On the role of oxygen in dehydrogenase reactions using tetrazolium salts

Summary Fundamental aspects of the reduction fo tetrazolium salts were investigated and, in particular, the role of oxygen in the reduction. It was found that oxygen had a competitive inhibitory effect on the reduction of (Tetra)Nitro BT mediated by NADH and phenazine methosulphate. This competitive effect, under aerobic conditions, could be reversed by using tetrazolium concentrations of 5mm. Oxygen did not have a signIficant effect on BPST reduction, whereas the inhibitory effect of oxygen on the reduction of Neotetrazolium was not reversed by increasing the tetrazolium concentration. The oxygen effect on Nitro BT reduction was considerably less when macromolecular substances such as albumin or polyvinyl alcohol were added to the medium. This may be due to increased Nitro BT concentrations being built up at the surface of macromolecules due to the nonpolar components of the Nitro BT molecule. When demonstrating glucose-6-phosphate dehydrogenase activityin vitro or in tissue sections with the use of Nitro BT, oxygen also had a direct inhibitory effect, even when azide was added to the medium for the inhibition of flavoprotein-mediated electron transfer to oxygen. Again, this direct inhibition of Nitro BT reduction by oxygen could be excluded by using a high Nitro BT concentration. Macromolecules present in the incubation medium or in tissue sections counteracted the oxygen effect. It is concluded that the maximum reaction rate and optimum localization of dehydrogenases is obtained when histochemical media are used containing 5mm (Tetra)Nitro BT and 20% polyvinyl alcohol.     

Intracellular potassium activity and the role of potassium in transepithelial salt transport in the human reabsorptive sweat duct

Summary We have measured the intracellular potassium activity, [K⁺]_i and the mechanisms of transcellular K⁺ transport in reabsorptive sweat duct (RSD) using intracellular ion-sensitive microelectrodes (ISMEs). The mean value of [K⁺]_i in RSD is 79.8±4.1mm (n=39). Under conditions of microperfusion, the [K⁺]_i is above equilibrium across both the basolateral membrane, BLM (5.5 times) and the apical membrane, APM (7.8 times). The Na⁺/K⁺ pump inhibitor ouabain reduced [K⁺]_i towards passive distribution across the BLM. However, the [K⁺]_i is insensitive to the Na⁺/K⁺/2 Cl^– cotransport inhibitor bumetanide in the bath. Cl^– substitution in the lumen had no effect on [K⁺]_i. In contrast, Cl^– substitution in the bath (basolateral side) depolarized BLM from –26.0±2.6 mV to –4.7^*±2.4 mV (n=3;^* indicates significant difference) and decreased [K⁺]_i from 76.0±15.2mm to 57.7^* ±12.7mm (n=3). Removal of K⁺ in the bath decreased [K⁺]_i from 76.3±15.0mm to 32.3^*±7.6mm (n=4) while depolarizing the BLM from –32.5±4.1 mV to –28.3^*±3.0 mV (n=4). Raising the [K⁺] in the bath by 10-fold increased [K⁺]_i from 81.7±9.0mm to 95.0^*±13.5mm and depolarized the BLM from –25.7±2.4 mV to –21.3^*±2.9 mV (n=4). The K⁺ conductance inhibitor, Ba²⁺, in the bath also increased [K⁺]_i from 85.8±6.7mm to 107.0^*±11.5mm (n=4) and depolarized BLM from –25.8±2.2 mV to –17.0^*±3.1 mV (n=4). Amiloride at 10^–6 m increased [K⁺]_i from 77.5±18.8mm to 98.8^*±21.6mm (n=4) and hyperpolarized both the BLM (from –35.5±2.6 mV to –47.8^*±4.3 mV) and the APM (from –27.5±1.4 mV to –46.0^* ±3.5 mV,n=4). However, amiloride at 10^–4 m decreased [K⁺]_i from 64.5±0.9mm to 36.0^*±9.9mm and hyperpolarized both the BLM (from –24.7±1.4 mV to –43.5^*±4.2 mV) and APM (from –18.3±0.9 mV to –43.5^*±4.2 mV,n=6). In contrast to the observations at the BLM, substitution of K⁺ or application of Ba²⁺ in the lumen had no effect on the [K⁺]_i or the electrical properties of RSD, indicating the absence of a K⁺ conductance in the APM. Our results indicate that (i) [K⁺]_i is above equilibrium due to the Na⁺/K⁺ pump; (ii) only the BLM has a K⁺ conductance; (iii) [K⁺]_i is subject to modulation by transport status; (iv) K⁺ is probably not involved in carrier-mediated ion transport across the cell membranes; and (v) the RSD does not secrete K⁺ into the lumen.     

