The dual effect of rubidium ions on potassium efflux in depolarized frog skeletal muscle

Summary The effects of external Rb⁺ on the efflux of⁴²K⁺ from whole frog sartorius muscles loaded with 305mm K⁺ and 120mm Cl^– were studied. K⁺ efflux is activated by [Rb⁺] _o less than about 40mm according to a sigmoid relation similar to that for activation by [K⁺] _o . At [Rb⁺]_o greater than 40mm, K⁺ efflux declines, although at [Rb⁺] _o =300mm it is still greater than at [Rb⁺] _o =0mm. For low concentrations, the increment in K⁺ efflux over that in K⁺- and Rb⁺-free solution, k, is described by the relation k=a[X⁺] _o ⁿ , for both K⁺ and Rb⁺. The value ofa is larger for Rb⁺ than for K⁺, while the values ofn are similar; the activation produced by a given [Rb⁺] _o is larger than that by an equal [K⁺] _o for concentrations less than about 40mm. Adding a small amount of Rb⁺ to a K⁺-containing solution has effects on K⁺ efflux which depend on [K⁺] _o . At low [K⁺] _o , adding Rb⁺ increases K⁺ efflux, the effect being greatest near [K⁺] _o =30mm and declining at higher [K⁺] _o ; at [K⁺] _o above 40mm, addition of Rb⁺ decreases K⁺ efflux. At [K⁺] _o above 75mm, where K⁺ efflux is largely activated, Rb⁺ reduces K⁺ efflux by a factorb, described by the relationb=1/(1+c[Rb⁺] _o ). Activation is discussed in terms of binding to at least two sites in the membrane, and the reduction in K⁺ efflux by Rb⁺ at high [K⁺] _o in terms of association with an additional inhibitory site.     

Alanine dehydrogenase of the β-lactam antibiotic producer Streptomyces clavuligerus

l-Alanine dehydrogenase was found in extracts of the antibiotic producer Streptomyces clavuligerus. The enzyme was induced by ammonia, and the level of induction was dependend on the extracellular concentration. l-Alanine was the only amino acid able to induce alanine dehydrogenase. The enzyme was characterized from a 38-fold purified preparation. Pyruvate (K _m =1.1 mM), ammonia (K _m =20 mM) and NADH (K _m =0.14 mM) were required for the reductive amination, and l-alanine (K _m =9.1 mM) and NAD (K _m =0.5 mM) for the oxidative deaminating reaction. The aminating reaction was inhibited by alanine, serine and NADPH. Alanine inhibited uncompetitively with respect to NADH (K _i =1.6 mM) and noncompetitively with respect to ammonia (K _i =2.0 mM) and pyruvate (K _i =3.0 mM). In the aminating reaction 3-hydroxypyruvate, glyoxylate and 2-oxobutyrate could partially (6–7%) substitute pyruvate. Alanine dehydrogenase from S. clavuligerus differed with respect to its molecular weight (92000) and its kinetic properties from those described for other microorganisms.Abbreviation Alanine-DH l-alanine:NAD oxidoreductase     

Potassium-induced insulin release and voltage noise measurements in single mouse islets of Langerhans

Summary Insulin release and membrane potential fluctuations in response to increased extracellular potassium [K⁺] _o have been measured in single perifused islets of Langerhans from normal mice. An increase in [K⁺] _o from 5mm to 50mm induced a transient insulin release with a peak at about 1 min. The peak value was [K⁺] _o -dependent but the half-timet _1/2 for the decline was constant at nearly 1 min. 2.5mm cobalt completely inhibited the potassium-induced stimulation of insulin release. The insulin release elicited by 28 and 50mm [K⁺] _o was similar in terms of peak, total release and half-time from maximum release. Stepwise increase in [K⁺] _o from 10 to 28 to 50mm resulted in a normal response to 28mm but no peak of release after the 28 to 50mm increase. The results indicate good correlation between excess voltage noise, thought to reflect calcium channel activity, and insulin release evoked by changing extracellular potassium.     

