The role of chloroquine supplementation in liquid holding recovery and ultraviolet lethality ofEscherichia coli strains

The ultraviolet (UV)-induced lethality in excision-proficientEscherichia coli strains WP-2 HCR⁺, B/r HCR⁺, B/r () HCR⁺, Blon ^– HCR⁺, and WP-2 HCR^– is increased when chloroquine (300–500 g/ml) is added to the postirradiation medium. The degree to which chloroquine enhances the lethality of UV radiation varies for each strain, with strains B/r () and B showing a greater degree of repair inhibition than the other bacterial strains. The D₁₀ (UV showing 10% survival) decreased in B/r () HCR⁺ strain grown in the presence of 500 g/ml (dose response of 2.5). InE. coli B, a dose response of 4.0 was obtained in the presence of the same concentration of chloroquine.Escherichia coli B/r, WP-2 HCR⁺, and WP-2 HCR^– strains showed less UV-induced lethality in the presence of chloroquine. The drug also inhibited liquid holding recovery (LHR) in irradiated HCR⁺ strains. These results suggest that chloroquine interferes with the excision repair (HCR function) of UV-induced photoproducts in irradiated bacterial populations.     

The role of the HCR system in the repair of lethal lesions ofBacillus subtilis phages and their transfecting DNA damaged by radiation and alkylating agents

The role of the HCR system in the repair of prelethal lesions induced by UV-light, γ-rays and alkylating agents was studied in theBacillus subtilis SPP1 phage, its thermosensitive mutants (N3, N73 endts ₁) and corresponding infectious DNA. The survival of phages and their transfecting DNA after treatment with UV light is substantially higher inhcr ⁺ cells than inhcr cells, the differences being more striking in intact phages than in their transfecting DNA’s. Repair inhibitors reduce the survival inhcr ⁺ cells: caffeine lowers the survival of UV-irradiated phage SPP1 in exponentially growinghcr ⁺ cells but has no effect on its survival in competenthcr ⁺ cells; acriflavin and ethidium bromide decrease the survival of UV-irradiated SPP1 phage in both exponentially growing and competenthcr ⁺ cells to the level of survival observed inhcr cells; moreover, ethidium bromide lowers the number of infective centres inhcr ⁺ cells of UV-irradiated DNA of the SPP1 phage. Repair inhibitors do not lower the survival of UV-irradiated phages or their DNA inhcr cells. The repair mechanism under study repairs effectively also lesions induced by polyfunctional alkylating agents in transfecting DNA’s ofB. subtilis phages but is not functional with lesions induced by these agents in free phages and lesions caused in phages and their DNA by ethyl methanesulphonate or γ-rays.     

Reactivation of photodynamically inactivated lambda phages

Summary UV-irradiated c phages show a lower survival when plated on rec ^–-cells as compared to rec ⁺-cells. Photodynamically inactivated c phages show the lowest survival on hcr ^–; rec ^–-cells. The rec-functions do not influence the repair of UV- or photodynamically induced lesions in T1 phages.     

Expression of an excision repair gene in transformation of Bacillus subtilis.

Summary DNA of Bacillus subtilis proficient in excision repair (hcr ⁺) was introduced into Angiografinpurified competent cells of an excision repair-deficient strain UVS-1 (hcr-1). The hcr ⁺ gene was found to affect the UV-survival curve of the cells, giving rise to a UV-resistant component. However, a considerable number of colonies of the UV-resistant component consisted of cells that were not transformed to hcr ⁺ as judged by their sensitivity to mitomycin C (MC), UV, and by their ability to reactivate UV-irradiated M2 phages. This suggests that the hcr gene may be expressed without integration. The recA function of B. subtilis was necessary for expression of UV resistance to occur. When DNA-treated cells were selected for met ⁺ recombinants, the UV-resistant component was again found on the UV-survival curve and about half of the colonies of the UV-resistant component consisted of Hcr^- cells. This result was explained by an integration-segregation model for hcr ⁺ and met ⁺ genes. The effect of the hcr ⁺ gene was seen even when DNA was added after cells were irradiated with UV, although this effect was gradually diminished by delaying the time of DNA addition. A complementation effect was found between two excision repair mutations residing in two distant loci, using hcr-114 DNA as a donor and hcr-1 cells as a recipient.     