Microelectrode characterization of the basolateral membrane of rabbit S3 proximal tubule

Summary The purpose of this study was to characterize the basolateral membrane of the S3 segment of the rabbit proximal tubule using conventional and ion-selective microelectrodes. When compared with results from S1 and S2 segments, S3 cells under control conditions have a more negative basolateral membrane potential (V _bl=–69 mV), a higher relative potassium conductance (t _K=0.6), lower intracellular Na⁺ activity (A _Na=18.4mm), and higher intracellular K⁺ activity (A _K=67.8mm). No evidence for a conductive sodium-dependent or sodium-independent HCO ₃ ^– pathway could be demonstrated. The basolateral Na–K pump is inhibited by 10^–4 m ouabain and bath perfusion with a potassium-free (0-K) solution. 0-K perfusion results inA _Na=64.8mm,A _K=18.5mm, andV _bl=–28 mV. Basolateral potassium channels are blocked by barium and by acidification of the bathing medium. The relative K⁺ conductance, as evaluated by increasing bath K⁺ to 17mm, is dependent upon the restingV _bl in both S2 and S3 cells. In summary, the basolateral membrane of S3 cells contains a pump-leak system with similar properties to S1 and S2 proximal tubule cells. The absence of conductive bicarbonate pathways results in a hyperpolarized cell and larger Na⁺ and K⁺ gradients across the cell borders, which will influence the transport properties and intracellular ion activities in this tubule segment.     

Quantitative histochemistry of creatine kinase in rat myocardium and skeletal muscle

Summary Creatine kinase (ec 2.7.3.2) activity was demonstrated in rat myocardium using a polyvinyl alcohol-containing incubation medium and auxiliary enzymes. The activity was quantified by microdensitometry using both endpoint measurements and kinetic measurements. Control reactions were performed in the absence of creatine phosphate and ADP.The linear regression lines of the absorbances of reduced Nitro BT at the isobestic wavelength (585 nm) on incubation time were highly significant for both endpoint and kinetic measurements. The activity obtained from endpoint measurements was about 40% lower. This was caused by loss of the formazan reaction product from the tissue sections when the incubation medium was removed at the end of the reaction. The relationship between creatine kinase activity (test minus control reaction) and section thickness was not linear for either myocardium or skeletal muscle; control reactions, however, showed linear relationships with section thickness for both tissues. Limited penetration of auxiliary enzymes into the sections may be responsible for this disporportionality. Therefore, care should be taken in the interpretation of quantitative data obtained with different tissues.In conclusion, multi-step enzyme reactions can be used for quantitative histochemical purposes provided it is taken into account that the reactivity is not proportional to section thickness.     