Aryl acylamidase activity of human serum albumin with o-nitrotrifluoroacetanilide as the substrate

Albumin is generally regarded as an inert protein with no enzyme activity. However, albumin has esterase activity as well as aryl acylamidase activity. A new acetanilide substrate, o-nitrotrifluoroacetanilide (o-NTFNAC), which is more reactive than the classical o-nitroacetanilide, made it possible to determine the catalytic parameters for hydrolysis by fatty-acid free human serum albumin. Owing to the low enzymatic activity of albumin, kinetic studies were performed at high albumin concentration (0.075 mM). The albumin behavior with this substrate was Michaelis-Menten like. Kinetic analysis was performed according to the formalism used for catalysis at high enzyme concentration. This approach provided values for the turnover and dissociation constant of the albumin-substrate complex: k_cat = 0.13 ± 0.02 min ? ¹ and K_s = 0.67 ± 0.04 mM. MALDI-TOF experiments showed that unlike the ester substrate p-nitrophenyl acetate, o-NTFNAC does not form a stable adduct (acetylated enzyme). Kinetic analysis and MALDI-TOF experiments demonstrated that hydrolysis of o-NTFNAC by albumin is fully rate-limited by the acylation step (k_cat = k₂). Though the aryl acylamidase activity of albumin is low (k_cat/K_s = 195 M^{? 1}min^{? 1}), because of its high concentration in human plasma (0.6–1 mM), albumin may participate in hydrolysis of aryl acylamides through second-order kinetics. This suggests that albumin may have a role in the metabolism of endogenous and exogenous aromatic amides, including drugs and xenobiotics.     

Factors controlling the K+ conductance inChara

Summary Previous current/voltage (I/V) investigations of theChara K⁺ state have been extended by increasing the voltage range (up to +200 mV) through blocking the action potential with La³⁺. A region of negative slope was found in theI/V characteristics at positive PD's, similar to that already observed at PD's more negative than the resting level. These decreases in membrane currents at PD's more negative than –150 mV and at PD's close to 0 or positive are thought to arise from the K⁺ channel closure. Both the negative slope regions could be reversibly abolished by 0.1mm K⁺, 20mm Na⁺, more than 10mm Ca²⁺ or 5mm tetraethylammonium (TEA). The K⁺ channels are therefore blocked by TEA, closed by low [K⁺] _o or high [Ca²⁺] _o and are highly selective to K⁺ over Na⁺. With the K⁺ channels closed, the remainingI/V profile was approximately linear over the interval of 400 mV (suggesting a leakage current), but large rectifying currents were observed at PD's more positive than +50 mV. These currents showed a substantial decrease in high [Ca²⁺] _o , sometimes displayed a slight shift to more positive PD's with increasing [K⁺] _o and were unaffected by TEA or changes in [Na⁺] _o . The slope of the linear part of theI/V profile was steeper in low [K⁺] _o than in TEA or high [Na⁺] _o (indicating participation of K⁺, but not Na⁺, in the leak current). Diethylstilbestrol (DES) was employed to inhibit the proton pump, but it was found that the leakage current and later the K⁺ channels were also strongly affected.     

Implications of an anomalous intracellular electrical response in bullfrog corneal epithelium

Summary The ionic dependencies of the transepithelial and intracellular electrical parameters were measured in the isolated frog cornea. In NaCl Ringer's the intracellular potential differenceV _sc measured under short-circuit conditions depolarized by nearly the same amount after either increasing the stromal-side KCl concentration from 2.5 to 25mm or exposure to 2mm BaCl₂ (K⁺ channel blocker). With Ba²⁺ the depolarization of theV _sc by 25mm K⁺ was reduced to one-quarter of the control change. If the Cl-permselective apical membrane resistanceR _o remained unchanged, the relative basolateral membrane resistanceR _i, which includes the lateral intercellular space, increased at the most by less than twofold after Ba²⁺. These effects in conjunction with the depolarization of theV _sc by 62 mV after increasing the stromal-side K⁺ from 2.5 to 100mm in Cl-free Ringer's as well as the increase of the apparent ratio of membrane resistances (a=R _o/R_i) from 13 to 32 are all indicative of an appreciable basolateral membrane K⁺ conductance. This ratio decreased significantly after exposure to either 25mm K⁺ or Ba²⁺. The decline ofR _o/R_i with 25mm K⁺ appears to be anomalous since this decrease is not consistent with just an increase of basolateral membrane conductance by 25mm K⁺, but rather perhaps a larger decrease ofR _o thanR _iAlso an increase of lateral space resistance may offset the effect of decreasingR _i with 25mm K⁺. In contrast,R _o/R_i did transiently increase during voltage clamping of the apical membrane potential differenceV _o and exposure to 25mm K⁺ on the stromal side. This increase and subsequent decrease ofR _o/R_i supports the idea that increases in stromal K⁺ concentration may produce secondary membrane resistance changes. These effects onR _o/R_i show that the presence of asymmetric ionic conductance properties in the apical and basolateral membranes can limit the interpretative value of this parameter. The complete substitution of Na⁺ withn-methyl-glucamine in Cl-free Ringer's on the stromal side hyperpolarized theV _sc by 6 mV whereas 10^–4 m ouabain depolarized theV _sc by 7 mV. Thus the basolateral membrane contains K⁺, Na⁺ and perhaps Cl^– pathways in parallel with the Na/K pump component.     