Synergistic effects of ethanol and temperature on yeast mitochondria

At temperatures lower than 37°C, the ethanol inhibition constant (Ki) for growth or fermentation inrho ⁺ cells of theSaccharomyces cerevisiae strain S288C was always higher (1.1M) than inrho ^– mutants (0.7M). At 37°C these differences disappeared, and both strains were equally inhibited by ethanol (Ki=0.7m). Mitochondrial activity can be inhibited by high ethanol concentration and temperature. In fact, the stronger inhibition by ethanol of therho ⁺ strain at 37°C was due to the fact that, under these conditions, this strain loses the advantage conferred by mitochondrial activity since the induction ofrho ^– cells in the population is very high. This does not result in an increase in the frequency ofrho ^– mutants because of the poor viability of these mutants in conditions of high temperature and ethanol. In consequence, S288C strain becomes as strongly inhibited by ethanol as therho ^– mutant strains. Differences in viability were not related to the fatty acids and ergosterol composition of the strain. In the presence of ethanol, bothrho ⁺ andrho ^– strains modified their lipids in the same way, but these changes did not improve their ethanol tolerance. They were not due to differences in adaptation to ethanol either, since after successive transfers in ethanol, growth () and fermentation () rates in therho ^– mutants were increasingly inhibited with time, whereas in the S288C strain inhibition of and by ethanol remained unaltered. Rather,rho ^– mutants are less viable thanrho ⁺ cells because of the inability of the former to respire. At 37°C the Ki increased to 0.9M ethanol either when mitochondrial from highly ethanol-tolerant wine yeasts were transferred torho ^– mutants of the strain S288C or when the mitochondria of strain S288C were preadapted by growing the strain in glycerol instead of glucose before it was cultivated in ethanol.     

pH modulation of the kinetics of rabbit jejunal,brush-border folate transport

Summary In jejunal brush-border membrane vesicles, an outwardly directed OH^– gradient (in>out) stimulates DIDS-sensitive, saturable folate (F) uptake (Schron, C.M. 1985.J. Clin. Invest. 76:2030–2033), suggesting carrier-mediated folate: OH^– exchange (or phenomenologically indistinguishable H⁺: folate cotransport). In the present study, the precise role of pH in the transport process was elucidated by examining F uptake at varying pH. For pH gradients of identical magnitude, F uptake (0.1 M) was greater at lower (pH_int/pH_ext: 5.5/4.5) compared with higher (6.5/5.5) pH ranges. In the absence of a pH gradient, internal Ftrans stimulated DIDS-sensitive³H-folate uptake only at pH6.0. Since stepwise increments ininternal pH (4.57.5; pH_ext=4.5) stimulated F uptake, an inhibitory effect of higherinternal pH was excluded. In contrast, with increasing external pH (4.356.5; pH_int=7.8), a 50-fold decrement in F uptake was observed (H⁺ K _m =12.8±1.2 M). Hill plots of these data suggest involvement of at least one H⁺ (OH^–) at low pH (monovalent F^– predominates) and at least 2 H⁺ (OH^–) at high pH (divalent F^–2 predominates). Since an inside-negative electrical potential did not affect F uptake at either pH_ext 4.55 or 5.8, transport of F^– and F^–2 is electroneutral. Kinetic parameters for F^– and F^–2 were calculated from uptake data at pH_ext 4.55 and 5.0. Comparison of predictedvs. experimentally determined kinetic parameters at pH_ext5.8 (K _m =1.33vs. 1.70 M;V _max=123.8vs. 58.0 pmol/mg prot min) suggest that increasing external pH lowers theV _max, but does not affect theK _m for carrier-mediated F transport. These data are consistent with similarK _i ^' s for sulfasalazine (competitive inhibitor) at pH_ext 5.35 and 5.8 (64.7 and 58.5 M, respectively). In summary, the jejunal F carrier mediates electroneutral transport of mono- and divalent F and is sensitive to external pH with a H⁺ K _m (or OH^– lC₅₀) corresponding to pH 4.89. External pH effects theV _max, but not theK _m for carriermediated F uptake suggesting a reaction mechanism involving a ternary complex between the outward-facing conformation of the carrier and the transported ions (F and either OH^– or H⁺),rather than competitive binding that is mutually exclusive.     