Intracellular chloride and potassium ions in relation to excitability ofChara membrane

Summary Internodal cells ofChara australis were made tonoplast-free by replacing the cell sap with EGTA-containing media; then the involvement of internal Cl^– and K⁺ in the excitation of the plasmalemma was studied.[Cl^–] _i was drastically decreased by perfusing the cell interior twice with a medium lacking Cl^–. The lowered [Cl^–] _i was about 0.01mm. Cells with this low [Cl^–] _i generated action potential and showed anN-shapedV–I curve under voltage clamped depolarization like Cl^–-rich cells containing 13 or 29mm Cl^–.E _m at the peak of the action potential was constant at [Cl^–] _i between 0.01 and 29mm. The possibility that the plasmalemma becomes as permeable to other anions as to Cl^– during excitation is discussed.At [Cl^–] _i higher than 48mm, cells were inexcitable. When anions were added to the perfusion medium to bring the K⁺ concentration to 100mm, NO ₃ ^– , F^–, SO ₄ ^2– , acetate, and propionate inhibited the generation of action potentials like Cl^–, while methane sulfonate, PIPES, and phosphate did not inhibit excitability.The duration of the action potential depended strongly on the intracellular K⁺ concentration. It decreased as [K⁺] _i (K-methane sulfonate) increased. Increase in [Na⁺] _i (Na-methane sulfonate) also caused its decrease, although this effect was weaker than that of K⁺. The action of these monovalent cations on the duration of the action potential is the opposite of their action on the membrane from the outside (cf. Shimmen, Kikuyama & Tazawa, 1976,J. Membrane Biol. 30:249).     

Apical membrane K conductance in the toad urinary bladder

Summary The conductance of the apical membrane of the toad urinary bladder was studied under voltage-clamp conditions at hyperpolarizing potentials (mucosa negative to serosa). The serosal medium contained high KCl concentrations to reduce the voltage and electrical resistance across the basal-lateral membrane, and the mucosal solution was Na free, or contained amiloride, to eliminate the conductance of the apical Na channels. As the mucosal potential (V _m) was made more negative the slope conductance of the epithelium increased, reaching a maximum at conductance of the epithelium increased, reaching a maximum atV _m=–100 mV. This rectifying conductance activated with a time constant of 2 msec whenV _m was changed abruptly from 0 to –100 mV, and remained elevated for at least 10 min, although some decrease of current was observed. ReturningV _m to+100 mV deactivated the conductance within 1 msec. Ion substitution experiments showed that the rectified current was carried mostly by cations moving from cell to mucosa. Measurement of K flux showed that the current could be accounted for by net movement of K across the apical membrane, implying a voltage-dependent conductance to K (G _K). Mucosal addition of the K channel blockers TEA and Cs had no effect onG _K, while 29mm Ba diminished it slightly. Mucosal Mg (29mm) also reducedG _K, while Ca (29mm) stimulated it.G _K was blocked by lowering the mucosal pH with an apparent pK₁ of 4.5. Quinidine (0.5mm in the serosal bath) reducedG _K by 80%.G _K was stimulated by ADH (20 mU/ml), 8-Br-cAMP (1mm), carbachol (100 m), aldosterone (5×10^–7 m for 18 hr), intracellular Li and extracellular CO₂.     

In situ kinetic measurements of d -amino acid oxidase in rat liver with respect to its substrate specificity

Summary d-Amino acid oxidase activity was demonstrated in peroxisomes of rat liver using unfixed cryostat sections and a histochemical technique using cerium ions as capture reagent for hydrogen peroxide and diaminobenzidine, cobalt ions and exogenous hydrogen peroxide to visualize the final reaction product for light microscopical analysis. Cytophotometric analysis of liver sections revealed similar zero-order reaction velocities of d-amino acid oxidase with activity twice as high in periportal areas as in pericentral areas of liver lobuli when using either d-proline or d,l-thiazolidine-2-carboxylic acid as substrates. On the other hand, a 4–5 times higher K _M value was found for d-proline than for d,l-thiazolidine-2-carboxylic acid. The K _M values in periportal and pericentral areas were similar for each substrate. These findings support the suggestion that the physiological substrate for d-amino acid oxidase may be d,l-thiazolidine-2-carboxylic acid, the adduct of cysteamine and glyoxylic acid. d-Amino acid oxidase may play a role in vivo in the production of oxalate which may participate in metabolic control processes as an intracellular messenger molecule.     

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.     

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.     

