Effects of thyromimetric drugs on aldosterone-dependent sodium transport in the toad bladder

Summary Aldosterone increases transepithelial Na⁺ transport in the urinary bladder ofBufo marinus. The response is characterized by 3 distinct phases: 1) a lag period of about 60 min, ii) an initial phase (early response) of about 2 hr during which Na⁺ transport increases rapidly and transepithelial electrical resistance falls, and iii) a late phase (late response) of about 4 to 6 hr during which Na⁺ transport still increases significantly but with very little change in resistance. Triiodothyronine (T₃, 6nm) added either 2 or 18 hr before aldosterone selectively antagonizes the late response. T₃ per se (up to 6nm) has no effect on base-line Na⁺ transport. The antagonist activity of T₃ is only apparent after a latent period of about 6 to 8 hr. It is not rapidly reversible after a 4-hr washout of the hormone. The effects appear to be selective for thyromimetic drugs since reverse T₃ (rT₃) is inactive and isopropyldiiodothyronine (isoT₂) is more active than T₃. The relative activity of these analogs corresponds to their relative affinity for T₃ nuclear binding sites which we have previously described. Our data suggest that T₃ might control the expression of aldosterone by regulating gene expression, e.g. by the induction of specific proteins, which in turn will inhibit the late mineralocorticoid response, without interaction with the early response.     

Specific binding sites for corticosterone in isolated cells and plasma membrane from rat liver

Summary The specific binding of [³H]corticosterone to hepatocytes is a nonsaturable, reversible and temperature-dependent process. The binding to liver purified plasma membrane fraction is also specific, reversible and temperature dependent but it is saturable. Two types of independent and equivalent binding sites have been determined from hepatocytes. One of them has high affinity and low binding capacity (K _D=8.8nm andB _max=1477 fmol/mg protein) and the other one has low affinity and high binding capacity (K _D=91nm andB _max=9015 fmol/mg). In plasma membrane only one type of binding site has been characterized (K _D=11.2nm andB _max=1982 fmol/mg). As it can be deduced from displacement data obtained in hepatocytes and plasma membrane the high affinity binding sites are different from the glucocorticoid, progesterone nuclear receptors and the Na⁺,K⁺-ATPase digitalis receptor. Probably it is of the same nature that the one determinate for [³H]cortisol and [³H]corticosterone in mouse liver plasma membrane. Beta-and alpha-adrenergic antagonists as propranolol and phentolamine did not affect [³H]corticosterone binding to hepatocytes and plasma membranes; therefore, these binding sites are independent of adrenergic receptors. The binding sites in hepatocytes and plasma membranes are not exclusive for corticosterone but other steroids are also bound with very different affinities.     

Collagen receptors mediate early events in the attachment of epithelial (MDCK) cells

Summary Madin-Darby canine kidney (MDCK) cells kept in suspension culture for 12–15 hr displayed high-affinity binding sites for¹²⁵I-lathyritic (soluble) collagen (120,000/cell,K _D =30nm) and preferred collagens types I and IV over laminin or fibronectin as substrates during the first hour of attachment. On the other hand, after 4 hr, attachment to all four substrates was equally efficient. Upon challenge with a collagen substrate, the high-affinity sites were rapidly recruited on it (T1/2=6 min). Their occupancy by soluble collagen triggered the exocytosis of a second large population of low-affinity collagen binding sites that included laminin and seems to be involved in a second cell-attachment mechanism. These results are compatible with a twostep model of MDCK cell attachment to the substrate: first, via high-affinity collagen binding sites, and second, via laminin of cellular origin.     

Two substrate sites in the renal Na+-d-glucose cotransporter studied by model analysis of phlorizin binding and-d-glucose transport measurements

