(ethanesulfonic acid) - HPLC high performance liquid chromatography - _I fraction of high-affinity rhod2 complexed with Ca²⁺ - F the observed fluorescence - F_min the minimal fluorescence observed in the absence of Ca²⁺ - F_max the maximal fluorescence observed when the dye is saturated with Ca²⁺ - X₁ the fraction of high-affinity dye - K _d,1 dissociation constant of high-affinity dye - K _d,2 dissociation constant of the low-affinity dye - -d₁/dt rate of Ca²⁺ removal from the rhod2-Ca complex; - -dF/dt the slope representing the absolute rate of fluorescence decrease in a progress curve - F_max (F_max — F_min)_cyt difference between maximal and minimal fluorescence for cytoplasmic high affinity form of rhod2 - F₅₀ fluorescence of the high-affinity form ofrhod2for[Ca²⁺]_cyt=50 nM - [Ca²⁺]₀ external Ca²⁺concentration - K _p proportionality constant between the total number of Ca²⁺ ions moved and the change in high-affinity rhod2 complexation to Ca² - (d[Ca²⁺]_{cyt, T})/dt rate of Ca²⁺ influx obtained with maximal levels of ionomycin - k_leak rate constant for passive inward Ca²⁺ leakage - k_inno rate constant for ionomycin-mediated Ca²⁺ influx - T total - [rhod2]_cyt,T total intracellular rhod2 concentration - [quin2]_cyt,T total intracellular quin2 concentration - [B]_T total cytoplasmic buffering capacity - A[Ca²⁺]_cyt,T total number of Ca²⁺ ions moved into the cytoplasm - [rhod2-Ca]_{cyt, T} change in concentration of total intracellular high-affinity rhod2 complexed to Ca²⁺ - [B-Ca]_T change in concentration of total cytoplasmic binding sites complexed to Ca²⁺ - [quin2]_{cyt, T} change in concentration of total intracellular quinl complexed to Ca²⁺ - change in the degree of intracellular quin2 saturation - ₁ change in degree of saturation of cytoplasmic high-affinity rhod2 - ₁-/t rate of change in degree of saturation of cytoplasmic high affinityrhod2 - V_obs observed rate of Ca²⁺ removal from the rhod2-Ca complex - V_{8.3 m} the rate of Ca²⁺ removal from the high affinity rhod2-Ca complex at [Ca²⁺]_cyt = 8.3 m - /t rate of change in of the degree of quin2 saturation - [Ca²⁺]_cytT/_t initial linear rate of ionomycin-mediated Ca²⁺ influx - EC₅₀ effective concentration giving a half-maximal effect - [Na⁺]_cyt cytoplasmic Na⁺ activity - CAM calmodulin - ACN acetonitrile - TFA trifuloroacetic acid     

[3H]Histamine uptake and release by astrocytes from rat brain: Effects of sodium deprivation,high potassium,and potassium channel blockers