Methionine-repressible homoserine dehydrogenase of serratia marcescens: Purification and properties

Summary Serratia marcescens Sa-3 possesses two homoserine dehydrogenases and neither has any aspartokinase activity unlike the case ofEs-cherichia coli enzymes. The two enzymes have been separated. One of them is active with either NAD^– or NADP⁺ and has been purified about 180-fold to homogeneity. This enzyme is completely repressed by the presence of 1mm methionine or homoserine in the growth medium, but its activity is unaffected by any amino acid of the aspartate family either singly or together. In many of its properties (such as pH optimum, K_m for substrate and cofactors), it resembles its counterpart inE. coli K₁₂. Potassium ions stabilize the enzyme but are not essential for activity. Its molecular weight is around 155,000 as determined by gel filtration and approximately 76,000 by SDS-polyacrylamide gel electrophoresis. This suggests that the enzyme has two subunits (polypeptide chains) in the molecule: 8m urea has no effect on enzyme activity. This enzyme represents approximately 30% of the total homoserine dehydrogenase activity ofS. marcescens unlike inSalmonella typhimurium andE. coli K₁₂ where it is a minor or a negligible component.     

Large-conductance Calcium-activated Potassium Channels of Cultured Rat Melanotrophs

A large conductance, Ca²⁺-activated K⁺ channel of the BK type was examined in cultured pituitary melanotrophs obtained from adult male rats. In cell-attached recordings the slope conductance for the BK channel was ≈190 pS and the probability (P _o ) of finding the channel in the open state at the resting membrane potential was low (<<0.1). Channels in inside-out patches and in symmetrical 150 mm K⁺ had a conductance of ≈260 pS. The lower conductance in the cell-attached recordings is provisionally attributed to an intracellular K⁺ concentration of ≈113 mm. The permeability sequence, relative to K⁺, was K⁺ > Rb⁺ (0.87) > NH⁺ ₄ (0.17) > Cs⁺≥ Na⁺ (≤0.02). The slope conductance for Rb⁺ was much less than for K⁺. Neither Na⁺ nor Cs⁺ carried measurable currents and 150 mm internal Cs⁺ caused a flickery block of the channel. Internal tetraethylammonium ions (TEA⁺) produced a fast block for which the dissociation constant at 0 mV (K _D (0 mV)) was 50 mm. The K _D (0 mV) for external TEA⁺ was much lower, 0.25 mm, and the blocking reaction was slower as evidenced by flickery open channel currents. With both internal and external TEA⁺ the blocking reaction was bimolecular and weakly voltage dependent. External charybdotoxin (40 nm) caused a large and reversible decrease of P _o . The P _o was increased by depolarization and/or by increasing the concentration of internal Ca²⁺. In 0.1 μm Ca²⁺ the half-maximal P _o occurred at ≈100 mV; increasing Ca²⁺ to 1 μm shifted the voltage for the half-maximal P _o to −75 mV. The Ca²⁺ dependence of the gating was approximated by a fourth power relationship suggesting the presence of four Ca²⁺ binding sites on the BK channel. Received: 23 October/Revised: 15 December 1995     

Nonselective Cation and BK Channels in Apical Membrane of Outer Sulcus Epithelial Cells

