Evaluation of a Two-Site, Three-Barrier Model for Permeation in CaV3.1 (α1G) T-Type Calcium Channels: Ca2+, Ba2+, Mg2+, and Na+

We explored the ability of a two-site, three-barrier (2S3B) Eyring model to describe recently reported data on current flow through open Ca_V3.1 T-type calcium channels, varying Ca²⁺ and Ba²⁺ over a wide range (100 nm–110 mm) while recording whole-cell currents over a wide voltage range (−150 mV to +100 mV) from channels stably expressed in HEK 293 cells. Effects on permeation were isolated using instantaneous current–voltage relationships (IIV) after strong, brief depolarizations to activate channels with minimal inactivation. Most experimental results were reproduced by a 2S3B model. The model described the IIV relationships, apparent affinities for permeation and block for Ca²⁺ and Ba²⁺, and shifts in reversal potential between Ca²⁺ and Ba²⁺. The fit to block by 1 mm  \textMg²⁺_\texti {\text{Mg}}^{2+}_{\text{i}} was reasonable, but block by \textMg²⁺_\texto {\text{Mg}}^{2+}_{\text{o}} was described less well. Surprisingly, fits were comparable with strong ion–ion repulsion, with no repulsion, or with intermediate values. With weak repulsion, there was a single high-affinity site, with a low-affinity site near the cytoplasmic side of the pore. With strong repulsion, the net charge of ions in the pore was near +2 over a relatively wide range of concentration and voltage, suggesting a knockoff mechanism. With strong repulsion, Ba²⁺ preferred the inner site, while Ca²⁺ preferred the outer site, potentially explaining faster entry of Ni²⁺ and other pore blockers when Ba²⁺ is the charge carrier.     

Myogenic tone in mouse mesenteric arteries: evidence for P2Y receptor-mediated, Na+, K+, 2Cl− cotransport-dependent signaling

This study examines the action of agonists and antagonists of P2 receptors on mouse mesenteric artery contractions and the possible involvement of these signaling pathways in myogenic tone (MT) evoked by elevated intraluminal pressure. Both ATP and its non-hydrolyzed analog α,β-ATP triggered transient contractions that were sharply decreased in the presence of NF023, a potent antagonist of P2X₁ receptors. In contrast, UTP and UDP elicited sustained contractions which were suppressed by MRS2567, a selective antagonist of P2Y₆ receptors. Inhibition of Na⁺, K⁺, 2Cl⁻ cotransport (NKCC) with bumetanide led to attenuation of contractions in UTP- but not ATP-treated arteries. Both UTP-induced contractions and MT were suppressed by MRS2567 and bumetanide but were insensitive to NF023. These data implicate a P2Y₆-mediated, NKCC-dependent mechanism in MT of mesenteric arteries. The action of heightened intraluminal pressure on UTP release from mesenteric arteries and its role in the triggering of P2Y₆-mediated signaling should be examined further.     

Bumetanide-sensitive Ion Fluxes in Vascular Smooth Muscle Cells: Lack of Functional Na+, K+, 2 Cl− Cotransport

