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1.
We have investigated the interaction of VIP and secretin with two human lung carcinoma cell lines in cultures, SW-900 and Calu-1. 125I-labeled VIP binds to and is inactivated by SW-900 and Calu-1 cells in a time- and temperature-dependent manner. The rates of binding and of inactivation were higher at 30°C than at 15°C. At equilibrium, native VIP competitively inhibited the binding of 125I-VIP in the 10?10?10?7M range, half-maximal inhibition being observed at 1.2 nM in SW-900 cells and at 1.1 nM VIP in Calu-1 cells. Scatchard analysis indicated two classes of binding sites with similar characteristics in both cell lines. SW-900 cells have 27 600 sites with a high affinity () and 1062 000 sites with a low affinity (). Calu-1 cells have 36 300 sites with a high affinity () and 1148 000 sites with a low affinity (). Secretin inhibited tracer binding but with a 5000 times lower potency than native VIP in both cell lines. 相似文献
2.
The binding characteristics of the β-adrenergic antagonist, [3H]dihydroalprenolol, to hamster white adipocyte membranes were studied. This binding occurred at two classes of sites, one having high affinity () but low capacity ( membrane protein) and one having low affinity but high binding capacity. While the binding at the high-affinity sites was competitively and stereoselectively displaced by both β-antagonists and β-agonists, competition at the low-affinity sites occurred only with β-antagonists and was non-stereoselective. Thus, the β-agonist (?)-isoproterenol was further used to define nonspecific binding. Under these conditions, saturation studies showed a single class of high-affinity () binding sites with a binding capacity of membrane protein (corresponding to sites per cell), and independent kinetic analysis provided a value of 1.9 nM. Competition experiments showed that these binding sites had the characteristics of a subtype, yielding values in good agreement with the and the values found for agonist-stimulation and for antagonist-inhibition of adenylate cyclase in membranes and of cyclic AMP accumulation and lipolysis in intact cells. Furthermore, the ability of β-agonists to compete with this binding was severely depressed by p[NH]ppG. These results thus support the contention that the specific [3H]dihydroalprenolol binding sites defined as the binding displaceable by (?)-isoproterenol represent the physiologically relevant β-adrenergic receptors of hamster white adipocytes. Finally, studies of the lipolytic response of these cells to (?)-norepinephrine showed that the inhibitory effect of the of this catecholamine was apparent only when the effects of endogenous adenosine were suppressed, a result which argues against an important regulatory role for the in the adrenergic control of lipolysis in hamster white adipocytes. 相似文献
3.
Saxitoxin binding to sodium channels in head extracts from wild-type and tetrodotoxin-sensitive strains of Drosophila melanogaster 总被引:1,自引:0,他引:1
Extracts prepared from heads of Drosophila melanogaster show high-affinity binding (KD = 1.9 nM) of [3H]saxitonin, a compound known to bind to and block voltage-sensitive sodium channels in other organisms. The interaction between saxitoxin and the Drosophila saxitoxin receptor is non-cooperative and reversible with a half-life of 18.3 s for binding at 4 degrees C. The saturable binding is specifically inhibited by tetrodotoxin with a K1 = 0.30 nM. The number of saturable binding sites in the extract is 97 fmol/mg protein. Since approx. 50% of the binding activity is recovered in the extract, the number of binding sites in the head is estimated to be 6.4 fmol/mg head. Nerve conduction in Drosophila larvae is completely blocked after 20 min in a bathing solution containing 200 nM tetrodotoxin. A comparison between the binding and the electrophysiological studies in Drosophila and other organisms suggests that the Drosophila saxitoxin receptor is part of the voltage-sensitive sodium channel involved in the propagation of action potentials. A mutant (ttxs), which is abnormally sensitive to dietary tetrodotoxin, is shown to be indistinguishable from wild type with respect to [3H]saxitonin-binding properties and physiological sensitivity to tetrodotoxin. These studies provide techniques which can be used to identify mutants with defects in the saxitoxin-binding component of the sodium channel. 相似文献
4.