The outer sulcus epithelium was recently shown to absorb cations from the lumen of the gerbil cochlea. Patch clamp recordings of excised apical membrane were made to investigate ion channels that participate in this reabsorptive flux. Three types of channel were observed: (i) a nonselective cation (NSC) channel, (ii) a BK (large conductance, maxi K or K _Ca ) channel and (iii) a small K⁺ channel which could not be fully characterized. The NSC channel found in excised insideout patch recordings displayed a linear current-voltage (I-V) relationship (27 pS) and was equally conductive for Na⁺ and K⁺, but not permeable to Cl⁻ or N-methyl-d-glucamine. Channel activity required the presence of Ca²⁺ at the cytosolic face, but was detected at Ca²⁺ concentrations as low as 10⁻⁷ m (open probability (P _o ) = 0.11 ± 0.03, n= 8). Gadolinium decreased P _o of the NSC channel from both the external and cytosolic side (IC₅₀∼ 0.6 μm). NSC currents were decreased by amiloride (10 μm− 1 mm) and flufenamic acid (0.1 mm). The BK channel was also frequently (38%) observed in excised patches. In symmetrical 150 mm KCl conditions, the I-V relationship was linear with a conductance of 268 pS. The Goldman-Hodgkin-Katz equation for current carried solely by K⁺ could be fitted to the I-V relationship in asymmetrical K⁺ and Na⁺ solutions. The channel was impermeable to Cl⁻ and N-methyl-d-glucamine. P _o of the BK channel increased with depolarization of the membrane potential and with increasing cytosolic Ca²⁺. TEA (20 mm), charybdotoxin (100 nm) and Ba²⁺ (1 mm) but not amiloride (1 mm) reduced P _o from the extracellular side. In contrast, external flufenamic acid (100 μm) increased P _o and this effect was inhibited by charybdotoxin (100 nm). Flufenamic acid inhibited the inward short-circuit current measured by the vibrating probe and caused a transient outward current. We conclude that the NSC channel is Ca²⁺ activated, voltage-insensitive and involved in both constitutive K⁺ and Na⁺ reabsorption from endolymph while the BK channel might participate in the K⁺ pathway under stimulated conditions that produce an elevated intracellular Ca²⁺ or depolarized membrane potential. Received: 14 October 1999/Revised: 10 December 1999     

Influence of external barium and potassium on potassium efflux in depolarized frog sartorius muscles

Summary Efflux of⁴²K⁺ was measured in frog sartorius muscles equilibrated in depolarizing solutions with external K⁺ concentrations ([K⁺] _o ) between 75 and 300mm and NaCl concentrations of 60, 120, or 240mm. For several combinations of KCl and NaCl, steady-state internal potentials (V _i) were the same for different [K⁺] _o . For the range ofV _i examined, K⁺ efflux occurs principally through the K⁺ inward rectifier channels. When external K⁺ is removedV _i remains constant for 2 to 3 hr because of the high membrane conductance to Cl^–, but K⁺ efflux drops by about one order of magnitude.External Ba²⁺ in the presence or absence of external K⁺ produces an inhibition of K⁺ efflux described by a relation of the formu=(u₁/(1+C)[Ba²⁺] _o ))+u ₂, whereu is the uninhibited fraction of K⁺ efflux;u ₁, u₂ andC are constants; andu ₁+u₂=1.C depends both on [K⁺] _o andV _i. When [K⁺] _o 75mm, increasing [K⁺] _o at constantV _i reduces Ba²⁺ sensitivity. For constantV _i–30 mV, Ba²⁺ sensitivity is less when [K⁺] _o =0 than when [K⁺] _o 75mm. When [K⁺] _o =0, Ba²⁺ sensitivity decreases asV _i is made more positive. The dependence of the Ba²⁺ sensitivity onV _i at constant [K⁺] _o is greater when [K⁺] _o =0 than when [K⁺] _o 75mm.Both the activation of K⁺ efflux by external K⁺ and the Ba²⁺ inhibition of K⁺ efflux can be explained on the basis of two membrane control sites associated with each channel. When both sites are occupied by K⁺, the channels are in a high flux state. When one or both sites are empty, the channels are in a low, nonzero flux state. When Ba²⁺ occupies either site, K⁺ efflux is further reduced. The reduction of Ba²⁺-sensitivity by increasing [K⁺] _o at high [K⁺] _o is attributable to the displacement of Ba²⁺ from the control sites by K⁺. The increased Ba²⁺ sensitivity produced by going from [K⁺] _o =0 to [K⁺] _o >-75mm whenV _i–30 mV is attributable to states in which Ba²⁺ occupies one site and K⁺ the other when [K⁺] _o 0. The smallerV _i dependence of the Ba²⁺ sensitivity when [K⁺] _o 75mm compared to [K⁺] _o =0 is attributable to the necessity that Ba²⁺ displace K⁺ at the control sites when [K⁺] _o is high but not when [K⁺] _o =0.     