Single-channel K+ currents inDrosophila muscle and their pharmacological block

Summary Four types of nonvoltage-activated potassium channels in the body-wall muscles ofDrosophila third instar larvae have been identified by the patch-clamp technique. Using the inside-out configuration, tetraethylammonium (TEA). Ba²⁺, and quinidine were applied to the cytoplasmic face of muscle membranes during steady-state channel activation. The four channels could be readily distinguished on the basis of their pharmacological sensitivities and physiological properties. The K_ST channel was the only type that was activated by stretch. It had a high unitary conductance (100 pS in symmetrical 130/130mm KCl solution), was blocked by TEA (K _d 35mm), and was the most sensitive to Ba²⁺ (complete block at 10^–4 m). A Ca²⁺-activated potassium channel. K_CF 72pS (130/130mm KCl), was gated open at>10^–8 m Ca²⁺, was the least sensitive to Ba²⁺ (K _d of 3mm) and TEA (K _d of 100mm), and was not affected by quinidine. K₂ was a small conductance channel of 11 pS (130/2 KCl, pipette/bath), and was very sensitive to quinidine, being substantially blocked at 0.1mm. It also exhibited a half block at 0.3mm Ba²⁺ and 25mm TEA. A fourth channel type, K₃, was the most sensitive to TEA (half block<1mm). It displayed a partial block to Ba²⁺ at 10mm, but no block by 0.1mm quinidine. The blocking effects of TEA, Ba²⁺ and quinidine were reversible in all channels studied. The actions of TEA and Ba²⁺ appeared qualitatively different: in all four channels. TEA reduced the apparent unitary conductance, whereas Ba²⁺ decreased channel open probability.     

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.     

Dissociation of cellular K+ accumulation from net Na+ transport by toad urinary bladder

Summary A number of published data suggest a variable stoichiometry between the rates of cellular potassium uptake and net sodium transport (J _Na) across the urinary bladder of the toad. This problem was examined by simultaneously studying the intracellular chemical activity of potassium (a _K) with open-tip K⁺-selective microelectrodes and micropipets, and monitoringJ _Na by measuring the short-circuit current (SCC). When bathed in the short-circuited state with solutions containing ana _K of 2.7mm, the mean ±sem values for intracellulara _K were 43±0.6mm.Ouabain, at a concentration of 10^–2 m, reduced intracellulara _K by 56–67% and SCC by 96–100%. At 5×10^–4 m, ouabain reversibly reduced intracellulara _K by 40–55%, and SCC by 63–68%; the inhibition of SCC was only partly reversible during the period of observation.Removal of external potassium reduced intracellulara _K by 69–80% and SCC by 51–76%. Restoration of external potassium entirely returned intracellulara _K to its control value, but only partially reversed the inhibition of SCC during the period of study. Furthermore, recovery ofa _K began 19–43 min before that of SCC; recovery ofa _K was 90–97% complete before any increase in SCC could be measured. Although other interpretations are possible, the simplest interpretation of the data is that the processes responsible for potassium accumulation and transepithelial sodium transport are not identical. We propose the existence of a separate transfer mechanism at the basolateral cell membrane, responsible for accumulating intracellular potassium, and not directly coupled to active sodium transport.     

Na−K−2Cl cotransport in winter flounder intestine and bovine kidney outer medulla: [3H] bumetanide binding and effects of furosemide analogues

