Ca2+-dependent inhibitory effects of Na+ and K− on Ca2+ transport in sarcoplasmic reticulum vesicles

Effects of Na⁺ and K⁺ on Ca²⁺ transport by sarcoplasmic reticulum vesicles were studied in a medium containing high Mg²⁺ and ATP (2mM) and low Ca²⁺ (0.44μM) concentrations. Under these conditions, Na⁺ and K⁺ inhibit Ca²⁺ uptake. ATPase activity and membrane phosphorylation by ATP. Since the concentrations of ATP and Ca²⁺ used are consistent with relaxation in vivo, the results suggest that under physiological resting conditions the Ca²⁺ pump of the sarcoplasmic reticulum operates below its maximal capacity.     

(Na+/K+)-ATPase研究概况

本文概述(Na⁺/K⁺)-ATPase的一般分子性质。介绍神经元和脂肪细胞中两种不同分子形式(Na⁺/K⁺)-ATPase的分离鉴定和功能性质,以及(Na⁺/K⁺)-ATPase主要功能亚基一级序列和高级结构研究所取得的一些进展。     

Na+/H+逆向转运蛋白和植物耐盐性

Na⁺H⁺逆向转运蛋白对植物耐盐起着重要作用 ,它利用质膜H⁺ATPase或液泡膜H⁺ATPase及Ppiase泵H+产生的驱动力把Na⁺排出细胞或在液泡中区隔化以消除Na⁺的毒害。主要讨论植物中Na⁺H⁺逆向转运蛋白研究在分子水平的最新进展.     

Electrically silent cotransport of Na+, K+ and Cl− in ehrlich cells

A cotransport system for Na⁺, K⁺ and Cl^? in Ehrlich cells is described. It is insensitive towards ouabain but specifically inhibited by furosemide and other ‘high ceiling’ diuretics at concentrations which do not affect other pathways of the ions concerned. As the furosemide-sensitive fluxes of these ions are not affected by changes in membrane potential, and as their complete inhibition by furosemide does not appreciably alter the membrane potential, they appear to be electrically silent. Application of the pulse-response methods in terms of irreversible thermodynamics reveals tight coupling between the furosemide-sensitive flows of Na⁺, K⁺ and Cl^? ($\text{q}$ close to unity for all three combinations) at a stoichiometry of 1 : 1 : 2. The site for each of the ions appears to be rather specific: K⁺ can be replaced by Rb⁺ but not by other cations tested whereas Cl^? can be poorly replaced by Br^? but not by NO₃^?, in contradistinction to the Cl^?-OH^? exchange system. The cotransport system appears to function in cell volume regulation as it tends to make the cell swell, thus counteracting the shrinking effect of the ouabain-sensitive (Na⁺, K⁺) pump.The experiments presented could not clarify whether the cotransport process is a primary or secondary active one; while incongruence between transport and conjugated driving force seems to indicate primary active transport, it is very unlikely that hydrolysis of ATP supplies energy for the transport process, since there is no stimulation of ATP turnover observable under operation of the cotransport system.     

梭梭Na+/H+逆向转运蛋白基因克隆及分析

采用RT-PCR、RACE方法从超旱生、耐盐植物梭梭中扩增出Na+/H+逆向转运蛋白基因的开放阅读框架,其核苷酸序列长1 683bp,推测的氨基酸序列全长为560个氨基酸残基。含有多个物种Na+/H+逆向转运蛋白基因的高度保守序列氨氯砒嗪脒的结合位点(LFFIYLIPPI)。序列一致性分析结果显示,该cDNA片段与同科植物NHX基因的一致性为70%～80%,但与不同科植物的一致性较低,仅为60%,表明该基因在进化上存在多样性,但它们都具有氨氯砒嗪脒结合位点,对Na+具有高度专一性,对植物的耐盐性起着重要作用。     

Calculations of K+, Na+, and Cl? fluxes across cell membrane with Na+/K+ pump, NKCC, NC cotransport and ionic channels with non-Goldman rectification in K+-channels: Normal and apoptotic cells

The balance of K⁺, Na⁺, and Cl⁻ fluxes across the cell membrane with the Na⁺/K⁺ pump, ion channels, and Na⁺K⁺2Cl⁻ (NKCC) and Na⁺-Cl⁻ (NC) cotransport was calculated to determine the mechanism of cell shrinkage in apoptosis. It is shown that all unidirectional K⁺, Na⁺, and Cl⁻ fluxes; the ion channel permeability; and the membrane potential can be found using the principle of the flux balance if the following experimental data are known: K⁺, Na⁺, and Cl⁻ concentrations in cell water; total Cl⁻ flux; total K⁺ influx; and the ouabain-inhibited pump component of the Rb⁺(K⁺) influx. The change in different ionic pathways during apoptosis was estimated by calculations based on the data reported in the preceded paper (Yurinskaya et al., 2010). It is found that cell shrinkage and the shift in ion balance in U937 cells induced to apoptosis with 1 μM staurosporine occur due to the coupling of reduced pump activity with a decrease in the integral permeability of Na⁺ channels, whereas K⁺ and Cl⁻ channel permeability remains almost unchanged. Calculations show that only a small part of the total fluxes of K⁺, Na⁺, and Cl⁻ account for the fluxes mediated by NKCC and NC cotransporters. Despite the importance of cotransport fluxes for maintaining the nonequilibrium steady-state distribution of Cl⁻, they cannot play a significant role in apoptotic cell shrinkage because of their minority and cannot be revealed by inhibitors.     