To examine the involvement of Na⁺,K⁺,2Cl⁻ cotransport in monovalent ion fluxes in vascular smooth muscle cells (VSMC), we compared the effect of bumetanide on ⁸⁶Rb, ³⁶Cl and ²²Na uptake by quiescent cultures of VSMC from rat aorta. Under basal conditions, the values of bumetanide-sensitive (BS) inward and outward ⁸⁶Rb fluxes were not different. Bumetanide decreased basal ⁸⁶Rb uptake by 70–75% with a K _i of ∼0.2–0.3 μm. At concentrations ranging up to 1 μm, bumetanide did not affect ³⁶Cl influx and reduced it by 20–30% in the range from 3 to 100 μm. In contrast to ⁸⁶Rb and ³⁶Cl influx, bumetanide did not inhibit ²²Na uptake by VSMC. BS ⁸⁶Rb uptake was completely abolished in Na⁺- or Cl⁻-free media. In contrast to ⁸⁶Rb, basal BS ³⁶Cl influx was not affected by Na⁺ _o and K⁺ _o . Hyperosmotic and isosmotic shrinkage of VSMC increased ⁸⁶Rb and ³⁶Cl influx to the same extent. Shrinkage-induced increments of ⁸⁶Rb and ³⁶Cl uptake were completely abolished by bumetanide with a K _i or ∼0.3 μm. Shrinkage did not induce BS ⁸⁶Rb and ³⁶Cl influx in (Na⁺ or Cl⁻)- and (Na⁺ or K⁺)-depleted media, respectively. In the presence of an inhibitor of Na⁺/H⁺ exchange (EIPA), neither hyperosmotic nor isosmotic shrinkage activated ²²Na influx. Bumetanide (1 μm) did not modify basal VSMC volume and intracellular content of sodium, potassium and chloride but abolished the regulatory volume increase in isosmotically-shrunken VSMC. These data demonstrate the absence of the functional Na⁺,K⁺,2Cl⁻ cotransporter in VSMC and suggest that in these cells basal and shrinkage-induced BS K⁺ influx is mediated by (Na⁺ _o + Cl⁻ _o )-dependent K⁺/K⁺ exchange and Na⁺ _o -dependent K⁺,Cl⁻ cotransport, respectively. Received: 30 January 1996/Revised: 20 May 1996     

Comparison of bone and osteosarcoma adenylate cyclase. Effects of Mg2+, Ca2+, ATP4? and HATP3? in the assay mixture

The effects of Mg(2+) and Ca(2+) on bone and osteosarcoma adenylate cyclase were investigated. The concentrations of the cations and other ionic species in the assay mixture were calculated by solving the simultaneous equations describing the relevant ionic interactions (multiple equilibria). We re-examined the effects of HATP(3-) and ATP(4-) on enzyme activity and found that (i) the concentration of the minor ATP species is less than 1% of that of MgATP(2-), and their ratio to MgATP(2-) is constant if Mg(2+) and H(+) concentrations are unchanged; (ii) Mg(2+) addition decreased the ratio of the minor species to MgATP(2-) and increased the enzyme activity, but no meaningful kinetic model could attribute this effect of HATP(3-) or ATP(4-). On the other hand, kinetic analysis of Mg(2+) effects showed: (i) stimulation via two metal sites, separate from the catalytic (MgATP(2-)) site, with apparent K(m) values of approximately 1 and 8mm; (ii) that the low affinity increased towards the higher one when the enzyme activity rose as a result of increased substrate or guanine nucleotide concentrations, this effect being less pronounced in tumour; (iii) conversely, that two apparent affinities for MgATP(2-) merged into one at high Mg(2+) concentration; (iv) kinetically, that this relationship is of the mixed con-competitive type, which is consistent with a role for Mg(2+) as a requisite activator, and binding occurring in non-ordered sequence. Analysis of the Ca(2+) effects showed: (i) competition with Mg(2+) at the metal site (K(i) 20mum for bone and 40mum for tumour); (ii) that relative to the substrate the inhibition was uncompetitive, i.e. velocity decreased and affinity increased proportionally, which is consistent with Ca(2+) binding after substrate binding. These findings support the existence of interacting enzyme complexes, losing co-operativity at increased enzyme activity. They also indicate a potential physiological role for Ca(2+) in enzyme regulation and point to quantitative differences between bone and tumour with regard to these properties.     

Mitochondrial Ca2+, the secret behind the function of uncoupling proteins 2 and 3?