Biochemical properties of yeast l-asparaginase

Only a single l-asparaginase has been found in the yeast Saccharomyces cerevisiae. The enzyme is synthesized constitutively, and its functioning is not controlled by the products of its activity. The apparent K_m for the yeast l-asparaginase reaction is 2.5×10^–4 m. Activity is greatest at pH 8.5 and is unaffected by the ionic strength of reaction mixtures. l-Asparagine can serve as the sole nitrogen source for cell metabolism but cannot serve as the sole supply of carbon. Active l-asparaginase is necessary for the use of l-asparagine as a nitrogen donor for cell growth. This requirement suggests a possible way in which l-asparaginase-deficient strains of yeast or other organisms might easily be selected.G.E.J. was supported by U.S. Public Health Service Predoctoral Fellowship No. 5 F01 GM36,437.     

Furosemide-sensitive K+ (Rb+) transport in human erythrocytes: Modes of operation,dependence on extracellular and intracellular Na+, kinetics,pH dependency and the effect of cell volume and N-ethylmaleimide

Summary The effect of extracellular and intracellular Na⁺ (Na _o ⁺ , Na _i ⁺ ) on ouabain-resistant, furosemide-sensitive (FS) Rb⁺ transport was studied in human erythrocytes under varying experimental conditions. The results obtained are consistent with the view that a (1 Na⁺+1 K⁺+2 Cl^–) cotransport system operates in two different modes: modei) promoting bidirectional 11 (Na⁺–K⁺) cotransport, and modeii) a Na _o ⁺ -independent 11 K _o ⁺ /K _i ⁺ exchange requiring Na _i ⁺ which, however, is not extruded. The activities of the two modes of operation vary strictly in parallel to each other among erythrocytes of different donors and in cell fractions of individual donors separated according to density. Rb⁺ uptake through Rb _o ⁺ /K _i ⁺ exchange contributes about 25% to total Rb⁺ uptake in 145mm NaCl media containing 5mm RbCl at normal Na _i ⁺ (pH 7.4). Na⁺–K⁺ cotransport into the cells occurs largely additive to K⁺/K⁺ exchange. Inward Na⁺–Rb⁺ cotransport exhibits a substrate inhibition at high Rb _o ⁺ . With increasing pH, the maximum rate of cotransport is accelerated at the expense of K⁺/K⁺ exchange (apparent pK close to pH 7.4). The apparentK _m ^Rb _o ⁺ of Na⁺–K⁺ cotransport is low (2mm) and almost independent of pH, and high for K⁺/K⁺ exchange (10 to 15mm), the affinity increasing with pH. The two modes are discussed in terms of a partial reaction scheme of (1 Na⁺+1 K⁺+2 Cl^–) cotransport with ordered binding and debinding, exhibiting a glide symmetry (first on outside = first off inside) as proposed by McManus for duck erythrocytes (McManus, T.J., 1987,Fed. Proc., in press). N-ethylmaleimide (NEM) chemically induces a Cl^–-dependent K⁺ transport pathway that is independent of both Na _o ⁺ and Na _i ⁺ . This pathway differs in many properties from the basal, Na _o ⁺ -independent K⁺/K⁺ exchange active in untreated human erythrocytes at normal cell volume. Cell swelling accelerates a Na _o ⁺ -independent FS K⁺ transport pathway which most probably is not identical to basal K⁺/K⁺ exchange. K _o ⁺ o ⁺

o ⁺ o ²⁺ reduce furosemide-resistant Rb⁺ inward leakage relative to choline _o ⁺ .     