Summary Time courses of phlorizin binding to the outside of membrane vesicles from porcine renal outer cortex and outer medulla were measured and the obtained families of binding curves were fitted to different binding models. To fit the experimental data a model with two binding sites was required. Optimal fits were obtained if a ratio of low and high affinity phlorizin binding sites of 1:1 was assumed. Na⁺ increased the affinity of both binding sites. By an inside-negative membrane potential the affinity of the high affinity binding site (measured in the presence of 3 mM Na⁺) and of the low affinity binding site (measured in the presence of 3 or 90 mM Na⁺) was increased. Optimal fits were obtained when the rate constants of dissociation were not changed by the membrane potential. In the presence of 90 mM Na⁺ on both membrane sides and with a clamped membrane potential,K _D values of 0.4 and 7.9 M were calculated for the low and high affinity phlorizin binding sites which were observed in outer cortex and in outer medulla. Apparent low and high affinity transport sites were detected by measuring the substrate dependence ofd-glucose uptake in membrane vesicles from outer cortex and outer medulla which is stimulated by an initial gradient of 90 mM Na⁺(out>in). Low and high affinity transport could be fitted with identicalK _m values in outer cortex and outer medulla. An inside-negative membrane potential decreased the apparentK _m ofhigh affinity transport whereas the apparentK _m of low affinity transport was not changed. The data show that in outer cortex and outer medulla of pighigh and low affinity Na⁺-d-glucose cotransporters are present which containlow and high affinity phlorizin binding sites, respectively. It has to be elucidated from future experiments whether equal amounts of low and high affinity transporters are expressed in both kidney regions or whether the low and high affinity transporter are parts of the same glucose transport moleculc.     

Thyroid hormone antagonizes an aldosterone-induced protein: A candidate mediator for the late mineralocorticoid response

Summary In the urinary bladder of the toadBufo marinus, the basal rate of synthesis of a number of proteins was modulated in a bidirectional way (i.e., induced or repressed) by aldosterone and by triiodothyronine (T₃). Each hormone was therefore characterized by a distinct domain of response. When both hormones were added simultaneously, the two domains consistently overlapped at least for one protein, termed AIP-1, or aldosterone-induced protein 1 (M _r65 kilodaltons,p _i=6.7, as analyzed by two-dimension gel electrophoresis). The physiological role of AIP-1 is unknown, but could be related to the late mineralocorticoid response. In five experiments, T₃ (60nm, 18-hr incubation) consistently repressed AIP-1, while aldosterone-dependent sodium transport (late response) was significantly inhibited, as previously described. The repression of AIP-1 was also observed as early as 6 hr after aldosterone addition. In addition, sodium butyrate (3mm), which was previously shown to also selectively inhibit the late mineralocorticoid response, was also able to repress AIP-1. Our results suggest that AIP-1, is one of the proteins involved in the mediation of the late mineralocorticoid response.     

Progesterone-induced down-regulation of an electrogenic Na+, K+-ATPase during the first meiotic division in amphibian oocytes

Summary Progesterone initiates the resumption of the meiotic divisions in the amphibian oocyte. Depolarization of theRana pipiens oocyte plasma membrane begins 6–10 hr after exposure to progesterone (1–2 hr before nuclear breakdown). The oocyte cytoplasm becomes essentially isopotential with the medium by the end of the first meiotic division (20–22 hr). Voltage-clamp studies indicate that the depolarization coincides with the disappearance of an electrogenic Na⁺, K⁺-pump, and other electrophysiological studies indicate a decrease in both K⁺ and Cl^– conductances of the oocyte plasma membrane. Measurement of [³H]-ouabain binding to the plasma-vitelline membrane complex indicates that there are high-affinity (K _d-4.2×10^–8 m), K⁺-sensitive ouabain-binding sites on the unstimulated (prophase-arrest) oocyte and that ouabain binding virtually disappears during membrane depolarization. [³H]-Leucine incorporation into the plasma-vitelline membrane complex increased ninefold during depolarization with no significant change in uptake or incorporation into cytoplasmic proteins or acid soluble pool(s). This together with previous findings suggests that progesterone acts at a translational level to produce a cytoplasmic factor(s) that down-regulates the membrane Na⁺, K⁺-ATPase and alters the ion permeability and transport properties of both nuclear and plasma membranes.     

Evidence for the presence of specific binding sites for corticoids in mouse liver plasma membranes

Summary The specific binding of [³H]cortisol to plasma membranes purified from mouse liver, studied by the ultrafiltration method, shows the existence of specific binding sites for cortisol. The kinetic parameters of this binding areK _D=4.4nm andB _max=685 fmol/mg protein in presence of 1 m of corticosterone. With respect to the binding of 4nm [³H]cortisol to the membrane, the affinities of the steroids decreased in the following order: deoxycorticosterone>corticosterone>progesterone>cortisol >prednisolone>testosterone>20-hydroxyprogesterone >cortisone. Estradiol, dexamethasone, ouabain and triamcinolone acetonide do not have affinity for this binding site. Neither Ca²⁺ nor Mg²⁺ affected the binding of [³H]cortisol to the plasma membranes. Likewise, the presence of agonists and antagonists of alpha and beta-adrenergic receptors did not modify the binding of [³H]cortisol. The results suggest that the plasma membrane binding site characterized is more specific for corticoids and is different from nuclear glucocorticoid and progesterone receptors.     