The underlying molecular action of the novel uncoupling proteins 2 and 3 (UCP2 and UCP3) is still under debate. The proteins have been implicated in many cell functions, including the regulation of insulin secretion and regulation of reactive oxygen species (ROS) generation. These effects have mainly been explained by suggesting that the proteins establish a proton leak through the inner mitochondrial membrane (IMM). However, accumulating data question this mechanism and suggest that UCP2 and UCP3 may play other roles, including carrying free fatty acids from the matrix towards the intermembrane space, or contributing to the mitochondrial Ca(2+) uniport. Accordingly, in this review we reflect on these actions of UCP2/UCP3 and discuss alternative explanations for the molecular mechanisms by which UCP2/UCP3 might contribute to aspects of cell function. Based on the potential role of UCP2/UCP3 in regulating mitochondrial Ca(2+) uptake, we propose a scheme whereby these proteins integrate Ca(2+)-dependent signal transduction and energy metabolism in order to meet the energy demand of the cell for its continuous response, adaptation, and stimulation to environmental input.     

A UB3LYP and UMP2 theoretical investigation on unusual cation–π interaction between the triplet state HB=BH ( {}^3\Sigma_g^{-} ) and H+, Li+, Na+, Be2+ or Mg2+

The nature of the unusual cation–π interactions between cations (H⁺, Li⁺, Na⁺, Be²⁺ and Mg²⁺) and the electron-deficient B=B bond of the triplet state HB=BH ( $ {}^3\Sigma_g^{-} $ ) was investigated using UMP2(full) and UB3LYP methods at 6–311++G(2df,2p) and aug-cc-pVTZ levels, accompanied by a comparison with 1:1 and 2:1 σ-binding complexes between BH and the cations. The binding energies follow the order HB=BH...H⁺ > HB=BH...Be²⁺ > HB=BH...Mg²⁺ ? HB=BH...Li⁺ > HB=BH...Na⁺ and HB=BH (¹Δ_g)...M⁺/M²⁺ > H₂C=CH₂...M⁺/M²⁺ > HC≡CH...M⁺/M²⁺ > HB=BH ( $ {}^3\Sigma_g^{-} $ )...M⁺/M²⁺. Furthermore, except for HB...H⁺, the σ-binding interaction energy of the 1:1 complex HB...M⁺/M²⁺ is stronger than the cation–π interaction energy of the C₂H₂...M⁺/M²⁺, C₂H₄...M⁺/M²⁺, B₂H₂ (¹Δ_g)...M⁺/M²⁺ or B₂H₂ ( $ {}^3\Sigma_g^{-} $ )...M⁺/M²⁺ complex, and, for the 2:1 σ-binding complexes, except for HBBe²⁺...BH, they are less stable than the cation–π complexes of B₂H₂ (¹Δ_g) or B₂H₂ ( $ {}^3\Sigma_g^{-} $ ). The atoms in molecules (AIM) theory was also applied to verify covalent interactions in the H⁺ complexes and confirm that HB=BH ( $ {}^3\Sigma_g^{-} $ ) can be a weaker π-electron donor than HB=BH (¹Δ_g), H₂C=CH₂ or HC≡CH in the cation–π interaction. Analyses of natural bond orbital (NBO) and electron density shifts revealed that the origin of the cation–π interaction is mainly that many of the lost densities from the π-orbital of B=B and CC multiple bonds are shifted toward the cations.

植物体内Ca2+,pH,ROS活体荧光探针成像研究进展

细胞内信号分子Ca2+与活性氧(ROS)以及细胞pH,是参与细胞多种生理和发育过程调节的关键因子。这些信号分子或细胞化学势之所以在如此众多方面起作用,是因为它们在生物体内从细胞到器官水平上、从数秒到数小时一直是在时空动态变化着的。恰到好处的是,荧光素感受器可以稳定地对细胞内Ca2+,pH与活性氧(ROS)活体原位实时定量。可视化的荧光细胞探针可分为两类:(a)直接染色;(b)基于绿色荧光蛋由基因编码的感受器。绿色荧光蛋白探针可在亚细胞水平上对目标蛋白准确定位,为得到细胞信号高分辨图提供可能。     