Purification and characterization of a class I fructose 1,6-bisphosphate aldolase from Staphylococcus carnosus

Summary A fructose 1,6-bisphosphate aldolase (E.C.4.1.2.13) from Staphylococcus carnosus DSM 20501 was purified for the first time. The enzymatic activity was insensitive to high levels of EDTA indicating that the enzyme is a class I aldolase. This enzyme exhibits good stability at high temperatures and extreme stability over a wide pH range. The K _m for fructose 1,6-bisphosphate as substrate was 0.022 mm. The S. carnosus aldolase is a monomeric enzyme with a molecular mass of about 33 kDa. It exhibits a relatively broad pH optimum between pH 6.5 and 9.0. Furthermore, the aldolase accepts other aldehydes in place of its natural substrate, glyceraldehyde 3-phosphate, allowing the synthesis of various sugar phosphates. Offprint requests to: M. R. Kula     

Sodium gradient- and sodium plus potassium gradient-dependentl-glutamate uptake in renal basolateral membrane vesicles

Summary A membrane preparation enriched in the basolateral segment of the plasma membrane was isolated from the rat renal cortex by a procedure that included separation of particulates on a self-generating Percoll gradient. The uptake ofl-glutamate by the basolateral membrane vesicles was studied. A Na⁺ gradient ([Na⁺] _o >[Na⁺] _i ) stimulated the uptake ofl-glutamate and provided the driving force for the uphill transport of the acidic amino acid, suggesting a Na⁺-l-glutamate cotransport system in the basolateral membrane. A K⁺ gradient ([K⁺] _i >[K⁺] _o ) increased the uptake additionally. This effect was specific for K⁺ (Rb⁺). The action of the K⁺ gradient in enhancing the uptake ofl-glutamate had an absolute requirement for Na⁺. In the presence of Na⁺, but in the absence of a Na⁺ gradient. i.e., [Na⁺] _o =[Na⁺] _i , the K⁺ gradient also energized the concentrative uptake ofl-glutamate. This effect of the K⁺ gradient was not attributable to an alteration in membrane potential. The finding of a concentrative uptake system forl-glutamate energized by both Na⁺ ([Na⁺] _o >[Na⁺] _i and K⁺ ([K⁺] _i >[K⁺] _o ) gradients in the basolateral membrane, combined with previous reports of an ion gradient-dependent uphill transport system for this amino acid in the brush border membrane, suggests a mechanism by whichl-glutamate is accumulated intracellularly in the renal proximal tubule to extraordinarily high concentrations.     

Purification and characterization of a new type of serine carboxypeptidase from<Emphasis Type="Italic"> Monascus purpureus</Emphasis>

Carboxypeptidase produced by Monascus purpureus IFO 4478 was purified to homogeneity. The purified enzyme is a heterodimer with a molecular mass of 132 kDa and consists of two subunits of 64 and 67 kDa. It is an acidic glycoprotein with an isoelectric point of 3.67 and 17.0% carbohydrate content. The optimum pH and temperature were 4.0 and 40 °C, respectively. The enzyme was stable between pH 2.0 and 8.0 at 37 °C for 1 h, and up to 50 °C at pH 5.0 for 15 min. The enzyme was strongly inhibited by piperastatin A, diisopropylfluoride phosphate (DFP), phenylmethylsulfonylfluoride (PMSF), and chymostatin, suggesting that it is a chymotrypsin-like serine carboxypeptidase. Monascus purpureus carboxypeptidase was also strongly inhibited by p-chloromercuribenzoic acid (PCMB) but not by ethylenediaminetetraacetic acid (EDTA) and 1,10-phenanthroline, indicating that it requires cysteine residue but not metal ions for activity. Benzyloxycarbonyl-l-tyrosyl-l-glutamic acid (Z-Tyr-Glu), among the substrates tested, was the best substrate of the enzyme. The K_m, V_max, K_cat, and K_cat/K_m values of the enzyme for Z-Tyr-Glu at pH 4.0 and 37 °C were 0.86 mM, 0.917 mM min^–1, 291 s^–1, and 339 mM^–1 s^–1, respectively.     