Summary The effects of several sulfamoyl benzoic acid derivatives on Na–K–Cl cotransport were investigated in winter flounder intestine. The relative efficacy (IC₅₀ values) and order of potency of these derivatives were benzmetanide, 5×10^–8 m> bumetanide 3×10^–7 m>piretanide 3×10^–6 m>furosemide 7×10^–6 m> amino piretanide 1×10^–5 3-amino-4-penoxy-5-sulfamoyl benzoic acid. Binding of [³H] bumetanide was studied in microsomal membranes from winter flounder intestine and compared to that in bovine kidney outer medulla. Binding was also studied in brush-border membranes from winter flounder intestine. The estimated values forK _d and number of binding sites (n) were: bovine kidney,K _d =1.6×10^–7,n=10.5 pmol/mg protein; winter flounder intestine,K _d 1.2×10^–7,n=7.3 pmol/mg protein, and brush-border membranes from winter flounder,K _d =5.3×10^–7,n=20.4 pmol/mg protein. The estimatedK _d for bumetamide binding to winter flounder brush-border membranes derived from association and dissociation kinetics was 6.8×10^–7 m. The similarity in magnitudes of IC₅₀ andK _d for bumetanide suggests that the brush-border cotransporter is ordinarily rate-limiting for transmural salt absorption and that bumetanide specifically binds to the cotransporter. Measurement of bumetanide binding at various concentrations of Na, K and Cl showed that optimal binding required all three ions to be present at about 5mm concentrations. Higher Na and K concentrations did not diminish binding but higher Cl concentrations (up to 100mm Cl) inhibited bumetanide binding by as much as 50%. Still higher Cl concentrations (500 and 900mm) did not further inhibit bumetanide binding. Scatchard analysis of bumetanide binding at 5 and 100mm Cl concentrations showed that bothK _d andn were lower at the higher Cl concentration (5mm Cl:K _d =5.29×10^–7 m,n=20.4 pmol/mg protein; 100mm Cl:K _d =2.3×10^–7 m,n=8.8 pmol/mg protein). These data suggest two possibilities: that bumetanide and Cl binding are not mutually exclusive (in contrast to pure competitive inhibition) and that they each bind to separate sites or that two distinct bumetanide binding sites exist, only one of which exhibits Cl inhibition of binding. This inhibition would then be consistent with a competitive interaction with Cl.     

Reaction rate studies of glucose-6-phosphate dehydrogenase in rat tracheal epithelium; the effect of section thickness

The reaction velocity of glucose-6-phosphate dehydrogenase has been quantified by continuous monitoring on a Vickers microdensitometer of the reaction product as it formed in sections of different thickness of rat tracheal epithelium. Reaction velocity was directly proportional to section thickness when either tetranitro BT or neotetrazolium was used as the final acceptor; the rate was the same with each tetrazolium salt. However, the amount of formazan deposited in a given time was not proportional to section thickness. When tetranitro BT was employed the reaction became non-linear in the thicker sections due to the inability of the instrument to record beyond a certain absorbance value. Using neotetrazolium a lag phase, due to the failure to overcome the critical supersaturation level of the formazan, preceded the linear response. The duration of this phase decreased as section thickness increased. The implications of these findings on studies using conventional "end point" methods of measurement are discussed.     

Binding of chloride and a disulfonic stilbene transport inhibitor to red cell band 3

Summary The effect of chloride on 4,4-dibenzamido-2,2-disulfonic stilbene (DBDS) binding to band 3 in unsealed red cell ghost membranes was studied in buffer [NaCl (0 to 500mm) + Na citrate] at constant ionic strength (160 or 600mm). pH 7.4, 25°C. In the presence of chloride, DBDS binds to a single class of sites on band 3. At 160mm ionic strength, the dissociation constant of DBDS increases linearly with chloride concentration in the range [Cl]=450mm. The observed rate of DBDS binding to ghost membranes, as measured by fluorescence stopped-flow kinetic experiments, increases with chloride concentration at both 160 and 600mm ionic strength. The equilibrium and kinetic results have been incorporated into the following model of the DBDS-band 3 interaction: The equilibrium and rate constants of the model at 600mm ionic strength areK ₁=0.67±0.16 m,k ₂=1.6±0.7 sec^–1,k _–2=0.17±0.09 sec^–1,K ₁=6.3±1.7 m,k ₂=9±4 sec^–1 andk _–2=7±3 sec^–1. The apparent dissociation constants of chloride from band 3,K _Cl, are 40±4mm (160mm ionic strength) and 11±3mm (600mm ionic strength). Our results indicate that chloride and DBDS have distinct, interacting binding sites on band 3.     

