Effect of ouabain upon diuretic-sensitive K+ transport in cultured cells. Evidence for separate modes of operation of the transporter

(1) Unidirectional K+ (86Rb) influx and efflux were measured in subconfluent layers of MDCK renal epithelial cells and HeLa carcinoma cells. (2) In both MDCK and HeLa cells, the furosemide-inhibitable and chloride-dependent component of K+ influx/efflux was stimulated 2-fold by a 30 min incubation in 1 . 10(-3) M ouabain. (3) Measurements of net K+ loss and Na+ gain in ouabain-treated cells at 1 h failed to show any diuretic sensitive component, confirming the exchange character of the diuretic-sensitive fluxes. (4) Prolonged incubations for 2.5 h in ouabain revealed a furosemide- and anion-dependent K+ (Cl-) outward net flux uncoupled from net Na+ movement. Net K+ (Cl-) outward flux was half-maximally inhibited by 2 microM furosemide. (5) After 2.5 h ouabain treatment, the anion and cation dependence of the diuretic-sensitive K+ influx/efflux were essentially unchanged when compared to untreated controls.     

Effect of ouabain upon diuretic-sensitive K+ transport in cultured cells evidence for separate modes of operation of the transporter

(1) Unidirectional K⁺ (⁸⁶Rb) influx and efflux were measured in subconfluent layers of MDCK renal epithelial cells and HeLa carcinoma cells. (2) In both MDCK and HeLa cells, the furosemide-inhibitable and chloride-dependent component of K⁺ influx/efflux was stimulated 2-fold by a 30 min incubation in 1 · 10^?3 M ouabain. (3) Measurements of net K⁺ loss and Na⁺ gain in ouabain-treated cells at 1 h failed to show any diuretic sensitive component, confirming the exchange character of the diuretic-sensitive fluxes. (4) Prolonged incubations for 2.5 h in ouabain revealed a furosemide- and anion-dependent K⁺ (Cl^?) outward net flux uncoupled from net Na⁺ movement. Net K⁺ (Cl^?) outward flux was half-maximally inhibited by 2 μM furosemide. (5) After 2.5 h ouabain treatment, the anion and cation dependence of the diuretic-sensitive K⁺ influx/efflux were essentially unchanged when compared to untreated controls.     

Cellular responses elicited by insulin mimickers in cells lacking detectable plasma membrane insulin receptors

Madin-Darby canine kidney (MDCK) cells were previously shown to have few or no plasma membrane insulin binding sites (Hofmann et al: J Biol Chem 258:11774, 1983]. Accordingly, neither insulin-stimulated incorporation of [14C]glucose into glycogen, nor insulin-induced uptake of radiolabeled alpha-aminoisobutyrate ([3H]AIB) could be demonstrated. To probe for receptors, MDCK cultures were surface-labeled with Na125I or were labeled with [35S]methionine. When solubilized cells were immunoprecipitated with sera containing antibodies to the insulin receptor, and immunoprecipitates were analyzed on SDS-gel electrophoresis, no evidence for insulin receptor components was found. Also, when intact MDCK cells wee incubated first with serum containing antibodies to the insulin receptor and then with 125I-protein A, no radiolabeling of insulin receptors occurred. Various agents reported to have insulin-like activity were tested on MDCK cells. The insulinomimetic lectins concanavalin A and wheat germ agglutinin as well as hydrogen peroxide enhanced incorporation of [14C]glucose into glycogen and induced stimulated [3H]AIB uptake, whereas trypsin, vanadate, and serum containing antibodies to the insulin receptor were without effects. Altogether, these results showed that MDCK cells had few or no insulin receptors and were correspondingly insulin-insensitive. However, since insulin-associated responses could be elicited by some insulin mimickers, the post-receptor limb of response in MDCK cells was apparently intact.     

Characteristics and energy requirements of an alpha-aminoisobutyric acid transport system in Streptococcus lactis.