Electrophysiological characterization of Tityus obscurus β toxin 1 (To1) on Na+-channel isoforms

To1, previously named Tc49b, is a peptide neurotoxin isolated from venom of the scorpion Tityus obscurus that is responsible for lethal human poisoning cases in the Brazilian Amazonian region. Previously, To1 was shown to be lethal to mice and to change Na⁺ permeation in cerebellum granular neurons from rat brain. In addition, To1 did not affect Shaker B K⁺ channels. Based on sequence similarities, To1 was described as a β-toxin. In the present work, To1 was purified from T. obscurus venom and submitted to an electrophysiological characterization in human and invertebrate Na_V channels. The analysis of the electrophysiological experiments reveal that To1 enhances the open probability at more negative potentials of human Na_V 1.3 and 1.6, of the insect channel BgNa_V1 and of arachnid VdNa_V1 channel. In addition, To1 reduces the peak of Na⁺ currents in some of the Na_Vs tested. These results support the classification of the To1 as a β-toxin. A structure and functional comparison to other β-toxins that share sequence similarity to To1 is also presented.     

欧洲山杨液泡膜Na+/H+ 反向运输体的性质鉴定

植物液泡膜Na /H 反向运输体可将细胞质中的Na 转运到液泡内储存,以减少胞内Na 的毒性.但木本植物如杨树是否有同样的机制目前还不清楚.以欧洲山杨的愈伤组织为材料,捣碎破碎愈伤组织细胞,经过差速离心和不连续蔗糖梯度离心得到纯化的欧洲山杨液泡微囊.通过液泡V-ATPase建立质子梯度,该液泡能够利用此梯度调控Na 的转运,表明液泡膜上存在Na /H 反向运输体活性(表观米氏常数Km是11.4mmol/L).Na /H 反向运输体的抑制剂——氨氯吡嗪咪能明显抑制转运体的活性.该Na /H 反向运输体也可以转运K ,但亲和能力比Na 低30%.该结果首次证明木本植物的液泡膜上存在Na /H 反向运输体.初步功能研究表明,愈伤组织在盐胁迫条件下,Na /H 反向运输体活性明显下降,提示该机制可能与山杨不耐盐有关.     

A mutant β-D-glucoside transport system of Escherichia coli resistant to catabolite inhibition

A mutant strain of Escherichia coli in which β-glucoside transport is resistant to catabolite inhibition by methyl α-glucoside was characterized. The mutation was probably within the gene, bglC, coding for the β-glucoside enzyme II. The mutant organism is shown to transport the β-glucoside substrate, salicin, in preference to methyl α-glucoside or fructose. Salicin also caused inducer exclusion of lactose in the mutant strain.     

Role of quinones in electron transport to oxygen and nitrate in Escherichia coli. Studies with a ubiA− menA− double quinone mutant

A ubiA^? menA^? double quinone mutant of Escherichia coli K12 was constructed together with other isogenic strains lacking either ubiquinone or menaquinone. These strains were used to study the role of quinones in electron transport to oxygen and nitrate. Each of the four oxidases examined (NADH, d-lactate, α-glycerophosphate and succinate) required a quinone for activity. Ubiquinone was active in each oxidase system while menaquinone gave full activity in α-glycerophosphate oxidase, partial activity in d-lactate oxidase but was inactive in NADH and succinate oxidation. The aerobic growth rates, growth yields and products of glucose metabolism of the quinone-deficient strains were also examined. The growth rate and growth yield of the ubi⁺ menA^? strain was the same as the wild-type strain, whereas the ubiA^? men⁺ strain grew more slowly on glucose, had a lower growth yield (30% of wild type) and accumulated relatively large quantities of acetate and lactate. The growth of the ubiA^? menA^? strain was even more severely affected than that of the ubiA^? men⁺ strain.Electron transport from formate, d-lactate, α-glycerophosphate and NADH to nitrate was also highly dependent on the presence of a quinone. Either ubiquinone or menaquinone was active in electron transport from formate and the activity of the quinones in electron transport from the other substrates was the same as for the oxidase systems. In contrast, quinones were not obligatory carriers in the anaerobic formate hydrogenlyase system. It is concluded that the quinones serve to link the various dehydrogenases with the terminal electron transport systems to oxygen and nitrate and that the dehydrogenases possess a degree of selectivity with respect to the quinone acceptors.     