Thyroid hormone: Aldosterone antagonism in cultured epithelial cells

Thyroid hormone (T₃) has been demonstrated to inhibit the action of aldosterone on sodium transport in toad urinary bladder and rat kidney. We have exammined the effect of T₃ on aldosterone action and specific nuclear binding in cultured epithelial cells derived from toad urinary bladder. In cell line TB6-C, addition of 5·10⁻⁸ M T₃ to culture media for up to 3 days results in no change in short-circuit current or transepithelial resistance. This concentration of T₃ completely inhibits the maximal increase in short-circuit current in response to 1·10⁻⁷ M aldosterone. The inhibition can be demonstrated with 18 h preincubation or with simultaneous addition of T₃ and aldosterone. The half-maximal concentration for the inhibition of the aldosterone effect is approx. 5·10⁻⁹ M T₃. T₃ has no effect on cyclic AMP-stimulated short-circuit current in these cells. The effect of T₃ on nuclear binding of [³H]aldosterone was examined using a filtration assay with data analysis by at least-squares curve-fitting program. Best fit was obtained with a model for two binding sites. The dissociation constants for the binding were K′_d1 = (0.82 ± 0.36)·10⁻¹⁰ M and K′_d2 = (3.2±0.60)·10⁻⁸ M.The half-maximal concentration for aldosterone-stimulated sodium transport in these cells is approx. 1·10⁻⁸ M. Analysis of nuclear aldosterone binding in cells preincubated for 18 h with 5·10⁻⁸ M T₃ showed a K′_d1 = (0.15 ± 0.10)·10⁻¹⁰ M and K′_d2 = (3.5 ± 0.10)·10⁻⁸ M. We conclude that T₃ i action of aldosterone on sodium transport at a site after receptor binding in the nucleus.     

Sodiumd-glucose cotransport in the gill of marine mussels: Studies with intact tissue and brush-border membrane vesicles

Summary Glucose transport was studied in marine mussels of the genusMytilus. Initial observations, with intact animals and isolated gills, indicated that net uptake of glucose occurred in mussels by a carrier-mediated, Na⁺-sensitive process. Subsequent studies included use of brush-border membrane vesicles (BBMV) in order to characterize this transport in greater detail. The highest activity of Na⁺-dependent glucose transport was found in the brush-border membrane fractions used in this study, while basal-lateral membrane fractions contained the highest specific binding of ouabain. Glucose uptake into BBMV showed specificity for Na⁺, and concentrative glucose transport was observed in the presence of an inwardly directed Na⁺ gradient. There was a single saturable pathway for glucose uptake, with an apparentK _t of 3 m in BBMV and 9 m in intact gills. The kinetics of Na⁺ activation of glucose uptake were sigmoidal, with apparent Hill coefficients of 1.5 in BBMV and 1.2 in isolated gills, indicating that more than one Na⁺ may be involved in the transport of each glucose. Harmaline inhibited glucose transport in mussel BBMV with aK _i of 44 m. The uptake of glucose was electrogenic and stimulated by an inside-negative membrane potential. The substrate specificity in intact gills and BBMV resembled that of Na⁺-glucose cotransporters in other systems;d-glucose and -methyl glucopyranoside were the most effective inhibitors of Na⁺-glucose transport,d-galactose was intermediate in its inhibition, and there was little or no effect ofl-glucose,d-fructose, 2-deoxy-glucose, or 3-O-methyl glucose. Phlorizin was an effective inhibitor of Na⁺-glucose uptake, with an apparentK _i of 154nm in BBMV and 21nm in intact gills. While the qualitative characteristics of glucose transport in the mussel gill were similar to those in other epithelia, the quantitative characteristics of this process reflect adaptation to the seawater environment of this animal.     