Galactose-grown cells of Streptococcus lactis ML3 acculated alpha-aminoisobutyric acid (AIB) by using energy derived from glycolysis and arginine catabolism. The transport system displayed low-affinity Michaelis-Menten saturation kinetics. Using galactose or arginine as energy sources, similar V max and K m values for AIB entry were obtained, but on prolonged incubation the intracellular steady-state concentration of AIB in cells metabolizing arginine was only 65 to 70% that attained by glycolyzing cells. Efflux of AIB FROM PRELOADED CElls was temperature dependent and exhibited the characteristics of a first-order reaction. The rate of AIB exit was accelerated two- to threefold in the presence of metabolizable energy sources. Metabolic inhibitors including p-chloromercuribenzoate, dinitrophenol, azide, arsentate, and N, N'-dicyclohexylcarbodiimide either prevented or greatly reduced AIB uptake. Fluoride, iodoacetate and N-ethylmaleimide abolished galactose-dependent, but not arginine-energized, AIB uptake. K+ and Rb+ reduced the steady-state intracellular AIB concentration by approximately 40%, and these cations also induced rapid efflux of solute from actively transporting cells. Equivalent concentrations (10 mM) of Na+, Li+, or NH4+ were much less inhibitory. The proton-conducting ionophores tetrachlorosalicylanilide and carbonylcyanide m-chlorophenlyhydrazone abolished uptake and induced AIB efflux even though glycolysis and arginine catabolism continued at 60 and 140%, respectively, of control rates. A proton motive force is most likely involved in the active transport of AIB, whereas data from efflux studies suggest that energy is coupled to AIB exit in cells of S. lactis ML3.     

Characteristics of alpha-aminoisobutyric acid transport in rat skeletal muscles.

alpha-Aminoisobutyric acid (AIB) transport into the intracellular compartment of extensor digitorum longus and soleus muscles was measured (in vitro) after allowance for the equilibration of the amino acid in the extracellular space. The latter was determined with three markers, [14C]inulin, 60Co-EDTA and [3H]mannitol. Net transport of AIB was subsequently divided into its two components, i.e. influx and efflux. Rates of influx were measured as the intracellular accumulation of [14C]AIB after a short incubation (5 min), and efflux was measured as the release of AIB with time (up to maximum of 50 min) from muscles that had previously been preloaded with AIB. This intracellular efflux was resolved into two phases, which probably represent two separate components of exit. The influence of extracellular Na+ on the transport of this neutral amino acid (representing the A system) was investigated. Na+ depletion resulted in lower accumulations of AIB, the effects becoming more pronounced with progressive depletions of external Na+. These changes arose from an inhibition of AIB influx, concomitant with an enhancement of its efflux. In contrast, all components of tyrosine transport (representing the L system) were unaffected by lowering external Na+ concentrations. The net accumulation of AIB was also suppressed by cortisol. This inhibitory effect was, however, Na+-dependent and resulted solely from the steroid's enhancement of AIB efflux, the hormone being without effect on AIB influx.     

Functional and molecular characteristics of system L in human breast cancer cells

The functional and molecular properties of system L in human mammary cancer cells (MDA-MB-231 and MCF-7) have been examined. All transport experiments were conducted under Na(+)-free conditions. alpha-Aminoisobutyric acid (AIB) uptake by MDA-MB-231 and MCF-7 cells was almost abolished by BCH (2-amino-2-norbornane-carboxylic acid). AIB uptake by MDA-MB-231 cells was also inhibited by L-alanine (83.6%), L-lysine (75.6%) but not by L-proline. Similarly, L-lysine and L-alanine, respectively, reduced AIB influx into MCF-7 cells by 45.3% and 63.7%. The K(m) of AIB uptake into MDA-MB-231 and MCF-7 cells was, respectively, 1.6 and 8.8 mM, whereas the V(max) was, respectively, 9.7 and 110.0 nmol/mg protein/10 min. AIB efflux from MDA-MB-231 and MCF-7 cells was trans-stimulated by BCH, L-glutamine, L-alanine, L-leucine, L-lysine and AIB (all at 2 mM). In contrast, L-glutamate, L-proline, L-arginine and MeAIB had no effect. The interaction between L-lysine and AIB efflux was one of low affinity. The fractional release of AIB from MDA-MB-231 cells was trans-accelerated by D-leucine and D-tryptophan but not by D-alanine. MDA-MB-231 and MCF-7 cells expressed LAT1 and CD98 mRNA. MCF-7 cells also expressed LAT2 mRNA. The results suggest that AIB transport in mammary cancer cells under Na(+)-free conditions is predominantly via system L which acts as an exchange mechanism. The differences in the kinetics of AIB transport between MDA-MB-231 and MCF-7 cells may be due to the differential expression of LAT2.     