The enhancement of the mutagenic effect of ultraviolet radiation inEscherichia coli by caffeine and acriflavine

The mutational synergism of caffeine and acriflavine was studied in five types ofEscherichia coli mutants induced by u. v.-radiation. The following types of mutations were compared: streptomycinrresistance (strain B/r), streptomycin-independence (strain Sd-4), and reversions to prototrophy (strains WP-14 pro⁻, WP-2 try⁻, and WP-2 try⁻ hcr⁻). In all hcr⁺ strains tested the presence of caffeine or acriflavine in a post-irradiation plate medium slightly decreases the survival of u.v.-irradiated cells and increases considerably the frequency of induced mutations. The mutational synergism of caffeine and acriflavine in the str-r and str-i mutants is observed only within the range of low doses. The abovementioned dose-dependence of the synergistic effect is discussed from the point of view of qualitative difference between the premutational damage caused by low and high doses. The post-irradiation treatment by caffeine slightly increases the frequency of induced prototrophs also in the WP-2 hcr⁻ strain. This finding is explained by the inhibition of the residual HCR-activity of the strain. The post-irradiation mutational synergism of acriflavine was not found in the WP-2 hcr⁻ strain.     

Repair inhibition of potential mutations of ultraviolet-irradiatedEscherichia coli by chloroquine and quinacrine

The frequency of ultraviolet(UV)-induced mutations drops rapidly whenEscherichia coli Hcr⁺ cells (strains WP-2 Hcr⁺; B/r) are incubated on phosphate-buffered agar (PBA), but is reduced only slightly if chloroquine or quinacrine are incorporated into the medium. The excision-deficient WP-2 Hcr^– strain shows little reduction in the number of mutants when incubated on PBA. During postirradiation incubation on PBA, cell viability was relatively unaffected by the presence of the chemicals in the PBA (25 g/ml quinacrine; 50 g/ml chloroquine). When cells were given optimal doses of photoreactivating light, no further decline in mutations was obtained during subsequent incubation on PBA. Approximately 64% of the mutants seen when cells are treated with UV-PBA-chloroquine and 90% seen with UV-PBA-quinacrine can be repaired if cells are incubated on PBA. When these chemicals were added to the PBA, both excision-proficient strains (WP-2 Hcr⁺; B/r) demonstrated a marked reduction in the repair of UV-induced mutations to streptomycin resistance. Our results indicate that these chemicals interfere with the excision of UV-induced pyrimidine dimers, a process that normally occurs during postirradiation incubation on PBA.     

Transfer ofF′ fromEscherichia coli K 12 toEscherichia coli B and to strains ofParacolobacter andKlebsiella

The transfer of theF episome fromEscherichia coli K 12 toE. coli B,Paracolobacter andKlebsiella was studied. The frequency of transfer of the episomal markers toE. coli B was very low. The large majority ofE. coli B cells which had received the episomal markerslac ⁺ orgal ⁺ were F^–, which indicates that the episomal markers were stably integrated on the chromosome. Recombinants from K 12 F⁺ × B F^– crosses were mostly F^–. These results suggest that the multiplication of theF-factor ofE. coli K 12 is restricted inE. coli B. The transfer of theF-lac ⁺ Ad ⁺ episome fromE. coli K 12 toParacolobacter andKlebsiella strains was in most cases only possible when donor and acceptor strain were plated together on selective media. Stable incorporation of episomal markers was also found withParacolobacter coliforme. Paracolobacter aerogenoides andKlebsiella aerogenes strains could be infected withF-lac ⁺ Ad ⁺. The episomal markers were not incorporated and the episomes were easily lost, which indicates that these strains contained theF factor in the autonomous state.     

Relative importance of Na+, Cl−, and abscisic acid in NaCl induced inhibition of root growth of rice seedlings

The relative importance of endogenous abscisic acid (ABA), as well as Na⁺ and Cl^– in NaCl-induced responses related to growth in roots of rice seedlings were investigated. The increase in ammonium, proline and H₂O₂ levels, and cell wall peroxidase (POD) activity has been shown to be related to NaCl-inhibited root growth of rice seedlings. Increasing concentrations of NaCl from 50 to 150 mM progressively decreased root growth and increased both Na⁺ and Cl^–. Treatment with NaCl in the presence of 4,4-diisothiocyano-2,2-disulfonic acid (DIDS, a nonpermeating amino-reactive disulfonic acid known to inhibit the uptake of Cl^–) had less Cl^– level in roots than that in the absence of DIDS, but did not affect the levels of Na⁺, and responses related to growth in roots. Treatment with 50 mM Na-gluconate (the anion of which is not permeable to membrane) had similar Na⁺ level in roots as that with 100 mM NaCl. It was found that treatment with 50 mM Na-gluconate effected growth reduction and growth-related responses in roots in the same way as 100 mM NaCl. All these results suggest that Cl^– is not required for NaCl-induced responses in root of rice seedlings. Endogenous ABA level showed no increase in roots of rice seedlings exposed to 150 mM NaCl. It is unlikely that ABA is associated with NaCl-inhibited root growth of rice seedlings.     