Histamine transport has been characterized in cultured astroglial cells of rat brain. The kinetics of [³H]-histamine uptake yielded a K_m of 0.19±0.03 M and a V_max of 3.12±0.75 pmol×mg protein^–1×min^–1. Transport system revealed high affinity for histamine and an approximately ten times higher capacity than that shown in cultured glial cells of chick embryonic brain. Ouabain which interferes with utilization of ATP to generate ion gradients, and the replacement of Na⁺ with choline inhibited the initial rate of uptake showing a strong Na⁺-dependency and suggesting the presence of a tightly coupled sodium/histamine symporter. Dissipation of K⁺-gradient (in>out) by high K⁺ or by K⁺-channel blockers, BaCl₂, (100 M), quinine (100 M) or Sparteine (20 M) produced also remarkable inhibitions in the uptake of [³H]-histamine. Impromidine, a structural histamine-analogue could inhibit the uptake non-competitively in a range of concentrations of 1 to 10 M with a K_i value of 2.8 M, indicating the specificity of the uptake. [³H]histamine uptake measurements carried out by using a suspension of dissociated hypothalamic cells, of rat brain showed a strong gliotoxin-sensitivity and yielded a Km of 0.33±0.08 M; and a V_max of 2.65±0.35 pmoles×mg protein^–1×min^–1. The uptake could be reversed by incubating the cells in histamine-free Krebs medium. The [³H]histamine efflux was sensitive to Na⁺ omission, ouabain treatment and high K⁺ or K⁺ channel blockers, resulting in marked elevations in the efflux. Data indicate that glial uptake of histamine is a high affinity, Na⁺-dependent and electrogenic, driven by an inward-oriented sodium ion gradient and an outward-oriented potassium ion gradient and functions as part of histamine inactivation, at least in a shunt mechanism.Abbreviations used HA histamine - [³H]HA [2.5-³H]-histamine - dl--aAA dl-alpha-aminoadipic acid - (Na⁺+K⁺) ATP-ase sodium and potassium activated adenosine triphosphatase - SAH S-Adenosyl-d-Homocysteine - HNMT histamine-N-methyltransferase     

Expression of a chimeric stilbene synthase gene in transgenic wheat lines

A chimeric stilbene synthase (sts)gene was transferred into wheat. Stilbene synthases play a role in the defence against fungal diseases in some plant species (e.g. groundnut or grapevine) by producing stilbenetype phytoalexins like resveratrol. Resveratrol is also claimed to have positive effects to human health. Embryogenic scutellar calli derived from immature embryos of the two commercial German spring wheat cultivars Combi and Hanno were used as target tissue for cotransformation by microprojectile delivery. The selectable marker/reporter gene constructs contained the bargene either driven by the ubiquitinpromoter from maize (pAHC 25, also containing the uidAgene driven by the ubiquitinpromoter), or by the actinpromoter (pDM 302) from rice. The cotransferred plasmid pStil 2 consisted of a grapevine stscoding region driven by the ubiquitin promoter. Eight transgenic Combi and one Hanno T_Oplant were obtained and, except one Combi T_Oplant, found to be cotransformants due to the integration of both the stsgene and the selectable marker or reporter genes. Expression of the stsgene was proven by RTPCR, and, for the first time, by detection of the stilbene synthase product resveratrol by HPLC and mass spectrometry. The stsgene was expressed in four of the seven transgenic Combi T_{_o}plants. Two of the respective T₁progenies segregated in a Mendelian manner were still expressing the gene. Investigations into methylation of the stsgene showed that in three nonexpressing progenies inactivation was paralleled by methylation.     

Gibberellins play a role in the interaction between imidazole fungicides and cytokinins in Araceae