T lymphocytes responding to Mls-locus antigens are Lyt-1+, 2− andI-A restricted

We have investigated primary and secondary responses of mouse splenic T cells to strong mixed lymphocyte stimulating antigens controlled by theMls locus using MHC-identical mixtures of cells. Our studies show that strong primaryMls-locus specific responses involve recognition of self I-A antigens, since BUdR and light suicide or F1 into parent radiation bone-marrow chimeras both demonstrate a preference of unprimed F1 T cells to respond to Mis-locus antigens associated with one parent's MHC antigens. Furthermore, conventional anti-I-A antisera and monoclonal anti-I-A antibody both inhibitMls-locus responses in an MHC-specific manner. Finally, as is typical of T cells responding to I-A antigens or to nominal antigens associated with self I-A,Mlslocus responses are mediated by Lyt-1⁺, 2^– cells. One striking finding in these studies was the very high frequency of cells capable of responding to Mls-locus antigens, the highest being 1/300 splenic T cells. This plus evidence for recruitment during primaryMls-locus responses may account for reports of a lack ofI-A restriction in secondary anti-Mls locus responses to strong Mls-locus antigens, a finding with which we concur. The possibility that these secondary responses between noncongenic strains of mice may be directed at other genetic loci is also discussed. These experiments leave open the question of the biological role of theMls-locus and of the very large number of T cells reactive to it.Abbreviations used in this paper MHC Major histocompatibility complex - MIg Mouse immunoglobulin - MLC Mixed lymphocyte culture - TCGF T-cell growth factor     

Distributions of Li+, Na+, K+, Rb+, and Cs+ tracer ions in erythrocytes at 38 °C in relation to entry rates of these ions into cells at 0 °C

Forces that are able to transport Na+ and K+ into two compartments were investigated. A modified Nernst-Planck equation for coupled flows of electric current, water, and ions was integrated. The result shows that if alkali ions in the ion channel of the cell membrane are separated by their electric-current-induced inward flows against an electro-osmotic outward flow of water, the logarithms of the stationary cell/medium distributions of these ions should be proportional to the inverse of their diffusion mobilities. The relationship was tested in human erythrocytes. From inward and outward movements of tracer alkali ions, calculations were made to obtain their stationary distributions at infinite time. The cell/medium distributions determined in this way at 38 degrees C are Li+ = 0.59, 22Na+ = 0.044, 42K+ = 10.0, 86Rb+ = 11.9, and 137Cs+ = 3.07. The entry rates of ions into the cell at 0 degrees C are understood to represent their diffusion mobilities in the pump channel. The entry rates are Li+ = 1.44, 2Na+ = 1, 42K+ = 2.22, 86Rb+ = 2.39, and 137Cs+ = 1.72 relative to that of 22Na+. There is an expected negative correlation between the logarithms of the stationary cell/ medium distributions at 38 degrees C and the inverse of the entry rates into the cell at 0 degrees C for the five ions. It is suggested that the proposed physical forces cause the separation of alkali ions in the channel of Na,K-ATPase.     

Na+, K+, Cl− cotransport and its regulation in Ehrlich ascites Tumor cells. Ca2+/Calmodulin and protein kinase C dependent pathways