Thyroid hormone receptors and stimulation of angiotensinogen production in HepG2 cells

Summary Binding characteristics and effects of 3,5,-3′-triiodo-l-thyronine (T₃) on angiotensinogen production in HepG₂ were studied in serum-free medium. Binding was performed on intact cells and on partially purified isolated nuclei using [¹²⁵I]T₃. Scatchard plots revealed one class of high affinity binding sites with a K_d of approximately 80 pmol/liter. Calculation of maximum binding showed that HepG₂ possess approximately 1000 binding sites per cell. Unlabeled T₃ and T₄ competed for binding sites on intact HepG₂ with 50% inhibition of [¹²⁵I]T₃ binding at approximately 3.0 and 38.0 pmol/liter, respectively. The HepG₂ showed a dose-dependent increase in angiotensinogen production in serum-free medium which was maximal at 10⁻⁵ mol/liter (two-fold increase/10⁶ cells/24 h) and had an EC₅₀ of approximately 5.0×10⁻⁸ mol/liter. T₃ also produced after 24 h a dose-dependent increase in DNA highly correlated with T₃ applied (r=0.88,P<0.01). In conclusion, this study shows that HepG₂ possess specific high affinity binding sites for T₃ and that T₃ stimulates angiotensinogen production and DNA synthesis in these cells. Dr. Darby is supported by INSERM (France)/NH and MRC (Australia) exchange fellowship.     

Studies on lithium transport across the red cell membrane

Summary Binding of³H-saxitoxin to Na⁺ channels was studied in subcellular fractions prepared from rat brain homogenates. Saxitoxin binding to synaptosomes was saturable with an apparent dissociation constant of about 1nm; about 1 pmol/mg protein was bound at saturating saxitoxin concentrations. A linear, nonsaturable component of saxitoxin binding accounted for less than 3% of the total binding at 30nm. Saxitoxin binding to synaptosomes was unaffected by depolarization with elevated K⁺ concentrations, or by activation of the Na⁺ channels with batrachotoxin plus a purified polypeptide toxin from the scorpionLeiurus quinquestriatus. A procedure is described for preparing a membrane fraction that contains 70–80% of the total saxitoxin binding activity of the crude homogenate. The specific activity of this fraction was about 4 to 6 pmol/mg protein. About 60–70% of the saxitoxin binding sites were solubilized by incubating these membranes with the nonionic detergent Triton X-100; the detergent-solubilized binding sites eluted at a position corresponding to a mol wt of about 700,000 on gel filtration chromatography. Both membrane-bound and solubilized saxitoxin binding were assayed by a new cation exchange column method. The binding of saxitoxin to both membrane-bound and detergent-solubilized binding sites was saturable with an apparent dissociation constant of about 2nm. Dissociation of the saxitoxin-receptor complex followed a single exponential decay with a rate constant at 0° of 0.1 min^–1 for membrane bound and 0.2 min^–1 for detergent-solubilized binding sites. The measured association rate constant was 6×10⁸ m ^–1 min^–1 at 0° for membrane-bound saxitoxin binding sites.     

Differential effects of metal ligands on synaptic membrane glutamate binding and uptake systems

The high affinity, Na⁺-independentl-[³H]glutamate binding process in synaptic membranes and in the purified binding protein was shown to be inhibited to an almost equal extent by the metal ligands NaN₃, KCN, ando-phenanthroline, and by 2,4,5-trihydroxyphenylalanine (6-OH DOPA). The high affinity, Na⁺-dependent glutamate transport activity in these membranes was almost totally insensitive to NaN₃,o-phenanthroline, KCN, and 6-OH DOPA. These agents, especially 6-OH DOPA, may be useful tools in achieving a discrimination between putative physiologic receptors and uptake carrier sites forl-glutamate in synaptic membranes. The sensitivity of the glutamate binding sites to the effects of the metal ligands may be correlated to the presence of an iron-sulfur center in the purified glutamate binding protein. Some of the characteristics of this metallic center were explored by optical and paramagnetic resonance spectroscopic techniques and are described in this study.This research was supported by grants DAAG29-79-C-0156 from the Army Research Office and AA 04732 from NIAAA.     

Sulfhydryl groups regulate thyroid hormone binding at nuclear receptor sites: further evidence for a separate binding site for reverse T3

Pig and rat liver nuclei possess specific, high affinity, low capacity binding sites for 3,3′,5′-triiodothyronine (reverse T₃) distinct from known 3,5,3′-triiodothyronine (T₃) binding sites. Sulfhydryl (SH) stabilishing and oxidising agents have profound and opposite, but not equal, effects upon in vitro binding of reverse T₃ and T₃. In the absence of SH stabilising agents T₃ and reverse T₃ bind with similar affinity (Ka 0.83 × 10⁹ v.s. 0.57 × 10⁹ M^?1). SH stabilising agents produce a small increase in the binding affinity of T₃ and a profound decrease in the binding affinity of reverse T₃. Chromatography of nuclear protein preincubated with both radioligands revealed two separate peaks of protein bound radioactivity consistent with two nuclear binding sites. These data suggest that SH groups may regulate binding of T₃ and reverse T₃ to nuclear receptors, and provide a mechanism for biological action of reverse T₃.     