Imidazole fungicides such as imazalil, prochloraz, and triflurnizole and the triazole growth retardant paclobutrazol promote the shoot-inducing effect of exogenous cytokinins in Araceae, such as Spathiphyllum floribundum Schott and Anthurium andreanum Schott. The mechanism of their action could partially be based on the inhibition of gibberellic acid (GA) biosynthesis, because administration of GA₃ inhibits the phenomenon completely in S. floribundum. Not only is the suppression of GA biosynthesis involved, but also the metabolism of endogenous cytokinins is significantly altered. Although the balance between isopentenyladenine, zeatin, dihydrozeatin, and their derivatives was shifted to distinguished directions by administration of BA and/or imazalil and/or GA₃, no correlation between these changes in metabolic pathways and the number of shoots could be found. The metabolism of BA was not significantly altered by adding imazalil to the micropropagation medium of S. floribundum.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - [9R-5P]DHZ 9--d-ribofuranosyl-dihydrozeatin-monophosphate - [9R-5P]iP 6-isopentenyl-9--d-ribofuranosyladenine-monophosphate - [9R-5P]Z 9--d-ribofuranosyl-zeatin-monophosphate - [9G]BA 6-benzyl-9--d-glucopyranosyladenine - [9G]DHZ 9--d-glucopyranosyl-dihydrozeatin - [9G]iP 6-isopentenyl-9--d-glucopyranosyladenine - [9G]Z 9--d-glucopyranosyl-zeatin - [9R]BA 6-benzyl-9--d-ribofuranosyladenine - [9R]DHZ 9--d-ribofuranosyl-dihydrozeatin - [9R]iP 6-isopentenyl-9--d-ribofuranosyladenine - [9R]Z 9--d-ribofuranosyl-zeatin - BA 6-benzyladenine - DHZ dihydrozeatin - ES⁺ LC-MS/MS HPLC coupled Electrospray Tandem Mass Spectrometry - f.m. fresh mass - mT 6-(3-hydroxybenzyl)adenine - IMA imazalil - iP isopentenyladenine - NAA 1-naphthalene acetic acid - NFT Nutrient Film Technique - (OG)[9R]DHZ O--glucopyranosyl-9--d-ribofuranosyl-dihydrozeatin - (OG)[9R]Z O--d-glucopyranosyl-9--d-ribofuranosyl-zeatin - (OG)DHZ O--d-glucopyranosyl-dihydrozeatin - (OG)Z O--d-glucopyranosyl-zeatin - PAR Photosynthetic Active Radiation - PBZ paclobutrazol - PRO prochloraz - TDZ thidiazuron - TRI triflurnizole - Z zeatin     

Beta-Adrenergic modulation of K+ current in human T lymphocytes

Summary The whole-cell voltage-clamp technique was employed to study the -adrenergic modulation of voltage-gated K⁺ currents in CD8⁺ human peripheral blood lymphocytes. The -receptor agonist, isoproterenol, decreased the peak current amplitude and increased the rate of inactivation of the delayed rectifier K⁺ current. In addition, isoproterenol decreased the voltage dependence of steady-state inactivation and shifted the steady-state inactivation curve to the left. Isoproterenol, on the other hand, had no significant effect on the steady-state parameters of current activation. The isoproterenol-induced decrease in peak current amplitude was inhibited by the -blocker propranolol. Bath application of dibutyryl cAMP (1mm) mimicked the effects of isoproterenol on both K⁺ current amplitude and time course of inactivation. Furthermore, the reduction in the peak current amplitude in response to isoproterenol was attenuated when PKI_5–24 (2–5 m), a synthetic peptide inhibitor of cAMP-dependent protein kinase, was present in the pipette solution. The increase in the rate of inactivation of the K⁺ currents in response to isoproterenol was mimicked by the internal application of GTP--S (300 m) and by exposure of the cell to cholera toxin (1 g/ml), suggesting the involvement of a G protein. These results demonstrate that the voltage-dependent K⁺ conductance in T lymphocytes can be modulated by -adrenergic stimulation. The effects of -agonists, i.e., isoproterenol, appear to be receptor mediated and could involve cAMP-dependent protein kinase as well as G proteins. Since inhibition of the delayed rectifier K⁺ current has been found to decrease the proliferative response in T lymphocytes, the -adrenergic modulation of K⁺ current may well serve as a feedback control mechanism limiting the extent of cellular proliferation.     

Characterization of maltose biosynthesis from α-d-glucose-1-phosphate in Spinacia oleracea. L.

The de novo synthesis of maltose in spinach (Spinacia oleracea L.) was shown to be catalyzed by a maltose synthase, which converts two molecules of -d-glucose-1-phosphate (-G1P) (K_m 1.5 mmol l^-1) to maltose and 2 orthophosphate (Pi). This enzyme was purified 203-fold by fractionated ammonium sulfate precipitation and by column chromatography on Sepharose 6B. The addition of -G1P (15 mmol l^-1) to the isolation buffer is required to stabilize the enzyme activity during the extraction and purification procedure. Molecular weight determination by gel filtration yielded a value of 95,000. -Gluconolactone, ATP and Pi are competitive inhibitors toward the substrate -G1P. The maltose synthase catalyzes an exchange of the phosphate group of -G1P with [³²P] orthophosphate; this transfer reaction suggests that the synthesis of maltose occurs via a glucose-enzyme in a double displacement reaction. The physiological role of this enzyme as a starch initiator system is discussed.Abbreviations Fru fructose - Glc glucose - -G1P -d-glucose-1-phosphate - -G1P -d-glucose-1-phosphate - G6P d-glucose-6-phosphate This enzyme is tentatively called maltose synthase in this publication     