Caffeine-death in Escherichia coli

Summary Growth of a culture of E. coli strain B or 15 in medium containing caffeine resulted in the accumulation of inviable cells in the population. A caffeine concentration of 8 mM caused the death of between 30% and 50% of the cells in 12 independent populations grown for 15 generations or more. The thymine dimer excision-defective strains Bs-1, Bs-8 and Bs-12 and the exr ^– mutant Bs-2 were resistant to this lethal effect. The reckless, hcr ⁺ mutant Bs-11 was more sensitive than the parental B strain. Although 100mM caffeine did not impair DNA synthesis in vitro, concentrations of the drug 8 mM caused a significant decline in DNA synthesis in vivo in E. coli B cells. From the fit of an experimental growth curve to an algebraic model of growth in which a proportion of cells are inactivated at each replication it is suggested that caffeine does not affect the replication rate of the viable cells. The observed impairment of DNA synthesis in vivo is equated with this cell death (caffeine-death). For E. coli 15 or B, 8 mM caffeine induced caffeine-death at a rate of 18% per cell generation. Caffeine-resistant mutants of E. coli B and E. coli 15 were isolated. Of those studied in detail a substantial proportion proved to be U.V. and X-ray sensitive and excision-defective. Others were more U.V. and X-ray resistant than strain B. Yet another class proved highly unstable. A chromosome breakage model of caffeine-death implicating enzymes of the excision-repair process is discussed.     

Separation of proteins by ion-exchange chromatography using gradient elution

Chromatographic separation of proteins by the gradient elution method using DEAE Toyopearl 650^® was carried through. The concentration gradient was effected by changing the ionic strength of NaCl in the carrier buffer solution. Bovine serum albumin and hemoglobin were used as model proteins for separation. The experimental chromatogram was compared with theoretical results of Yamamoto et al. [1, 2]. Adsorption equilibria of the proteins onto the carrier were measured and expressed by a function of the ionic strength. The retention volume and peak width of the resulting chromatogram can be calculated from the equilibrium data using the Yamamoto theory. The calculated results agreed well with the experimental data.The method presented in this paper will be useful to predict the viability of ion-exchange chromatography in protein separation.List of Symbols c kg m^–3 concentration in the liquid phase - c _s kg m^–3 concentration in the solid phase - D _s m² s^–1 intraparticle diffusivity - d _p m particle diameter - E _z m² s^–1 longitudinal diffusivity of the protein - E _{z I} m² s^–1 longitudinal diffusivity of ionic strength - H /(1 – ) - I kmol m^–3 ionic strength - I _O kmol m^–3 initial ionic strength - I _p kmol m^–3 ionic strength at the peak - I _s kmol m^–3 ionic strength in the solid phase - I/V mol (dm³)^–2 slope of the ionic gradient elution - m distribution coefficient - m distribution coefficient at I - m _I distribution coefficient for ionic strength - Q cm³s^–1 flow rate - R m particle radius - R _s degree of separation - r m radial position inside particles - t s time - u m s^–1 linear velocity - V cm³ eluted volume of liquid - V _p cm³ eluted volume of liquid at the peak - V _T cm³ volume of the packed bed - W cm³ peak width - Z m bed height - z m vertical position in the bed - z _p m peak position from the inlet of the bed - (t) delta input at time - void fraction - ₁ s first moment - ₂ s² second central moment - s superficial space time     

Influence of sulphur-containing compounds on the growth of Methanosarcina barkeri in a defined medium