Na,K-ATPase and the development of Na+ transport in rat distal colon

Summary Na, K-ATPase function was studied in order to evaluate the mechanism of increased colonic Na⁺ transport during early postnatal development. The maximum Na⁺-pumping activity that was represented by the equivalent short-circuit current after addition of nystatin (I _sc ^N ) did not change during postnatal life or after adrenalectomy performed in 16-day-old rats.I _sc ^N was entirely inhibited by ouabain; the inhibitory constant was 0.1mm in 10-day-old (young) and 0.4mm in 90-day-old (adult) rats. The affinity of the Na, K pump for Na⁺ was higher in young (11mm) than in adult animals (19mm). The Na, K-ATPase activity (measured after unmasking of latent activity by treatment with sodium dodecylsulfate) increased during development and was also not influenced by adrenalectomy of 16-day-old rats. The inhibitory constant for ouabain (K _I ) was not changed during development (0.1–0.3mm). Specific [³H]ouabain binding to isolated colonocytes increased during development (19 and 82 pmol/mg protein), the dissociation constant (K _D ) was 8 and 21 m in young and adult rats, respectively. The Na⁺ turnover rate per single Na, K pump, which was calculated fromI _sc ^N and estimated density of binding sites per cm² of tissue was 500 in adult and 6400 Na⁺/min·site in young rats. These data indicate that the very high Na⁺ transport during early postnatal life reflects an elevated turnover rate and increased affinity for Na⁺ of a single isoform of the Na, K pump. The development of Na⁺ extrusion across the basolateral membrane is not directly regulated by corticosteroids.     

Mediated uptake of folate by a high-affinity binding protein in sublines of L1210 cells adapted to nanomolar concentrations of folate

Summary An L1210 cell line (JT-1), which can grow in medium supplemented with 1nm folate, has been isolated. These cells exhibit a slower growth rate than folate-replete parental cells and have a lower ability to transport folate or methotrexate via the reduced folate transport system. Measurements at nanomolar concentrations of folate revealed that the adapted cells have acquired a high-affinity folate-binding protein. Binding to this component at 37°C was rapid and reached a maximum value after 30 min which corresponded in amount to 0.23±0.3 pmol/mg protein, and excess unlabeled folate added 30 min subsequent to the [³H]folate led to a rapid release of the bound substrate. Radioactivity bound to or released from the cells after 30 min at 37°C remained as unmetabolized folic acid. Binding was also rapid at 0°C but uptake at the plateau was only one-half the value obtained at 37°C. Half-maximal saturation of the binding component (K _D) occurred at a folate concentration of 0.065nm at pH 7.4, while the affinity for folate decreased 30-fold when the pH was reduced to 6.2 (K _D=2.0nm). 5-Methyltetrahydrofolate was also bound by this component (K _i=13nm at pH 7.4) but with a much lower affinity than for folate, while progressively weaker interactions were observed with 5-formyltetrahydrofolate (K _i=45nm) and methotrexate (K _i=325nm). When the same adaptation procedure was performed with limiting amounts of 5-formyltetrahydrofolate, two additional cell lines, JT-2 and JT-3, were isolated which expressed elevated levels of the folate-binding protein. The binding activity of the latter cells was 0.46 and 1.4 pmol/mg protein, respectively. When the level of binding protein was compared in cells grown at different concentrations of folate, an increase in medium folate from 1 to 500nm caused a sevenfold reduction in binding activity in the JT-3 cell line, while these same growth conditions had no effect on binding by the other cells. These results indicate that L1210 cells adapted to low concentrations of folate or 5-formyltetrahydrofolate contain elevated levels of a high-affinity binding protein and that this protein is able to mediate the intracellular accumulation of folate compounds. L1210 cells thus appear to have two potential uptake routes for folate compounds, the previously characterized anion-exchange system and a second route mediated by a high-affinity binding protein. An additional low-affinity, high-capacity transport system for folate that had been proposed previously was not observed under a variety of experimental conditions in either the adapted or parental cells.     