Sialidase of swine influenza A viruses: variation of the recognition specificities for sialyl linkages and for the molecular species of sialic acid with the year of isolation

The sialidase of swine influenza A viruses of N1 and N2 subtypes, isolated from 1930 to 1992, was studied for substrate specificity with ganglio-series, lacto-series type II and GM3 gangliosides containing Neu5Ac2-3Gal, Neu5Gc2-3Gal and Neu5Ac2-6Gal linkages. All viral sialidases tested showed that the activity for hydrolysing substrates with Neu5Ac2-3Gal was higher than the activities with Neu5Gc2-3Gal and Neu5Ac2-6Gal linkages. When GM1b, GM3 and sialylparagloboside were used as substrates, the earliest strain (A/Wisconsin/15/30 H1N1, isolated in 1930) showed the activity ratio of Neu5Ac2-6Gal to Neu5Ac2-3Gal to be 0.13:0.2, and the ratio Neu5Gc2-3Gal/Neu5Ac2-3Gal to be 0.19:0.37, while those strains isolated from 1978 to 1992 exhibited ratios of 0.29:0.58 for Neu5Ac2-6Gal/Neu5Ac2-3Gal and 0.51:0.76 for Neu5Gc2-3Gal/Neu5Ac2-3Gal. The above results indicate that the substrate specificities of sialidases from swine influenza A viruses towards sialyl linkages and the molecular species of sialic acid are related to the year of isolation, i.e. strains isolated after 1978 exhibited higher activity towards Neu5Ac2-6Gal and Neu5Gc2-3Gal linkages when compared with strains isolated in an earlier year, 1930.Abbreviation Neu5Ac 5-N-acetylneuraminic acid - Neu5Gc 5-N-glycolyneuraminic acid - Gal d-galactose - Glc d-glucose - Cer Ceramide - II³(Neu5Ac)Lac Neu5Ac2-3Gal1-4Glc - GM3(Neu5Ac2-3Gal) Neu5Ac2-3Gal1-4Glc1-Cer - GM3(Neu5Gc2-3Gal) Neu5Gc2-3Gal1-4Glc1-Cer - GM1b(Neu5Ac2-3Gal) Neu5Ac2-3Gal1-3GalNac1-4Gal1-4Glc1-Cer - GMlb(Neu5Gc2-3Gal) Neu5Gc2-3Gal1-3GalNAc1-4Gal1-4Glc1-Cer - IV³(Neu5Ac)nLc4Cer Neu5Ac2-3Gal1-3GlcNAc1-4Gal1-4Glc1-Cer - IV³(Neu5Gc)nLc4Cer Neu5Gc2-3Gal1-3GlcNAc1-4Gal1-4Glc1-Cer - IV⁶(Neu5Ac)nLc4Cer Neu5Ac2-6Gal1-3GlcNAc1-4Gal1-4Glc1-Cer - TDC taurodeoxycholate.     

Properties of Aspergillus japonicus β-fructofuranosidase immobilized on porous silica

-Fructofuranosidase from Aspergillus japonicus MU-2, which produces fructo-oligosaccharides (1-kestose: O--D-fructofuranosyl-(2 1)--D-fructofuranosyl -D-glucopyranoside); and nystose: O--D-fructofuranosyl-(2 1)--D-fructofuranosyl-(2 1)--D-fructofuranosyl -D-glucopyranoside) from sucrose, was immobilized, covalently with glutaraldehyde onto alkylamine porous silica, at high efficiency (64%). Optimum pore diameter of porous silica for immobilization of the enzyme was 91.7 nm. After immobilization, the enzyme's stabilities to temperature, metal ions and proteolysis were improved, while its optimum pH and temperature were unchanged. The highest efficiency of continuous production of fructo-oligosaccharides (more than 60%), using a column packed with the immobilized enzyme, was obtained at 40% to 50% (w/v) sucrose. The half-life of the column during long-term continuous operation at 55°C was 29 days.     