Summary Optimal growth of Methanosarcina barkeri occurred in a defined medium containing methanol when 2.5–4 mM sodium sulphide was added giving a concentration of 0.04–0.06 mM dissolved sulphide (HS^–+S^2–. When the sulphide concentration was too low for optimal growth (e.g., 0.1 mM Na₂S added) the addition of the redox resin Serdoxit acted as a sulphide reservoir and caused a significant stimulation of growth. Furthermore it could be demonstrated that iron sulphide, zinc sulphide or L-methionine could also act as sulphur sources while the addition of sodium sulphate to sulphide-depleted media failed to restore growth. The amino acid L-cysteine (0.85 mM) stimulated growth but could not replace Na₂S.Under optimal cysteine-and sulphide concentrations the generation time of this strain was about 7–9 h during growth on methanol, giving a growth yield of about 0.14 g/g methanol consumed. Different M. barkeri strains were also able to grow under these conditions on acetate (30–50 h doubling time) without a significant lag-phase and with complete substrate consumption even though the inoculum was grown on methanol or H₂–CO₂. When methanol and acetate were present as a mixture in the medium both were used simultaneously.     

pH Modulation of the kinetics of rabbit jejunal,brush-border folate transport

Summary In jejunal brush-border membrane vesicles, an out-wardly directed OH^– gradient (in>out) stimulates DIDS-sensitive, saturable folate (F) uptake (Schron, C.M., 1985).J. Clin. Invest. 76:2030–2033), suggesting carrier-mediated folate: OH^– exchange (or phenomenologically indistiguishable H⁺: folate cotransport). In the present study, the precise role of pH in the transport process was elucidated by examinin F uptake at varying pH. For pH gradients of identical magnitude, F uptake (0.1 M) was geater at lower (pH_int/pH_ext:5.5/4.5) compared with higher (6.5/5.5) pH ranges. In the absence of a pH gradient, internal Ftrans stimulated DIDS-sensitive³H-folate uptake only at pH6.0. Since setepwise increments ininternal pH (4.57.5; pH_ext=4.5) stimulated F uptake, an inhibitory effect of higherinternal pH was excluded. In contrast, with increasing external pH(4.356.5; pH_int=7.8), a 50-fold decrement in F uptake was observed (H⁺ K _m =12.8±1.2m). Hill plots of these data suggest involvement of at least one H⁺ (OH^–) at high pH (divalent F^–2 predominates). Since an inside-negative electrical potential did not affect F uptake at either pH_ext 4.55 or 5.8, transport of F^– and F^–2 is electroneutral. Kinetic parameters for F^– and F^–2 were calculated from uptake data at pH_ext 4.55 and 5.0. Comparision of predictedvs. experimentally determined kinetic parameters at pH_ext 5.8 (K _m =1.33vs. 1.70 m;V _max=12.8vs. 58.0 pmol/mg prot min) suggest that increasing external pH lowers theV _max, but does not affect thatK _m, for carrier-mediated F transport. These data are consistent with similarK _i's for sulfasalazine (competitive inhibitor) at pH_ext 5.35 and 5.8 (64.7 and 58.5 m, respectively). In summary, the jejunal F carrier mediates electroneutral transport of mono- and divalen F and is sensitive to extermal pH with a H⁺ K _m (or OH^– IC₅₀) corresponding to pH 4.89. External pH affects theV _max, but not theK _m for carriermediated F uptake suggesting a reaction mechanism involving a ternary complex between the outward-facing conformation of the carrier and the transported ions (F and either OH^– or H⁺) rather than competitive binding that is mutually exclusive.     

Swelling-activated Chloride and Potassium Conductance in Primary Cultures of Mouse Proximal Tubules. Implication of KCNE1 Protein

Volume-sensitive chloride and potassium currents were studied, using the whole-cell clamp technique, in cultured wild-type mouse proximal convoluted tubule (PCT) epithelial cells and compared with those measured in PCT cells from null mutant kcne1 –/– mice. In wild-type PCT cells in primary culture, a Cl^– conductance activated by cell swelling was identified. The initial current exhibited an outwardly rectifying current-voltage (I-V) relationship, whereas steady-state current showed decay at depolarized membrane potentials. The ion selectivity was I^– > Br^– > Cl^– >> gluconate. This conductance was sensitive to 1 mM 4,4-Diisothiocyanostilbene-2,2-disulfonic acid (DIDS), 0.1 mM 5-nitro-2-(3-phenylpropylamino)benzoic acid (NPPB) and 1 mM diphenylamine-2-carboxylate (DPC). Osmotic stress also activated K⁺ currents. These currents are time-independent, activated at depolarized potentials, and inhibited by 0.5 mM quinidine, 5 mM barium, and 10 µM clofilium but are insensitive to 1 mM tetraethylammonium (TEA), 10 nM charybdotoxin (CTX), and 10 µM 293B. In contrast, the null mutation of kcne1 completely impaired volume-sensitive chloride and potassium currents in PCT. The transitory transfection of kcne1 restores both Cl^– and K⁺ swelling-activated currents, confirming the implication of KCNE1 protein in the cell-volume regulation in PCT cells in primary cultures.     