Summary Net Cl^– uptake as well as unidirectional³⁶Cl influx during regulatory volume increase (RVI) require external K⁺. Half-maximal rate of bumetanide-sensitive³⁶Cl uptake is attained at about 3.3mm external K⁺. The bumetanide-sensitive K⁺ influx found during RVI is strongly dependent on both Na⁺ and Cl^–. The bumetanide-sensitive unidirectional Na⁺ influx during RVI is dependent on K⁺ as well as on Cl^–. The cotransporter activated during RVI in Ehrlich cells, therefore, seems to transport Na⁺, K⁺ and Cl^–. In the presence of ouabain and Ba⁺ the stoichiometry of the bumetanide-sensitive net fluxes can be measured at 1.0 Na⁺, 0.8 K⁺, 2.0 Cl^– or approximately 1 : Na, 1 : K, 2 : Cl. Under these circumstances the K⁺ and Cl^– flux ratios (influx/efflux) for the bumetanide-sensitive component were estimated at 1.34 ±0.08 and 1.82 ± 0.15 which should be compared to the gradient for the Na⁺, K⁺, 2Cl^– cotransport system at 1.75 ± 0.24.Addition of sucrose to hypertonicity causes the Ehrlich cells to shrink with no signs of RVI, whereas shrinkage with hypertonic standard medium (all extracellular ion concentrations increased) results in a RVI response towards the original cell volume. Under both conditions a bumetanide-sensitive unidirectional K⁺ influx is activated. During hypotonic conditions a small bumetanide-sensitive K⁺ influx is observed, indicating that the cotransport system is already activated.The cotransport is activated 10–15 fold by bradykinin, an agonist which stimulates phospholipase C resulting in release of internal Ca²⁺ and activation of protein kinase C.The anti-calmodulin drug pimozide inhibits most of the bumetanide-sensitive K⁺ influx during RVI. The cotransporter can be activated by the phorbol ester TPA. These results indicate that the stimulation of the Na⁺, K⁺, Cl^– cotransport involves both Ca²⁺/calmodulin and protein kinase C.     

The effect of air containing O2 −,O2 +, CO2 − and CO2 + on the growth of seedlings ofHordeum Vulgaris

Equipment was devised which permitted the addition of specific gaseous ions to the atmosphere of plastic chambers in which seedlings of HORDEUM VULGARIS were grown in sand culture supplied with chemically defined nutrient solutions. Moderate densities of O₂ ^– or O₂ ⁺ ions (1.8×10⁴/cm³)in air containing an added 8% of O₂ accelerated the growth rate. A like number of CO₂ ^– or CO₂ ⁺ ions in air containing 8% of CO₂ inhibited growth, impeded the production of chlorophyll and devitalized the young seedlings. Evidence is presented that O₂ ^– and O₂ ⁺ stimulate the production of cytochromes and other Fe-containing enzymes through their action on the plant regulatory system responsible for the control of Fe metabolism. The toxic effect of CO₂ ^– and CO₂ ⁺ cannot be explained as yet.

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Zusammenfassung Eine Apparatur wurde entwickelt, die die Zufuhr von ionisiertem Gas der AtmosphÄre in Kammern gestattet. Darin wurden Keimlinge von HORDEUM VULGARIS in Sand mit chemisch definierten NÄhrlösungen gezüchtet. Konzentrationen von 1,8×10⁴/cm³ O₂ ^– und O₂ ⁺ in Luft mit zusÄtzlich 8% O₂ beschleunigten die Wachstumsrate. Die gleiche Menge CO₂ ^– und CO₂ ⁺ in Luft mit zusÄtzlich 8% CO₂ hemmte die Wachstumsrate, die Bildung von Chlorophyll und entkrÄftigte die Keimlinge. Es wird gezeigt,dass O₂ ^– und O₂ ⁺ die Bildung von Cytochrom und anderen eisenhaltigen Enzymen anregen durcn ihre Wirkung auf das den Fe-Stoffwechsel regulierende System der Pflanze. Die toxische Wirkung von CO₂ ^– und CO₂ ⁺ lÄsst sich noch nicht erklÄren.

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Resume On a construit un appareil permettant d'introduire dans 1'atmosphères des ions de gaz déterminés. On a alors effectué de telles adjonctions à l'air contenu dans des cellules de plastique dans lesquelles on cultivait HORDEUM VULGARIS sur du sable et dans une solution nutritive chimiquement définie. Des densités modérées d'ions O₂ ^– ou O₂ ⁺ (1,8×10⁴/cm³) dans de l'air additionné de 8% d'O₂ accélèrent la croissance. La meme concentration de CO₂ ^– et CO₂ ⁺ additionnée de 8% de CO₂ a ralenti la croissance et la formation de chlorophylle et a diminué la vitalite des plantes nouvellement germées. On démontre que O₂ ^– et O₂ ⁺ active la formation de cytochrome et d'autres enzymes ferreuses par suite de l'action de ces ions sur le système régularisant le métabolisme du fer dans la plante. L'effet toxique du CO₂ ^– et CO₂ ⁺ reste encore inexpliqué.