A quantitative histochemical study of 5′-nucleotidase activity in rat liver using the lead salt method and polyvinyl alcohol

Summary 5-Nucleotidase (EC 3.1.3.5) activity was demonstrated in cryostat sections of rat liver using the Wachstein—Meisel medium and polyvinyl alcohol as tissue stabilizer. Optimum activity was obtained using an incubation medium containing 5mm AMP, 10mm magnesium chloride, 7.2mm lead nitrate, 0.1m Tris—maleate buffer, pH 7.2, and 17% (w/v) polyvinyl alcohol (Sigma, type III). The activity was localized at the bile canalicular and sinusoidal side of the plasma membranes of liver parenchymal cells as well as in the plasma membranes of endothelial cells of central veins and in fibroblasts surrounding portal tracts. The reaction was specific for 5-nucleotidase because it was inhibited by ADP. Alkaline phosphatase did not interfere in the reaction. Cytophotometric analysis revealed a linear relationship between the formation of the final reaction product and incubation times up to 20 min and section thicknesses up to 8m. The activity in pericentral zones was 1.35 times the activity in periportal zones. The Michaelis constant for AMP was 1.4mm in pericentral zones and 0.8mm in periportal zones, suggesting that the bile canalicular and sinusoidal enzymes differ in their kinetic characteristics.     

Voltage dependence of current through the Na,K-exchange pump ofRana oocytes

Summary We have studied current (I _Str) through the Na, K pump in amphibian oocytes under conditions designed to minimize parallel undesired currents. Specifically,I _Str was measured as the strophanthidin-sensitive current in the presence of Ba^2–, Cd²⁺ and gluconate (in place of external Cl^–). In addition,I _Str was studied only after the difference currents from successive applications and washouts of strophanthidin (Str) were reproducible. The dose-response relationship to Str in four oocytes displayed a meanK _0.5 of 0.4 m, with 2–5 m producing 84–93% pump' block. From baseline data with 12 Na⁺-preloaded oocytes, voltage clamped in the range [–170, +50 mV] with and without 2–5 m Str, the averageI _Str depended directly onV _m up to a plateau at 0 mV with interpolated zero current at –165 mV. In three oocytes, lowering the external [Na⁺] markedly decreased the voltage sensitivity ofI _p , while producing only a small change in the maximal outwardI _Str. In contrast, decreasing the external [K⁺] from 25 to 2.5mm reducedI _Str at 0 mV without substantially affecting its voltage dependence. At K⁺ concentrations of 1mm, both the absolute value ofI _Str at 0 mV and the slope conductance were reduced. In eight oocytes, the activation of the averagedI _Str by [K⁺] _o over the voltage interval [–30, +30 mV] was well fit by the Hill equation, with K=1.7±0.4mm andnH (the minimum number of K⁺ binding sites) =1.7±0.4. The results unequivocally establish that the cardiotonic-sensitive current ofRana oocytes displays only a positive slope conductance for [K⁺] _o >1mm. There is therefore no need to postulate more than one voltage-sensitive step in the cycling of the Na, K pump under physiologic conditions. The effects of varying external Na⁺ and K⁺ are consistent with results obtained in other tissues and may reflect an ion-well effect.     

Stoichiometry and ion affinities of the Na−K−Cl cotransport system in the intestine of the winter flounder (Pseudopleuronectes americanus)