Ultraviolet inactivation and photoreactivation of the cholera phage ‘Kappa’

Summary The lysogenic cholera phage, Kappa is some ten to twenty folds more resistant to UV (254 nm) than are most of the T. phages ofE. coli, or the cholera phage PL 163/10, or the hostV. cholerae strain H218 Sm^r, the 37% (D ₃₇) and 10% (D ₁₀) survival doses being 255.8 J/m² and 633.6 J/m² respectively. The UV-irradiated Kappa phages could be photoreactivated in the hostV. cholerae strain H218 Sm^r to a maximum extent of 40%. The removal of the number of lethal hits per phage by the survival-enhancement treatment (photoreactivation) with time followed an exponential relation, the constant probability of removal of lethal hit per unit time being 2.8 × 10^–2 min^–1. The UV-irradiated phages could also be Weigle reactivated in the host strain H218 Sm^r by a small degree, the maximum reactivation factor (ratio of survivals in UV-irradiated and non-irradiated hosts) being 1.50.     

Supply and compartmentalization of potassium in mesophyll cells of the needles of spruce,Picea abies (L.) Karst.

Summary The water and potassium content and the relative vacuolar volume ( = V_vacuole/V_cell) of mesophyll cells of the needles of healthy 21-yearold spruce trees [Picea abies (L.) Karst.] were determined. In 5-year-old needles was 0.626 ± 0.178 (ovx ± SD). Potassium concentrations in the bulk tissue water ranged from about 65 to 105 mM. Simulations were made using this information and a simple two-compartmental model of the cell with the bulk cytoplasm and the vacuole and assuming that the minimum cytoplasmic and vacuolar K⁺ concentrations are 100–150 mM and 10–15 mM respectively. It is shown that a K⁺ content of needles below 50 mmol/1 tissue water would be precarious for maintenance of normal physiological and metabolic performance.     

On the relationship between host-cell reactivation and UV-reactivation in UV-inactivated phages

Summary Host-cell reactivation (HCR) and UV-reactivation (UVR) were studied in phage T1, T3 and , using as host bacteriaE. coli B, C, andK12S, as well as their non-hostreactivating mutantsB _s–1 (Ellison et al. 1960),C syn ^–(Rörsch et al. 1962), andK12S hcr ^–. The experiments gave further support to the idea that HCR is an enzymatic process. It repairs about 80 to 90 percent of otherwise lethal UV-lesions not only in phage DNA, but also in bacterial DNA. Thehcr ^– mutant isolated fromK12S for the purpose of this investigation, and thesyn ^– mutant of ColiC show a very small extent of HCR; they are not completely deficient for the HCR-enzyme.A correlation exists between the occurrence of HCR and UVR. UVR is absent in those cases where no HCR is observed. In systems with residual HCR-activity (hcr ^– andsyn ^– cells) UVR is less pronounced and has its maximum at lower UV-doses than in systems with full HCR-activity. UVR occurs also in unirradiated host-reactivating cells, if a large number of additional UV-lesions is introduced by means of superinfecting homologous phage. This effect is not observed in non-hostreactivating strains. The hypothesis is discussed that UVR is not a specific repair phenomenon by itself, but is the result of inhibition of cellular processes tending to decrease the survival.With 7 Figures in the TextThe work was supported by the Deutsche Forschungsgemeinschaft     