     

Erratum to: A UB3LYP and UMP2 theoretical investigation on unusual cation-π interaction between the triplet state HB=BH $$ \left( {{}^3\Sigma_g^{-} } \right) $$ and H+, Li+, Na+, Be2+ or Mg2+

Journal of Molecular Modeling -     

Molecular Dynamics Simulation of Limiting Conductance for Na2+, Cl2−, Na°, and Cl° in Supercritical Water

Abstract

We report results of molecular dynamics simulations of the limiting conductance of Na²⁺, Cl^2?, Na°, and Cl° in supercritical water using the SPC/E model for water in conjuction with our previous study (Lee et al., Chem. Phys. Lett. 293, 289 (1998)). The behavior of the limiting conductances of Na²⁺ and Cl^2? in the whole range of water density shows almost the same trend as those of Na⁺ and Cl^?, but the deviation from the assumed linear dependence of limiting conductances of Na²⁺ and Cl^2? on the water density is smaller than that of Na⁺ and Cl^?. The ratio of the limiting conductance of the divalentions to that of the corresponding monovalentions over the whole range of water density is almost constant. In the cases of Na²⁺ and Cl^2?, the dominating factor of the number of hydration water molecules around ions in the higher-density region and the dominating factor of the interaction strength between the ions and the hydration water molecules in the lower-density region are also found as was the cases for Na⁺ and Cl^?. These factors, however, are not so strong as for the corresponding monovalent ions because the change in the energetics, structure, and dynamics are very small mainly due to the strong Coulomb interaction of the divalent ions with the hydration water molecules. The diffusion coefficient of Na° and Cl° monotonically increases with decreasing water density over the whole range of water density. The increase of the diffusion coefficient with decreasing water density is attributed only to the dramatic decrease of the hydration number of water in the first solvation shell around the uncharged species. Among the two important competing factors in the limiting conductance of Na⁺ and Cl^?, the effect of the number of hydration water molecules around the uncharged species is the only existing factor over the whole range of water density since the interaction strength between the uncharged species and the hydration water molecules very small through the LJ interaction. This result has confirmed the dominating factor of the number of hydration water molecules around ions in the higher-density region in the explanation of the limiting conductance of Na⁺ and Cl^? in supercritical water at 673 K.     

Effects of Na+, H+, and Cl− on alanine transport by lobster hepatopancreatic brush border membrane vesicles

Summary Epithelial brush border membrane vesicles (BBMV) of lobster hepatopancreas were formed by a magnesium precipitation technique previously described (Ahearn et al. 1985).³H-l-alanine transport by these vesicles was sodium and potassium insensitive, in contrast to a strong Na-dependency exhibited by³H-d-glucose transport. Initial alanine entry rates (15 s uptake) were stimulated and transient alanine uptake overshoots were observed when external pH was acidic (e. g. pH 4.0, 5.0 or 6.0) and a Cl gradient was imposed across the vesicular wall; at pH_o=7.4 alanine uptake was reduced in rate and hyperbolic in character. Alanine uptake from an acidic extravesicular environment in the absence of Cl responded to a transmembrane electrical potential difference created by an outwardly-directed, valinomycin-induced, potassium diffusion potential, suggesting that the alanine molecule alone carried sufficient charge under these conditions to respond to the electrical gradient. External 5.0 mMl-lysine andl-serine similarly inhibited the influx and overshoot properties of 0.05 mM³H-l-alanine uptake, whereas 5.0 mMl-leucine had virtually no effect. Trans-stimulation of alanine initial uptake rates and an enhancement of alanine accumulation against a concentration gradient were observed by vesicles preloaded with 1 mMl-lysine, but not by vesicles lacking amino acids or those containing 1 mMl-leucine orl-serine.³H-l-alanine influx from acidic external environments in the presence of a Cl gradient occurred by a combination of carrier-mediated transfer and apparent diffusion. Decreasing pH_o from 6.0 to 4.0 elevated alanineK _t from 0.55 to 2.64 mM, while alanineJ _M increased from 55 to 550 pmol/mg protein· 15 s. Apparent diffusional permeability of the membranes to alanine under these conditions increased slightly. These results suggest, but do not conclusively prove, that alanine transport across BBMV of lobster hepatopancreas may occur by way of a classical y+ transprot protein at acidic pH. The extent of this transport is determined by the magnitude of the transmembrane chloride gradient which serves as a powerful driving force for cationic amino acids in this tissue.     