Uptake and translocation of 2-aminoisobutyric acid bySchizophyllum commune

The nonnative amino acid, 2-aminoisobutyric acid (AIB), is transported into homokaryotic mycelia ofSchizophyllum commune. However, because it is neither incorporated into protein nor further metabolized by the fungal cells, it may be used as a marker for the free amino acid pool. Colonies grown or maintained under nitrogen-limiting conditions show enhanced uptake and higher concentrations of AIB in the mycelium than controls. Based on growth inhibition and uptake kinetic experiments, the enhanced uptake appears to be the result of decreased competition for a common uptake channel withl-asparagine normally found in the medium. Colonies containing radiolabeled AIB show translocation of the label to growing hyphal apices when they are transferred to unlabeled nitrogen-deficient media. Chases on nitrogen-rich media do not result in translocation of the label. In contrast to colonies chased on nitrogen-rich media, nitrogen deprivation does not lead to release of significant amounts of AIB into the medium by older cells. This supports an intramycelial pathway for translocation of pool amino acids.     

Polarized nature of taurine transport in LLC-PK1 and MDCK cells: Further characterization of divergent transport models

Summary Taurine transport was measured in cultured epithelial cells-LLC-PK1 and MDCK-grown on permeable membrane supports. Taurine transport by LLC-PK1 cells was greater on the apical surface compared to the basolateral surface. MDCK cells exhibited greater taurine uptake from the basolateral side. Transepithelial taurine flux was in the direction of apical to basolateral in the LLC-PK1 monolayers. There was no net transepithelial movement of taurine in the MDCK monolayers. Efflux of taurine from the apical and the basolateral membrane surfaces of LLC-PK1 cell monolayers was stimulated by external-alanine but not L-alanine. Efflux of taurine from MDCK cell monolayers was stimulated by-alanine on the basolateral surface. While the competitive inhibitor guainidinoeithane sulfonate (GES) competitively inhibited taurine uptake to a similar degree on the apical and basolateral surface of LLC-PK1 cell monolayers, GES had a more potent inhibitory effect on the basolateral taurine uptake in MDCK cells when compared to its inhibition of apical taurine transport. We conclude that there are characteristic differences in transport of taurine by apical and basolateral surfaces of LLC-PK1 and MDCK cells which may be the consequence of asymmetric distribution or unique structural properties of the taurine transporter.Supported by a grant from the National Institutes of Health (DK 37223), the American Heart Association (92-004470).     

Effects of organic amines on α-aminoisobutyric acid uptake into the vacuole and on ethylene production by tomato pericarp slices