Valine inhibition of β-isopropylmalate dehydrogenase takes part in the regulation of leucine biosynthesis inCandida maltosa

The -isopropylmalate (IPM) dehydrogenase (EC 1.1.1.85) ofCandida maltosa, the third pathway-specific enzyme of leucine biosynthesis, was purified, some properties of the enzyme were studied and a novel regulatory pattern was found. The K_m values of the enzyme were estimated to be 0.42 mM for -IPM and 0.34 mM for NAD⁺. It is demonstrated that the enzyme can be regulated by L-valine. The inhibition was competitive with respect to -IPM (K_i=1.84 mM) and non-competitive with respect to NAD⁺ (K_i=5.67 mM). Exogenous addition of L-valine toC. maltosa cells increased the intracellular pool of some intermediates of leucine biosynthesis (-ketoisovalerate, -IPM, -IPM), but has hardly influence on the leucine pool.     

Electrogenic properties of the sodium-alanine cotransporter in pancreatic acinar cells: II. Comparison with transport models

Summary In this paper, the results of the preceding electrophysiological study of sodium-alanine cotransport in pancreatic acinar cells are compared with kinetic models. Two different types of transport mechanisms are considered. In the simultaneous mechanism the cotransporterC forms a ternary complexNCS with Na⁺ and the substrateS; coupled transport of Na⁺ andS involves a conformational transition between statesNCS andNCS with inward- and outward-facing binding sites. In the consecutive (or ping-pong) mechanism, formation of a ternary complex is not required; coupled transport occurs by an alternating sequence of association-dissociation steps and conformational transitions. It is shown that the experimentally observed alanine- and sodium-concentration dependence of transport rates is consistent with the predictions of the simultaneous model, but incompatible with the consecutive mechanism. Assuming that the association-dissociation reactions are not rate-limiting, a number of kinetic parameters of the simultaneous model can be estimated from the experimental results. The equilibrium dissociation constants of Na⁺ and alanine at the extracellular side are determined to beK _N <-64mm andK _S <-18mm. Furthermore, the ratioK _N /K _N ^S of the dissociation constants of Na⁺ from the binary (NC) and the ternary complex (NCS) at the extracellular side is estimated to be <-6. This indicates that the binding sequence of Na⁺ andS to the transporter is not ordered. The current-voltage behavior of the transporter is analyzed in terms of charge translocations associated with the single-reaction steps. The observed voltage-dependence of the half-saturation concentration of sodium is consistent with the assumption that a Na⁺ ion that migrates from the extracellular medium to the binding site has to traverse part of the transmembrane voltage.     

Regulation of NaK-ATPase by platelet-derived growth factors in cultured rat thoracic aortic smooth muscle cells

Regulation of (Na⁺ + K⁺)-adenosine triphosphatase (NaK-ATPase) by platelet-derived growth factor (PDGF) in cultured rat thoracic aortic smooth muscle cells (SMC) was examined. PDGF-BB enhances SMC proliferation and NaK-ATPase activity. Ouabain, an inhibitor of NaK-ATPase activity, prevents PDGF-BB-induced SMC proliferation. As shown by Western blot and immunochemiluminescence analysis, PDGF-BB also enhances ₁, truncated ₁, and ₁ NaK-ATPase subunit levels. PDGF-AA and PDGF-AB show no effect on ₁ and truncated ₁ levels in slot blot analysis. Induction of NaK-ATPase subunit levels by PDGF-BB could be one of the initial events in vascular SMC proliferation.