Summary Na–K–Cl cotransport stoichiometry and affinities for Na, K and Cl were determined in flounder intestine. Measurement of simultaneous NaCl and RbCl influxes resulted in ratios of 2.2 for Cl/Na and 1.8 for Cl/Rb. The effect of Na and Rb on Rb influx showed first order kinetics withK _1/2 values of 5 and 4.5mm and Hill coefficients of 0.9 and 1.2, respectively. The effect of Cl on rubidium influx showed a sigmoidal relationship withK _1/2 of 20mm and a Hill coefficient of 2.0. The effects of variations in Na and Cl concentration on short-circuit current (I _sc) were also determined. TheK _1/2 for Na was 7mm with a Hill coefficient of 0.9 and theK _1/2 for Cl was 46mm with a Hill coefficient of 1.9. Based on the simultaneous influx measurements, a cotransport stoichiometry of 1Na1K2Cl is concluded. The Hill coefficients for Cl suggest a high degree of cooperativity between Cl binding sites. Measurements of the ratio of net Na and Cl transepithelial fluxes under short-circuit conditions (using a low Na Ringer solution to minimize the passive Na flux) indicate that the Cl/Na flux ratio is approximately 21. Therefore Na recycling from serosa to mucosa does not significantly contribute to theI _sc. Addition of serosal ouabain (100 m) inhibited Rb influx, indicating that Na–K–Cl cotransport is inhibited by ouabain. This finding suggests that a feedback mechanism exists between the Na–K-ATPase on the basolateral membrane and the apical Na–K–2Cl cotransporter.     

Anion-dependent transport of thallous ions through human erythrocyte membrane

Summary Unidirectional fluxes of ²⁰⁴Tl⁺ through the human red blood cell membrane were measured. The inward rate coefficient measured in a K⁺-free saline was 15.6±0.6 hr^–1. The influx of Tl⁺ could be partially inhibited with 0.1mm ouabain (by 28%), 0.1mm DIDS (by 50%) or 1mm furosemide (by 51%). The inhibitory effects of ouabain and DIDS or furosemide were additive. Half-maximal responses were seen at 0.72 m and 0.22mm concentrations of DIDS and furosemide, respectively. A similar action of these blockers on Tl⁺ influx was observed in the erythrocytes incubated in MgCl₂-sucrose media. The outward rate coefficient of ²⁰⁴Tl was also inhibited by DIDS and furosemide (by 65 and 52%, respectively). Rate coefficients of ²⁰⁴Tl influx and efflux decreased significantly in the red cells exposed to Cl^–-free media (NaNO₃ or Mg(NO₃)₂-sucrose). Under these conditions addition of DIDS and furosemide led to only a small inhibition of Tl⁺ fluxes. There was a linear increase in Tl⁺ influx with rising of external Cl^– concentration within 80–155mm or HCO ₃ ^– concentration from 20 to 40mm when the sum of anions was kept constant (155mm) with NO ₃ ^– . The HCO ₃ ^– -stimulated Tl⁺ influx was completely blocked by 0.05mm DIDS but only 67% by 1mm furosemide. The present study provides direct evidence for the occurrence of Cl^– (HCO ₃ ^– )-dependent, DIDS-sensitive movement of Tl⁺ across the human erythrocyte membrane in both directions. Under physiological conditions, about half of net Tl⁺ fluxes occurs due to an anion exchange mechanism. Our data fail to detect a contribution of the Na-K-Cl cotransport system to Tl⁺ transport in human erythrocytes.     

Histochemical distribution of potassium-dependent p-nitrophenylphosphatase in the calf intestine

Summary Potassium-dependentp-nitrophenylphosphatase was demonstrated, using the lead citrate method of Mayaharaet al. (1980), in frozen sections of calf intestine fixed in formalin-calcium. The calcium chloride included in the fixative was shown to improve the localization of the reaction markedly. The phosphatase activity observed in the basolateral cell borders of the surface epithelium in the small intestine and colon was reduced by 10mm oubain and by substitution of sodium ions for potassium ions, confirming that the reaction was representative for the second step in the Na⁺/K⁺-ATPase complex. The intensity of the basolateral enzyme reaction was in the order: colon > duodenum, proximal jejunum > ileum > middle and distal jejunum. The crypts reacted weakly. A reaction in the brush border of the proximal jejunum and duodenum and a granular reaction in the supranuclear cytoplasm of the epithelial cells was not influenced by oubain. The staining pattern for the potassium-dependent phosphatase differed from that of alkaline phosphatase and Mg²⁺-dependent ATPase, which gave a reaction that was restricted to the brush border.