Experiments were conducted to test the possibility that organic amines inhibit ethylene production by inhibiting transport of the ethylene precursor, 1-aminocyclopro-pane-1-carboxylic acid (ACC), into the vacuole. α-Aminoisobutyric acid (αAIB) was used as a model substrate to study ACC uptake into the vacuole in relationship to ethylene production in pericarp slices of Lycopersicon esculentum Mill. cv. Liberty treated with and without organic amines and related substances. Organic amines (polyamines and other basic amines) inhibited αAIB uptake into the vacuole. These amines also enhanced ACC accumulation in the tissue and reduced the passive efflux of αAIB from the vacuole. Overall, ethylene production was inhibited. The inhibition of αAIB transport and of ethylene production followed a polyvalent cationic progression in the order polyamines > diamines> basic 1-amino acids. Ca²⁺, but not Mg²⁺, strongly stimulated αAIB uptake into the vacuole and ethylene production. At equal concentrations, Ca²⁺ counteracted the inhibitory effects of polyamines on both αAIB uptake and ethylene production. Competitive and irreversible inhibitors of polyamine biosynthesis stimulated αAIB uptake into the vacuole and ethylene production. The results indicate an apparent relationship between polyamines, ACC uptake into the vacuole and ethylene production.     

A reassessment of decreased amino acid accumulation by ehrlich ascites tumor cells in the presence of metabolic inhibitors

This study was undertaken to examine the mechanism by which metabolic inhibition reduces amino acid active transport in ehrlich ascites tumor cells. At 37 degrees C the metabolic inhibitor combination 0.1 mM 2,4-dinitrophenol (DNP) + 10 mM 2- deoxy-D-glucose (DOG) reduced the cell ATP concentration to 0.10- 0.15 mM in less than 5 min. This inhibition was associated with a 20.6 percent +/- 6.4 percent (SD) decrease in the initial influx of α-aminoisobutyric acid (AIB), and a two- to fourfold increase in the unidirectional efflux. These effects could be dissociated from changes in cell Na(+) or K(+) concentrations. Cells incubated to the steady state in 1.0-1.5 mM AIB showed an increased steady-state flux in the presence of DNP + DOG. Steady- state fluxes were consistent with trans-inhibition of AIB influx and trans-stimulation of efflux in control cells, but trans- stimulation of both fluxes in inhibited cells. In spite of the reduction of the cell ATP concentration to less than 0.15 mM and greatly reduced transmembrane concentration gradients of Na(+) and K(+), cells incubated to the steady state in the presence of the inhibitors still established an AIB distribution ration 13.8 +/- 2.6. The results are interpreted to indicate that a component of the reduction of AIB transport produced by metabolic inhibition is attributable to other actions in addition to the reduction of cation concentration gradients. Reduction of cell ATP alone is not responsible for the effects of metabolic inhibition, and both the transmembrane voltage and direct coupling to substrate oxidation via plasma-membrane-bound enzymes must be considered as possible energy sources for amino acid active transport.     

Mastoparan increases membrane bound phosphatidylinositol kinase and phosphatidylinositol 4-monophosphate kinase activities in Madin-Darby canine kidney cells

Synthetic wasp venom Mastoparan induced an increase of [3H] inositol phosphates levels and a corresponding decrease of [3H]inositol phospholipids levels in Madin-Darby canine kidney (MDCK) cells. The effect was dose (5-100 micrograms/ml) and time (1 to 15 min) dependent. Mastoparan also enhanced the endogenous activity of phosphatidylinositol kinase and phosphatidylinositol 4-monophosphate kinase. The effect was dose (25-75 micrograms/ml) and time dependent (1 to 15 min).     

Neutral Amino Acid Transport in Astrocytes: Characterization of Na+-Dependent and Na+-Independent Components of α-Aminoisobutyric Acid Uptake

Neutral amino acid transport is largely unexplored in astrocytes, although a role for these cells in blood-brain barrier function is suggested by their close apposition to cerebrovascular endothelium. This study examined the uptake into mouse astrocyte cultures of alpha-aminoisobutyric acid (AIB), a synthetic model substrate for Na+-dependent system A transport. Na+-dependent uptake of AIB was characteristic of system A in its pH sensitivity, kinetic properties, regulatory control, and pattern of analog inhibition. The rate of system A transport declined markedly with increasing age of the astrocyte cultures. There was an unexpectedly active Na+-independent component of AIB uptake that declined less markedly than system A transport as culture age increased. Although the saturability of the Na+-independent component and its pattern of analog inhibition were consistent with system L transport, the following properties deviated: (1) virtually complete inhibition of Na+-independent AIB uptake by characteristic L system substrates, suggesting unusually high affinity of the transporter; (2) apparent absence of trans-stimulation of AIB influx; (3) unusually concentrative uptake at steady state (the estimated distribution ratio for 0.2 mM AIB was 55); and (4) susceptibility to inhibition by N-ethylmaleimide. Direct study of the uptake of system L substrates in astrocytes is needed to confirm the present indications of high affinity and concentrative Na+-independent transport.     