Transport and membrane binding of the glutamine analogue 6-diazo-5-oxo-L-norleucine (DON) in Xenopus laevis oocytes

Summary We have examined transport and membrane binding of 6-diazo-5-oxo-l-norleucine (DON, a photoactive diazo-analogue of glutamine) and their relationships to glutamine transport in Xenopus laevis oocytes. DON uptake was stereospecific and saturable (V _max of 0.44 pmol/oocyte · min and a K _m of 0.065 mm). DON uptake was largely Na^u+ dependent (80% at 50 m DON) and inhibited (>75%) by glutamine and arginine (substrates of the System B^0,+ transporter) at 1 mm. Glutamine and DON show mutual competitive inhibition of Na⁺-dependent transport. Preincubation of oocytes in medium containing 0.1 mm DON for 24 or 48 hr depressed the V _max for System B^0,+ transport (as measured by Na⁺-dependent glutamine uptake), this effect was highly specific (neither d-DON nor the System B^0,+ substrates glutamine and d-alanine showed any independent effect) and required Na⁺ ions. Glutamine (1 mm in preincubation medium) protected transport from inhibition by DON. The possibility that specific inactivation of System B^0,+ by DON reflects attachment of DON to the transporter was tested by examining the binding of [¹⁴C]DON to Xenopus oocyte membranes. Oocytes incubated in 100 mm NaCl in the presence of [¹⁴C]DON for up to 48 hr showed 2.4-fold higher ¹⁴C-binding to membranes than oocytes incubated in choline chloride. Na⁺-dependent DON binding (31 ± 11 fmol/g membrane protein) was suppressed by external glutamine, arginine or alanine and was largely confined to a membrane protein fraction of 48–65 kDa (as assessed by SDS-polyacrylamide gel electrophoresis). The present studies indicate that DON and glutamine uptake in oocytes are both mediated by System B^0,+ and demonstrate that DON binding to a particular membrane protein fraction is associated with inactivation of the transporter, offering the prospect of using [¹⁴C]DON as a covalent label for the transport protein in order to facilitate its isolation and subsequent biochemical characterization.This work was supported by The Wellcome Trust, Action Research for the Crippled Child, Ajinomoto GmbH, Pfrimmer GmbH, the Rank Prize Funds, the Medical Research Council and the University of Dundee. We are grateful to Dr. C.I. Pogson (Wellcome Research Laboratories) and Drs. J.C. Ellory and B. Elford (University of Oxford) for gifts of [¹⁴C]DON.     

Lanthanide/proline cotransport across rabbit renal brush borders

Summary It has been suggested previously that La³⁺ can replace Na⁺ on various cotransport systems in renal brush border membranes. In the present study, we used rabbit renal brush border membrane vesicles to examine the specificity and kinetics of Ln³⁺/proline cotransport. Experiments were carried out under zero-trans, voltage clamped conditions using a rapid-mix/filtration technique. Initial experiments confirmed that La³⁺ produced the classical overshoot phenomenon. The initial rates of proline uptake relative to Na⁺ were Eu³⁺, Tb³⁺, Nd³⁺, Pr³⁺, Ho³⁺ (3.3)>Na⁺ (1.0)>La³⁺ (0.86) > choline⁺ (0.1). At a saturating salt concentration, uptake saturated with increasing proline concentration: theK _t andJ _max were 0.05mm and 17 pmol mg^–1 sec^–1 in Na⁺; and 0.28mm and 73 pmol mg^–1 sec^–1 in Tb³⁺. The higherJ _max in Tb³⁺ indicates that the Tb³⁺-proline loaded carrier is more effective than the Na⁺-proline loaded carrier in overcoming some rate-limiting barriers in the transport process. Na⁺ activated proline uptake with a Hill coefficient of 1.6 and aK _0.5 of 21mm, while Tb³⁺ activated with a Hill coefficient of 0.88 and aK _0.5 of 28mm. The Hill coefficient for Na⁺ suggests two binding sites, whereas the Hill coefficient for Tb³⁺ may indicate negative cooperativity between the trivalent ligands at the binding sites. We conclude that lanthanides are able to substitute for Na⁺ on the brush border proline carrier and that the lanthanides may serve as useful probes for the ligand binding sites.     