Purification and characterization of a thermostable β-galactosidase with high transgalactosylation activity from Saccharopolyspora rectivirgula

We purified an extracellular thermostable -galactosidase of Saccharopolyspora rectivirgula strain V2-2, a thermophilic actinomycete, to homogeneity and characterized it to be a monomeric enzyme with a relative molecular mass of 145 000 and s°_20,w of 7.1 s. In addition to the hydrolytic activity of 1-O-substituted -d-galactopyranosides such as lactose [a Michaelis constant K _m=0.75 mm and molecular activity (k _cat)= 63.1 s^–1 at pH 7.2 and 55° C] and p-nitrophenyl -d-galactopyranoside (K _m=0.04 mm k _cat= 55.8 s^–1), the enzyme had a high transgalactosylation activity. The enzyme reacted with 1.75 m lactose at 70°C and pH 7.0 for 22 h to yield oligosaccharides in a maximum yield (other than lactose) of 41% (w/w). A general structure for the major transgalactosylic products could be expressed as (Gal)_c-Glc, where n is 1, 2, 3, and 4 with a glucose at a reducing terminal. These oligosaccharides could selectively promote the growth of the genus Bifidobacterium found in human intestines. S. rectivirgula -galactosidase was stable at pH 7.2 up to 60°C (for 4 h in the presence of 10 m MnCl₂) or 70°C (for 22 h in the presence of 1.75 m lactose and 10 m MnCl₂). Thus the enzyme is applicable to an immobilized enzyme system at high temperatures (60°C <) for efficient production of the oligosaccharides from lactose. Correspondence to: T. Nakayama     

The Glycine Residues G551 and G1349 within the ATP-Binding Cassette Signature Motifs Play Critical Roles in the Activation and Inhibition of Cystic Fibrosis Transmembrane Conductance Regulator Channels by Phloxine B

The cystic fibrosis transmembrane conductance regulator (CFTR) protein contains a canonical ATP-binding cassette (ABC) signature motif, LSGGQ, in nucleotide binding domain 1 (NBD1) and a degenerate LSHGH in NBD2. Here, we studied the contribution of the conserved residues G551 and G1349 to the pharmacological modulation of CFTR chloride channels by phloxine B using iodide efflux and whole-cell patch clamp experiments performed on the following green fluorescent protein (GFP)-tagged CFTR: wild-type, delF508, G551D, G1349D, and G551D/G1349D double mutant. We found that phloxine B stimulates and inhibits channel activity of wild-type CFTR (K_s = 3.2 ± 1.6 μM, K_i = 38 ± 1.4 μM) and delF508 CFTR (K_s = 3 ± 1.8 μM, K_i = 33 ± 1 μM). However, CFTR channels with the LSGDQ mutated motif (mutation G551D) are activated (K_s = 2 ± 1.13 μM) but not inhibited by phloxine B. Conversely, CFTR channels with the LSHDH mutated motif (mutation G1349D) are inhibited (K_i = 40 ± 1.01 μM) but not activated by phloxine B. Finally, the double mutant G551D/G1349D CFTR failed to respond not only to phloxine B stimulation but also to phloxine B inhibition, confirming the importance of both amino acid locations. Similar results were obtained with genistein, and kinetic parameters were determined to compare the pharmacological effects of both agents. These data show that G551 and G1349 control the inhibition and activation of CFTR by these agents, suggesting functional nonequivalence of the signature motifs of NBD in the ABC transporter CFTR.     

Regulatory volume increase in Ehrlich ascites tumor cells is mediated by the 1Na ∶ 1K ∶ 2Cl cotransport system

Summary After swelling in hyposmotic solution, Ehrlich ascites tumor cells shrink towards their original volume. Upon restoration of isosmolality (300 mOsm) the cells initially shrink but subsequently recover volume. This regulatory volume increase (RVI) is completely blocked when [Na⁺] _o or [Cl^–] _o is reduced by 50% in the presence of normal [K⁺] _o . With normal [NaCl] _o but less than 2 mm [K⁺] _o , not only is volume recovery blocked but the cells lose KCl and shrink. When [K⁺] _o is increased to 5 mm there is a rapid net uptake of K⁺ and Cl^– which results in volume recovery. This suggests that the reswelling phase requires the simultaneous presence of Na⁺, K⁺, and Cl^–. Although ouabain has no effect on volume recovery, bumetanide completely blocks RVI by inhibiting a cotransport pathway that mediates the net uptake of Na⁺, K⁺ and Cl^– in the ratio of 1Na1K2Cl. Na⁺ that accumulates is then replaced by K⁺ via the Na/K pump.I wish to thank my colleague, Dr. Thomas C. Smith for advice and helpful comments during the course of these studies. The excellent technical assistance provided by Rebecca Corcoran-Merrill is gratefully acknowledged.This investigation was supported by Grant CA 32927 from the National Cancer Institute, U.S. Public Health Service.     