Characterization of low potassium-resistant mutants of the Madin-Darby canine kidney cell line with defects in NaCl/KCl symport

Three independent mutants of the Madin-Darby canine kidney cell line (MDCK) have been isolated which were capable of growth in media containing low concentrations of potassium. All three mutants were deficient to varying extents in furosemide- and bumetanide-sensitive 22Na+, 86+b+, and 36Cl- uptake. The two mutants most resistant to low K+ media had lost essentially all of the 22Na+, 86Rb+, and 36Cl- uptake activities of this system. The third mutant was partially resistant to low K+ media and had reduced levels of bumetanide-sensitive uptake for all three ions. Extrapolated initial uptake rates for 22Na+, 86Rb+, and 36Cl- revealed that the partial mutant exhibited approximately 50% of the parental uptake rates for all three ions. The stoichiometries of bumetanide-sensitive uptake in both the parental cell line and the partial mutant approximated 1 Rb+:1 Na+:2 Cl-. The results of this study provide genetic evidence for a single tightly-coupled NaCl/KCl symporter in MDCK cells. The correlation between the ability to grow in low K+ media and decreased activity of the bumetanide-sensitive co-transport system suggests that the bumetanide-sensitive transport system catalyzes net K+ efflux from cells in low K+ media. The results of 86Rb+ efflux studies conducted on ouabain-pretreated mutant and parental cells are consistent with this interpretation. Cell volume measurements made on cells at different densities in media containing normal K+ concentrations showed that none of the mutants differed significantly in volume from the parental strain at a similar cell density. Furthermore, all three mutants were able to readjust their volume after suspension in hypotonic media. These results suggest that in the MDCK cell line, the bumetanide-sensitive NaCl/KCl symport system does not function in the regulation of cell volume under the conditions employed.     

Efflux of bis-carboxyethyl-carboxyfluorescein (BCECF) by a novel ATP-dependent transport mechanism in epithelial cells

The efflux of the intracellular pH fluorochrome 2',7'-bis(2-carboxyethyl)-5(6)-carboxyfluorescein (BCECF) was quantified in four cultured epithelial cell lines; HCT-8, T84, HGT-1 and MDCK. BCECF efflux was time-dependent, and after 5 h 45-91% of the initial BCECF loaded was extracellular, efflux being greatest in MDCK cells. Depletion of cellular ATP approximately halved BCECF efflux. BCECF efflux was inhibited by indomethacin, vinblastine and verapamil, but not by nifedipine or reserpine. Certain features of BCECF efflux resemble drug efflux in multidrug resistant cells, but inhibition of efflux displays a distinct pharmacological profile suggesting BCECF is a substrate for a novel ATP-dependent transport system.     

Energy-dependent efflux of cadmium coded by a plasmid resistance determinant in Staphylococcus aureus.