Ion transport across leech integument

The dorsal skin of the leech Hirudo medicinalis was used for electrophysiological measurements performed in Ussing chambers. The leech skin is a tight epithelium (transepithelial resistance = 10.5±0.5 k· cm^-2) with an initial short-circuit current of 29.0±2.9 A·cm^-2. Removal of Na⁺ from the apical bath medium reduced short-circuit current about 55%. Ouabain (50mol·l^-1) added to the basolateral solution, depressed the short-circuit current completely. The Na⁺ current saturated at a concentration of 90 mmol Na⁺·l^-1 in the apical solution (K _M=11.2±1.8 mmol·l^-1). Amiloride (100 mol·l^-1) on the apical side inhibited ca. 40% of the Na⁺ current and indicated the presence of Na⁺ channels. The dependence of Na⁺ current on the amiloride concentration followed Michaclis-Menten kinetics (K _i=2.9±0.4 mol·l^-1). The amiloride analogue benzamil had a higher affinity to the Na⁺ channel (K _i=0.7±0.2 mol·l^-1). Thus, Na⁺ channels in leech integument are less sensitive to amiloride than channels known from vertebrate epithelia. With 20 mmol Na⁺·l^-1 in the mucosal solution the tissue showed an optimum amiloride-inhibitable current, and the amiloride-sensitive current under this condition was 86.8±2.3% of total short-circuit current. Higher Na⁺ concentrations lead to a decrease in amiloride-blockade short-circuit current. Sitmulation of the tissue with cyclic adenosine monophosphate (100 mol·l^-1) and isobutylmethylxanthine (1 mmol·l^-1) nearly doubled short-circuit current and increased amiloride-sensitive Na⁺ currents by 50%. By current fluctuation analysis we estimated single Na⁺ channel current (2.7±0.9 pA) and Na⁺ channel density (3.6±0.6 channels·m^-2) under control conditions. After cyclic adenosine monophosphate stimulation Na⁺ channel density increased to 5.4±1.1 channels·m^-2, whereas single Na⁺ channel current showed no significant change (1.9±0.2 pA). These data present a detailed investigation of an invertebrate epithelial Na⁺ channel, and show the similarities and differences to vertebrate Na⁺ channels. Whereas the channel properties are different from the classical vertebrate Na⁺ channel, the regulation by cyclic adenosine monophosphate seems similar. Stimulation of Na⁺ uptake by cyclic adenosine monophosphate is mediated by an increasing number of Na⁺ channels.Abbreviations slope of the background noise component - ADH antidiuretic hormone - cAMP cyclic adenosine monophosphate - f frequency - f _c coner frequency of the Lorentzian noise component - Hepes N-hydroxyethylpiperazine-N-ethanesulphonic acid - BMX isobutyl-methylxanthine - i _Na single Na⁺ channel current - I _Na max, maximal inhibitable Na⁺ current - I _SC short circuit current - K _i half maximal blocker concentration - K _M Michaelis constandard error of the mean - S _(f) power density of the Lorentzian noise component - S ₀ plateau value of the Lorentzian noise component - TMA tetramethylammonium - Trizma TRIS-hydroxymethyl-amino-methane - V _max maximal reaction velocity - V _T transepithelial potential - K half maximal blocker concentration     

Characteristics of ouabain binding to isolated trout hepatocytes

Summary Na⁺, K⁺ exchanges were studied in isolated hepatocytes of the rainbow trout, Salmo gairdneri. Ouabain at 10^–4 M produced maximal inhibition (95%) of K⁺ uptake and enhanced intracellular Na⁺ accumulation, showing that active fluxes account for a very large proportion of Na⁺ and K⁺ exchanges. Inhibition of the Na–K pump by ouabain was significant at low concentrations (10^–8 M). When external K⁺ concentration was reduced from 7 mM to 0.5 mM, half maximum inhibition (IC₅₀) of K⁺ uptake was obtained at a 22-fold lower concentration of ouabain confirming that ouabain and potassium compete at the same pump site. Time-course analysis of [³H]ouabain binding indicated a two-component kinetics: one component saturable and dependent on K⁺ concentration in the medium, the other linear and independent of external K⁺. The ouabain binding site number, determined by Scatchard plots, remained constant (ca. 2.5·10⁵ per cell) and independent of the external K⁺ concentration (7, 0.5 or 0 mM), while the dissociation constant (K_D) decreased from 4.2 M to 7.3 nM when K⁺ was removed from the Hank's medium. These ouabain binding sites are characterized by an exceptionally low turnover rate (400 min^–1), as estimated from ouabain-sensitive K⁺ flux, in comparison to those described in other cell types of higher vertebrates. At each external K⁺ concentration studied, the inhibition of K⁺ uptake and ouabain binding measured as a function of ouabain concentration indicated a strict correlation between the degree of K pump inhibition and the amount of bound glycoside.