Chemically tritiated tetrodotoxin: physiological activity and binding to Na-channels 总被引:1,自引:0,他引:1
Hans H. Grünhagen Michael Rack Robert Stämpfli Hugo Fasold Peter Reiter 《Archives of biochemistry and biophysics》1981,206(1):198-204
A new method is used to tritiate tetrodotoxin:starting with tetrodotoxin, acetylanhydrotetrodotoxin is formed which is then reacted in to [3H]tetrodotoxin. The formation of the intermediate and of the tritiated product is analytically monitored by bioassay. After purification [3H]tetrodotoxin is obtained at a specific activity of 18 Ci/mmol. No back exchange of tritium was observed under physiological conditions. The binding of [3H]tetrodotoxin to voltage-sensitive Na channels was studied with membrane fragments from Electrophorus electricus electric organ. Binding studies were carried out by variation of the concentration of [3H]tetrodotoxin and by competition between [3H]tetrodotoxin and reference tetrodotoxin. The apparent dissociation constant for binding to Na channels in these membrane fragments is KD = (20 ± 10) nM. In contrast, [3H]tetrodotoxin blocks Na current in Rana esculenta nodes with an apparent KD = 3 nM. The difference may be due to a higher density of negative surface charges at the nodal regions. 相似文献
5.
The binding of the crustacean selective protein neurotoxin, toxin B-IV, from the nemertine Cerebratulus lacteus to lobster axonal vesicles has been studied. A highly radioactive, pharmacologically active derivative of toxin B-IV has been prepared by reaction with Bolton-Hunter reagent. Saturation binding and competition of 125I-labeled toxin B-IV by native toxin B-IV have shown specific binding of 125I-labeled toxin B-IV to a single class of binding sites with a dissociation constant of 5–20 nM and a binding site capacity, corrected for vesicle sidedness, of 6–9 pmol per mg membrane protein. This compares to a value of 3.8 pmol [3H]saxitoxin bound per mg in the same tissue. Analysis of the kinetics of toxin B-IV association () and dissociation () shows a nearly identical of about 3 nM. There is no competition of toxin B-IV binding by purified toxin from Leiurus quinquestriatus venom while Centruroides sculpturatus Ewing toxin I appears to cause a small enhancement of toxin B-IV binding. 相似文献
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7.
Phosphate uptake by yeast at pH 7.2 is mediated by two mechanisms, one of which has a of 30 μM and is independent of sodium, and a sodium-dependent mechanism with a of 0.6 μM, both values with respect to monovalent phosphate. The sodium-dependent mechanism has two sites with affinity for Na+, with affinity constants of 0.04 and 29 mM. Also lithium enhances phosphate uptake; the affinity constants for lithium are 0.3 and 36 mM. Other alkali ions do not stimulate phosphate uptake at pH 7.2. Rubidium has no effect on the stimulation of phosphate uptake by sodium.Phosphate and arsenate enhance sodium uptake at pH 7.2. The of this stimulation with regard to monovalent orthophosphate is about equal to that of the sodium-dependent phosphate uptake.The properties of the cation binding sites of the phosphate uptake mechanism and those of the phosphate-dependent cation transport mechanism have been compared. The existence of a separate sodium-phosphate cotransport system is proposed. 相似文献
8.
Flufenamate, a non-steroidal anti-inflammatory drug, is a powerful inhibitor of anion transport in the human erythrocyte (). The concentration dependence of the binding to ghosts reveals two saturable components. [14C]Flufenamate binds with high affinity () to 8.5·105 sites per cell (the same value as the number of band 3 protein per cell); it also binds, with lower affinity () to a second set of sites (4.6·107 per cell). Pretreatment of cells with 4-acetamido-4′-isothiocyanostilbene-2,2′-disulfonic acid (SITS), a specific inhibitor of anion transport, prevents [14C]flufenamate binding only to high affinity sites. These results suggest that high affinity sites are located on the band 3 protein involved in anion transport. Extracellular chymotrypsin and pronase at low concentration cleave the 95 kDa band 3 into 60 kDa and 35 kDa fragments without affecting either anion transport or [14C]flufenamate binding. Splitting by trypsin at the inner membrane surface of the 60 kDa chymotryptic fragment into 17 kDa transmembrane fragment and 40 kDa water-soluble fragment does not affect [14C]flufenamate binding. In contrast degradation at the outer membrane surface of the 35 kDa fragment by high concentration of pronase or papain decreases both anion transport capacity and number of high affinity binding sites for [14C]flufenamate. Thus it appears that 35 kDa peptide is necessary for both anion transport and binding of the inhibitors and that the binding site is located in the membrane-associated domain of the band 3 protein. 相似文献
9.