Resistance of Staphylococcus aureus strain 17810R to Cd2+ appears to be due to a plasmid-coded Cd2+ efflux system. Complete efflux of Cd2+ after transfer of preloaded cells into Cd2+-free medium occurred in the resistant strain 17810R, but not in the plasmidless derivative strain 17810S. Net efflux was blocked by 2,4-dinitrophenol, N,N,-dicyclohexylcarbodiimide (DCCD), and incubation at 4 degrees C. The inhibition of Cd2+ efflux by DCCD paralleled a stimulation of net uptake in the resistant cells by this agent. Cd2+ efflux by the resistant strain was accompanied by a reversal of inhibition of respiration, whereas in the sensitive strain, inhibition of respiration was not reversed after transfer to Cd2+-free medium. Net Cd2+ uptake by strain 17810R was inhibited by p-chloromercuribenzoate. In Cd2+ contrast, Cd2+ uptake by the plasmidless strain 17810S was affected neither by p-chloromercuribenzoate nor by DCCD when added alone, but was blocked by a combination of these two agents. Valinomycin had no effect on the reduced Cd2+ uptake by the resistant strain, whereas nigericin stimulated uptake to values comparable to those of the untreated sensitive cells. With sensitive cells, valinomycin reduced Cd2+ uptake by about 50%, whereas nigericin was without effect. A possible mechanism of Cd2+ movements in both strains is discussed.     

Scavenger receptor class B type I reduces cholesterol absorption in cultured enterocyte CaCo-2 cells

Scavenger receptor class B type I (SR-BI) mediates selective uptake of cholesteryl esters from HDL as well as efflux of cellular free cholesterol to HDL. It is unclear whether the receptor is involved in intestinal cholesterol absorption. We addressed this issue by studying [3H]cholesterol flux in differentiated CaCo-2 cells incubated at their apical side with mixed taurocholate/phosphatidylcholine/cholesterol micelles. Biotinylation and HDL binding experiments showed predominant apical expression of endogenous and overexpressed SR-BI. Mixed micellar cholesterol saturation affected the magnitude and direction of cholesterol flux with significant net uptake only from supersaturated micelles and net efflux from unsaturated micelles. Incubation with micelles that depleted cellular cholesterol resulted in a decrease of SR-BI protein, whereas incubation with cholesterol-loading micelles resulted in a significant increase of SR-BI protein. Apical cholesterol uptake by CaCo-2 cells was increased in the presence of a SR-BI-blocking antibody and by partial inhibition of SR-BI expression with small inhibitory RNA. Adenovirus-mediated overexpression of apical SR-BI did not affect cholesterol uptake but stimulated apical cholesterol efflux, even to supersaturated mixed micelles. Partial inhibition of SR-BI with small inhibitory RNA reduced apical cholesterol efflux. Our data argue against a direct role for SR-BI in micellar cholesterol uptake. However, SR-BI might be involved in cholesterol absorption by facilitating cholesterol efflux to micelles.     

Effects of multiplication stimulating activity (MSA) on AIB transport into myoblast and myotube cultures

The effects of a somatomedian analog, Temin's multiplication stimulating activity (MSA), on amino acid transport into muscle cells have been characterized in a series of experiments on myoblasts and myotubes in culture. Addition of MSA to serum-starved L6 myoblasts increased the rate of aminoisobutyrate (AIB) uptake 50-150% within five hours. This early effect on transport was followed by increases in cell number, protein content and 3H-thymidine incorporation. Kinetic analyses indicated that MSA increased the maximal velocity of AIB uptake but had no effect on the KM for AIB. When myoblasts were allowed to fuse (and dividing cells eliminated by addition of 10(-4) M cytosine arabinoside) the AIB transport system(s) remained similarly responsive to MSA. In myoblasts and in myotubes, both the basal and MSA-stimulated rate of AIB uptake were sodium-dependent processes; little stimrulation occurred if sodium was absent from the labeling medium. Further suggesting the involvement of cations in response to hormone, MSA stimulated uptake of the potassium analog, 86Rb+, and increase net intracellular potassium in both myoblasts and myotubes. MSA was active at concentrations equivalent to in vivo levels of somatomedins; neither insulin nor growth hormone had any effect at or near physiological concentrations.     