Loop diuretics may fail to inhibit (Na+, K+, Cl−) ‘cotransport’ in human red cells

The inhibition of passive K+ influx into human red blood cells (RBC) by loop diuretics was found to be dependent on the external Na+ concentration. In the absence of external Na+, there was minimal inhibition but the influx remained dependent on Cl- ions. Thus, raising the external Na+ concentration increased the affinity of the putative (Na+, K+, Cl-) cotransport system in human RBC for loop diuretics.     

Ammonium transport in medullary thick ascending limb of rabbit kidney: Involvement of the Na+, K+, Cl−-cotransporter

Summary In order to investigate the question whether ammonium reabsorption in the thick ascending limb of Henle's loop (TALH) proceeds via the Na⁺,K⁺,Cl^–-cotransporter, plasma membrane vesicles were prepared from TALH cells isolated from rabbit kidney outer medulla and the effect of NH ₄ ⁺ on their transport properties was investigated. It was found that, in the presence of a 78-mmol/liter NaCl gradient, 5 mmol/liter NH ₄ ⁺ inhibited bumetanide-sensitive rubidium flux by 86%; a similar decrease was observed for 5 mmol/liter, K⁺. Inhibition of bumetanide-sensitive rubidium uptake by NH ₄ ⁺ was competitive and an apparentK _i of 1.9 mmol/liter was found Bumetanide-sensitive sodium uptake measured in the presence of a 83 mmol/liter KCl gradient was not inhibited by 5 mmol/liter NH ₄ ⁺ . A 100-mmol/liter NH₄Cl gradient was, however, capable of stimulating bumetanide-sensitive sodium uptake to the same extent as a KCl gradient. These data suggest that NH ₄ ⁺ is accepted by the K⁺ site of the Na⁺,K⁺,Cl-cotransport system and that the transporter can function in a Na⁺, NH ₄ ⁺ ,2Cl mode. Since the affinity of the transporter for NH ₄ ⁺ lies in the concentration range found in the TALH lumen in vivo, it is concluded that Na⁺, NH ₄ ⁺ 2Cl-cotransport can contribute to the NH ₄ ⁺ reabsorption in this tubular segment.     

Purinergic inhibition of Na+,K+,Cl− cotransport in C11-MDCK cells: Role of stress-activated protein kinases

Previously, we observed that sustained activation of P2Y₁ leads to inhibition of Na⁺,K⁺,Cl⁻ cotransport (NKCC) in C11 cells resembling intercalated cells from collecting ducts of the Madin-Darby canine kidney. This study examined the role of stress-activated protein kinases (SAPK) in NKCC inhibition triggered by purinergic receptors. Treatment of C11 cells with ATP led to sustained phosphorylation of SAPK such as JNK and p38. Activation of these kinases also occurred in anisomycin-treated cells. Surprisingly, we observed that compounds SP600125 and SB202190, known as potent inhibitors of JNK and p38 in cell-free systems, activated rather than inhibited phosphorylation of the kinases in C11 cells. Importantly, similarly to ATP, all the above-listed activators of JNK and p38 phosphorylation inhibited NKCC. Thus, our results suggest that activation of JNK and/or p38 contributes to NKCC suppression detected in intercalated-like cells from distal tubules after their exposure to P2Y₁ agonists.     