KcsA 通道对Na+、K+及Rb+离子选择性的统计热力学研究

钾离子的通透率至少比钠离子的通透率大10000倍,这个问题至今没有很好地解决.为了在分子水平阐释钾离子通道的选择性机制,以KcsA钾通道X射线衍射结构为基础,采用密度泛函理论计算了不同离子在离子通道中的位能.计算结果表明,Rb+离子具有与K+离子相类似的位能曲线,但是其在通透过程遇到的位垒要比K+离子的位垒高,因而所对应的通透率也就小于钾离子的通透率,而钠离子的的通透率仅仅是钾离子通透率的0.0067%.文中所涉及的系统仅仅包含269个原子,而用分子动力学虽然也可以得到相近的结果,但是它的系统大小为41 000个原子.     

On the interrelations of the Na+-and Cl?-influxes in the pulmonate freshwater snailLymnaea stagnalis

Summary In the freshwater snailLymnaea stagnalis the influxes of Na⁺ and Cl^– were studied at different external concentrations of these ions. The characteristies of the Na⁺- and Cl^–-influxes are similar with respect to saturation kinetics,K _m (0.1 mM) and activation by low-salt adaptation. In short-term experiments the Na⁺- and Cl^–-influxes are independent. Because of the counter-ions (H⁺ and HCO ₃ ^– ) involved, this indicates a potential acid-base regulatory capacity. Low-salt adaptation, due to either Na⁺-or Cl^–-depletion, activates both the Na⁺- and the Cl^–-influx. It is suggested that under both conditions the number of active integumental pumps, involved in Na⁺- as well as in Cl^–-uptake, is increased.     

Plasmodium falciparum: Effect of Solanum nudum steroids on thiol contents and β-hematin formation in parasitized erythrocytes

We studied the effects on total thiols glutathione (GSH) and cysteine contents in Plasmodium falciparum in vitro when treated with four steroid derivatives and a sapogenin (Diosgenone) extracted from Solanum nudum. We also determined their capacity to inhibit β-hematin formation. We showed that SN-1 (16α-acetoxy-26-hydroxycholest-4-ene-3,22-dione) increased total glutathione and cysteine concentrations while SN-4 (26-O-β-d-glucopyranosyloxy-16α-acetoxycholest-4-ene-3,22-dione) decreased the concentration of both thiols. Acetylation in C16 was crucial for the effect of SN-1 while type furostanol and terminal glucosidation were necessary for the inhibitory properties of SN-4. The combination of steroids and buthionine sulfoximine, a specific inhibitor of a step-limiting enzyme in GSH synthesis, did not modify the glutathione contents. Finally, we found that SN-1 inhibited more than 80% of β-hematin formation at 5.0 mM, while the other steroids did not show any effect.     

Peptide utilization in Escherichia coli: Studies with peptides containing β-alanyl residues

A glycine auxotroph of Escherichia coli can utilize glycine oligopeptides as a source of its required amino acid. Glycylglycyl-β-alanine and β-alanylglycylglycine are both readily hydrolysed by intracellular peptidases, but only the former supports growth of the glycine auxotroph. Glycylglycyl-β-alanine is not nutritionally active towards a glycine mutant that is unable to transport oligopeptides. The nutritional responses to these β-alanine peptides are interpreted in terms of the structural requirements of the oligopeptide transport system, for which an α-peptide bond is required but the C-terminal α-carboxyl group is not essential. Dipeptides of β-alanine are generally poor sources of amino acids for auxotrophs of E. coli, although β-alanylhistidine (carnosine) is as effective as the free amino acid in supporting growth of a histidine auxotroph; this observation does not accord with the structural requirements established for dipeptide transport in general, and may indicate a separate uptake process. The results are related to the occurrence of β-alanyl peptides in the normal environment of enteric bacteria, and to the known ability of the intestine to transport carnosine.     

Potential difference responses due to K+, Na+ and Cl− changes in Bullfrog antrum with and without HCO3−

The effect of changing [K⁺], [Na⁺] and [Cl^?] in nutrient solution was studied in bullfrog antrum with and without HCO₃^? in nutrient. In 25 mM HCO₃^? (95% O₂/5% CO₂) and in zero HCO₃^? (100% O₂), nutrient pH was maintained at 7.3. Changing from 4 to 40 mM K⁺ or from 81 to 8.1 mM Cl^? gave a decrease 10 min later in transmucosal PD (nutrient became more negative) — a normal response. These responses were less in zero than in 25 mM HCO₃^?. A decrease from 102 to 8 mM Na⁺ decreased PD (anomalous response of electrogenic NaCl symport). This effect was attenuated or eliminated in zero HCO₃^?. In contrast, change from 4 to 40 mM K⁺ gave initial anomalous PD response and change from 102 to 8 mM Na⁺, initial normal PD response with either zero or 25 mM HCO₃^?. Both responses were associated with (Na⁺ + K⁺)-ATPase pump and were greater in zero than in 25 mM HCO₃^?. Initial PD increases in zero HCO₃^? are explained as due to increase in the resistance of passive conductance and/or NaCl symport pathways. Thus, removal of HCO₃^? modifies conductance pathways of nutrient membrane.