Effects of Substance P on Carbachol-Stimulated 45Ca2+ Uptake into Cultured Adrenal Chromaffin Cells

Substance P is known to modulate acetylcholine-induced catecholamine release from adrenal chromaffin cells. To investigate the mechanisms involved in this modulation, the present study examined the effects of substance P on net 45Ca2+ fluxes in cultures of bovine adrenal chromaffin cells. Two effects of substance P were observed: (1) Substance P inhibited carbachol-induced 45Ca2+ uptake and 45Ca2+ efflux and (2) substance P protected against desensitization of carbachol-induced 45Ca2+ uptake and 45Ca2+ efflux. Thus substance P modulates two other cholinergic responses, 45Ca2+ uptake and 45Ca2+ efflux, in a manner similar to its modulation of catecholamine release. The results also indicate that substance P's inhibition of net carbachol-induced 45Ca2+ uptake is due to inhibition of 45Ca2+ uptake rather than enhancement of 45Ca2+ efflux. Substance P almost completely inhibited carbachol-induced 45Ca2+ uptake in both Na+-containing and Na+-free media, suggesting that substance P can inhibit the uptake of 45Ca2+ induced by carbachol regardless of whether 45Ca2+ is taken up through voltage-sensitive or acetylcholine receptor-linked channels. However, substance P produced only a small inhibition of K+-induced 45Ca2+ uptake, indicating that substance P does not interact directly with voltage-sensitive Ca2+ channels. In addition, substance P's inhibition of carbachol-induced 45Ca2+ uptake was noncompetitive with respect to Ca2+, were unable to overcome substance P's inhibition of [3H]-norepinephrine ( [3H]NE) release. It is concluded that substance P does not interact directly with Ca2+ channels in bovine adrenal chromaffin cells.     

Solute-binding protein-dependent ABC transporters are responsible for solute efflux in addition to solute uptake

The ATP-binding cassette (ABC) transporter superfamily is one of the most widespread of all gene families and currently has in excess of 1100 members in organisms ranging from the Archaea to manQ1. The movement of the diverse solutes of ABC transporters has been accepted as being strictly unidirectional, with recent models indicating that they are irreversible. However, contrary to this paradigm, we show that three solute-binding protein-dependent (SBP) ABC transporters of amino acids, i.e. the general amino acid permease (Aap) and the branched-chain amino acid permease (Bra) of Rhizobium leguminosarum and the histidine permease (His) of Salmonella typhimurium, are bidirectional, being responsible for efflux in addition to the uptake of solutes. The net solute movement measured for an ABC transporter depends on the rates of uptake and efflux, which are independent; a plateau is reached when both are saturated. SBP ABC transporters promote active uptake because, although the Vmax values for uptake and efflux are not significantly different, there is a 103-104 higher affinity for uptake of solute compared with efflux. Therefore, the SBP ABC transporters are able to support a substantial concentration gradient and provide a net uptake of solutes into bacterial cells.     

K+ transport in 'tight' epithelial monolayers of MDCK cells. Evidence for a calcium-activated K+ channel

Measurements of 86Rb efflux across the apical and basal-lateral aspects of intact monolayers of 'high-resistance' MDCK cells mounted in Ussing chambers have been made. A transient increase in 86Rb efflux across both epithelial borders upon stimulation with adrenalineeeeeee or ionophore A23187 is observed. The increased 86Rb across the basal cell aspects is of greatest quantitative importance. Measurements of total cellular K+ contents by flame photometry of tissue extracts indicate a net loss of K+ following adrenalin addition. The effects of adrenalin and ionophore A23187 upon 86Rb efflux are abolished in 'Ca2+ -free' media. The properties of the Ca2+ -dependent increase in 86Rb efflux show similarities to Ca2+ -activated K+ conductances in other tissues, notably human red cells, including inhibition by quinine (1 mM), tetraethylammonium (25 mM) and insensitivity to bee venom toxin (apamin) (25 nM). Adrenalin is only effective when applied to the basal bathing solution suggesting that the receptors mediating adrenalin action are located upon the basal-lateral membranes. Half maximal stimulation of 86Rb efflux by adrenalin is observed at 9.1 X 10(-7) M. The action of various adrenergic receptor agonists and antagonists are consistent with adrenalin action being mediated by an alpha-adrenergic receptor.