Chemiluminescent reactions of Ru(2, 2′-bipyridine)31+,3+ and Mo6Cl141−,3−

A number of new chemiluminescent reactions are reported. These include the reaction of Mo₆Cl₁₄^1- and Mo₆Cl₁₄^3- with solvent acetonitrile, of the latter species with Ru(bipyr)₃³⁺ (bipyr=2,2′-bipyridine) and of Ru(bipyr)₃⁺ and Ru(bipyr)₃³⁺ with solvent acetonitrile and with various oxidants and reductants. Approximate chemiluminescence yields and kinetics are also reported for the reduction of acidic aqueous solutions of Ru(bipyr)₃³⁺ by luminol, SnCl₂, SO₃^2-, H₂O₂, ethylenediaminetetracetic acid, N₃^-, ethanol, Pt(CN)₄^2-, Fe(CN)₆^4- and W(CN)₈^4-.     

ATP Hydrolysis Activity and Polymerization State of Ribulose-1,5-Bisphosphate Carboxylase Oxygenase Activase (Do the Effects of Mg2+, K+, and Activase Concentrations Indicate a Functional Similarity to Actin?)

The ATPase activity and fluoresence of ribulose-1,5-bisphosphate carboxylase oxygenase (Rubisco) activase were determined over a range of MgCl2, KCl, and activase concentrations. Both salts promoted ADP release from ATP and intrinsic fluorescence enhancement by adenosine 5[prime]-[[gamma]-thio] triphosphate, but Mg2+ was about 10 times more effective than K+. ATPase and fluorescence enhancement both increased from zero to saturation within the same Mg2+ and K+ concentration ranges. At saturating concentrations (5 mM Mg2+ and 22 mM K+), the specific activity of ATPase (turnover time, about 1 s) and specific intrinsic fluorescence enhancement were maximal and unaffected by activase concentration above 1 [mu]M activase; below 1 [mu]M activase, both decreased sharply. These responses are remarkably similar to the behavior of actin. Intrinsic fluorescence enhancement of Rubisco activase reflects the extent of polymerization, showing that the smaller oligomer or monomer present in low-salt and activase concentrations is inactive in ATP hydrolysis. However, quenching of 1-anilinonapthaline-8-sulfonate fluorescence revealed that ADP and adenosine 5[prime]-[[gamma]-thio] triphosphate bind equally well to activase at low- and high-salt concentrations. This is consistent with an actin-like mechanism requiring a dynamic equilibrium between monomer and oligomers for ATP hydrolysis. The specific activation rate of substrate-bound decarbamylated Rubisco decreased at activase concentrations below 1 [mu]M. This suggests that a large oligomeric form of activase, rather than a monomer, interacts with Rubisco when performing the release of bound ribulose-1,5-bisphosphate from the inactive enzyme.     

几种抗血吸虫药物对日本血吸虫雄虫体表膜液内K~+,Na~+,H~+转递的影响

本文采用Oak＇s脱膜方法与火焰光度测定经吡喹酮,吐酒石和敌百虫作用后的日本血吸虫体表膜液内的K~+,Na~+的含量实验结果,吡喹酮和吐酒石能刺激K~+从虫体表膜内向外流,分别降低K~+浓度约50%和20%,但对Na~+转运无显著影响.敌百虫的作用是减少膜内K~+外流,导致了膜内K~+浓度升高.这些结果是与体外~(86)Rb渗入虫膜实验一致的.我们也测定了药物作用后虫体表膜液内的H~+,其结果是K~+的外流与H~+的内流有关.