Nuclear benzodiazepine binding: Possible interaction with thyroid hormone receptors

The biochemical and pharmacological properties of nuclear [³H]flunitrazepam in brain tissues were studied. Nuclear [³Hflunitrazepam binding is saturable for both central and peripheral binding sites. Inosine and hypoxanthine displace nuclear [³H]flunitrazepam binding with greater potency than the membrane [³H]flunitrazepam binding. Triiodothyronine (T₃) increases the maximum number of binding sites (B_max) of nuclear [³H]flunitrazepam binding in vitro while thyroxine (T₄) does not have any effect. Diazepam reduces the affinity of nuclear¹²⁵I-T₃ binding in vitro, while the B_max is not affected significantly. Mild digestion of chromatin, using micrococcal nuclease, reveals that a major portion of nuclear [³H]flunitrazepam binding sites are located on chromatin. These data suggest a functional role for nuclear benzodiazepine binding and a possible modulatory effect of benzodiazepines on T₃ binding with its nuclear receptors.     

Concanavalin A interactions with asparagine-linked glycopeptides. The mechanisms of binding of oligomannose,bisected hybrid,and complex type carbohydrates

The affinity of concanavalin A (Con A) for simple saccharides has been known for over 50 years. However, the specificity of binding of Con A with cell-surface related carbohydrates has only recently been examined in detail. Brewer and coworkers [J Biol Chem (1986) 261:7306–10; J Biol Chem (1987) 262:1288–93; J Biol Chem (1987) 262:1294–99] have recently studied the binding interactions of a series of oligomannose and bisected hybrid type glycopeptides and complex type glycopeptides and oligosaccharides with Con A. The relative affinities of the carbohydrates were determined using hemagglutination inhibition measurements, and their modes of binding to the lectin examined by nuclear magnetic relaxation dispersion (NMRD) spectroscopy and quantitative precipitation analyses. The equivalence zones (regions of maximum precipitation) of the precipitin curves of Con A and the carbohydrates indicate that certain oligomannose and bisected hybrid type glycopeptides are bivalent for lectin binding. From the NMRD and precipitation data, two protein binding sites on each glycopeptide have been identified and characterized. Certain bisected complex type oligosaccharides also bind and precipitate Con A, while the corresponding nonbisected analogs bind but do not precipitate the protein. The precipitation data indicate that the bisected complex type oligosaccharides are also bivalent for lectin binding, while the nonbisected analogs are univalent. The NMRD and precipitation data are consistent with different mechanisms of binding of nonbisected and bisected complex type carbohydrates to Con A, including different conformations of the bound saccharides.Abbreviations Con A Concanavalin A with unspecified metal ion content - CMPL Con A with Mn²⁺ and Ca²⁺ at the S1 and S2 sites respectively, in the locked conformation [12]; trisaccharide1, 3,6-di-O-(-d-mannopyranosyl)-d-mannose - -MDM methyl -d-mannopyranoside - NMRD nuclear magnetic relaxation dispersion, the magnetic field dependence of nuclear magnetic relaxation rates, in the present case, the longitudinal relaxation rate, 1/T₁, of solvent protons     

Ion Selectivity of the Cytoplasmic Binding Sites of the Na,K-ATPase: II. Competition of Various Cations

In the E₁ state of the Na,K-ATPase all cations present in the cytoplasm compete for the ion binding sites. The mutual effects of mono-, di- and trivalent cations were investigated by experiments with the electrochromic fluorescent dye RH421. Three sites with significantly different properties could be identified. The most unspecific binding site is able to bind all cations, independent of their valence and size. The large organic cation Br₂-Titu³⁺ is bound with the highest affinity (<μm), among the tested divalent cations Ca²⁺ binds the strongest, and Na⁺ binds with about the same equilibrium dissociation constant as Mg²⁺ (∼0.8 mm). For alkali ions it exhibits binding affinities following the order of Rb⁺≃ K⁺ > Na⁺ > Cs⁺ > Li⁺. The second type of binding site is specific for monovalent cations, its binding affinity is higher than that of the first type, for Na⁺ ions the equilibrium dissociation constant is < 0.01 mm. Since binding to that site is not electrogenic it has to be close to the cytoplasmic surface. The third site is specific for Na⁺, no other ions were found to bind, the binding is electrogenic and the equilibrium dissociation constant is 0.2 mm. Received: 7 August 2000/Revised: 14 November 2000