Transport Systems of Ventricaria ventricosa: I/V Analysis of Both Membranes in Series as a Function of [K+] o

The current-voltage (I/V) profiles of Ventricaria (formerly Valonia) membranes were measured at a range of external potassium concentrations, [K⁺] _o , from 0.1 to 100 mm. The conductance-voltage (G/V) characteristics were computed to facilitate better resolution of the profile change with time after exposure to different [K⁺] _o . The resistance-voltage (R/V) characteristics were computed to attempt resolution of plasmalemma and tonoplast. Four basic electrophysiological stages emerged: (1) Uniform low resistance between −60 and +60 mV after the cell impalement. (2) High resistance between +50 and +150 for [K⁺] _o from 0.1 to 1.0 mm and hypotonic media. (3) High resistance between −150 and −20 mV for [K⁺] _o of 10 mm (close to natural seawater) and hypertonic media. (4) High resistance between −150 and +170 mV at [K⁺] _o of 100 mm. The changes between these states were slow, requiring minutes to hours and sometimes exhibiting spontaneous oscillations of the membrane p.d. (potential difference). Our analysis of the I/V data supports a previous hypothesis, that Ventricaria tonoplast is the more resistive membrane containing a pump, which transports K⁺ into the vacuole to regulate turgor. We associate state (1) with the plasmalemma conductance being dominant and the K⁺ pump at the tonoplast short-circuited probably by a K⁺ channel, state (2) with the K⁺ pump ``off' or short-circuited at p.d.s more negative than +50 mV, state (3) with the K<sup>+</sup> pump ``on,' and state (4) with the pump dominant, but affected by high K⁺. A model for the Ventricaria membrane system is proposed. Received: 5 November 1998/Revised: 11 May 1999     

Differential Effect of High Extracellular Ca2+ on K+ and Cl− Conductances in Murine Osteoclasts

Effects of the extracellular Ca²⁺ concentration ([Ca²⁺] _o ) on whole cell membrane currents were examined in mouse osteoclastic cells generated from bone marrow/stromal cell coculture. The major resting conductance in the presence of 1 mm Ca²⁺ was mediated by a Ba²⁺-sensitive, inwardly rectifying K⁺ (IR_K) current. A rise in [Ca²⁺] _o (5–40 mm) inhibited the IR_K current and activated an 4,4′-diisothiocyano-2,2′-stilbenedisulfonate (DIDS)-sensitive, outwardly rectifying Cl⁻ (OR_Cl) current. The activation of the OR_Cl current developed slowly and needed higher [Ca²⁺] _o than that required to inhibit the IR_K current. The inhibition of the IR_K current consisted of two components, initial and subsequent late phases. The initial inhibition was not affected by intracellular application of guanosine 5′-O-(3-thiotriphosphate) (GTPγS) or guanosine 5′-O-(2-thiodiphosphate) (GDPβS). The late inhibition, however, was enhanced by GTPγS and attenuated by GDPβS, suggesting that GTP-binding proteins mediate this inhibition. The activation of the OR_Cl current was suppressed by pretreatment with pertussis toxin, but not potentiated by GTPγS. An increase in intracellular Ca²⁺ level neither reduced the IR_K current nor activated the OR_Cl current. Staurosporine, an inhibitor for protein kinase C, did not modulate the [Ca²⁺] _o -induced changes in the IR_K and OR_Cl conductances. These results suggest that high [Ca²⁺] _o had a dual action on the membrane conductance of osteoclasts, an inhibition of an IR_K conductance and an activation of an OR_Cl conductance. The two conductances modulated by [Ca²⁺] _o may be involved in different phases of bone resorption because they differed in Ca²⁺ sensitivity, temporal patterns of changes and regulatory mechanisms. Received: 28 May 1996/Revised: 28 January 1997