The transport of [14C]Gly-Pro was examined using a mutant of Salmonella typhimurium (strain TN87) deficient in an X-Pro dipeptidase and an X-Pro-Y iminopeptidase. The dipeptide was taken up by one saturable transport system having a of and a of 1.4 nmol/mg dry wt cell per min. The uptake of Gly-Pro was not inhibited by amino acids or tripeptides and the transport system exhibited a rather broad side chain specificity for dipeptides. Dipeptides containing hydrophobic residues were the most potent inhibitors of this dipeptide transport system exhibiting values between 10?8 and 10?7 M. In contrast, dipeptides containing glycine residues were particularly weak inhibitors. Finally, Gly-Pro was found to be in the intact form inside the cell and was concentrated more than 1000-fold. 相似文献
10.
The effects of d-glucose addition to a glucose-free luminal perfusate were investigated in the proximal tubule of Necturus kidney, by electrophysiological techniques. The main findings are: (1) In the presence of sodium, d-glucose produces (S.E.) depolarization. (2) Phlorizin reduces the magnitude of this response to . (3) The glucose-evoked depolarization, , does not alter the intracellular K+ activity nor is it affected by peritubular addition of ouabain. (4) Isosmotic reduction of Na+ concentration in luminal perfusate from 95 to 2 mmol/l (choline or Li+ substituting for Na+) does not change the magnitude of ; complete removal of sodium from the lumen lowers the value of () but the response is not abolished. This observation suggests that the d-glucose carrier of renal tubules in Necturus is poorly specific with regard to the cotransported cation species. 相似文献
11.
The transport of sucrose by selected mutant and wild-type cells of Streptococcus mutans was studied using washed cocci harvested at appropriate phases of growth, incubated in the presence of fluoride and appropriately labelled substrates. The rapid sucrose uptake observed cannot be ascribed to possible extracellular formation of hexoses from sucrose and their subsequent transport, formation of intracellular glycogen-like polysaccharide, or binding of sucrose or extracellular glucans to the cocci. Rather, there are at least three discrete transport systems for sucrose, two of which are phosphotransferases with relatively low apparent values and the other a non-phosphotransferase (non-PTS) third transport system (termed TTS) with a relatively high apparent . For strain 6715-13 mutant 33, the values are 6.25·10?5 M, 2.4·10?4 M, and 3.0·10?3 M, respectively; for strain NCTC-10449, the values are 7.1·10?5 M, 2.5·10?4 M and 3.3·10?3 M, respectively. The two lower systems could not be demonstrated in mid-log phase glucose-adapted cocci, a condition known to repress sucrose-specific phosphotransferase activity, but under these conditions the highest system persists. Also, a mutant devoid of sucrose-specific phosphotransferase activity fails to evidence the two high affinity (low apparent ) systems, but still has the lowest affinity (highest ) system. There was essentially no uptake at 4°C indicating these processes are energy dependent. The third transport system, whose nature is unknown, appears to function under conditions of sucrose abundance and rapid growth which are known to repress sucrose-specific phosphotransferase activity in S. mutans. These multiple transport systems seem well-adapted to S. mutans which is faced with fluctuating supplies of sucrose in its natural habitat on the surfaces of teeth. 相似文献
12.
Maximum levels of binding of α-bungarotoxin to foetal human brain membranes were found to remain essentially constant at 30–50 fmol/mg protein (1.1–1.5 pmol/g wet weight in whole brain) between gestational ages of 10 and 24 weeks. Equilibrium binding of α-bungarotoxin to both membranes and to detergent extracts showed saturable specific binding to a single class of sites with Kd (app) values of 3.5 × 10?9 M and 2.4 × 10?9 M respectively. Association rate constants, determined from time courses of binding of α-bungarotoxin to membranes and detergent extracts, were 2.3 × 105 M?1 sec?1 and 2.6 × 105 M?1 sec?1 respectively. Dissociation of α-bungarotoxin from both membrane and detergent extracts showed a rapid initial rate with approx 15 min which, in the case of the detergent extract, was followed by a slower dissociation accounting for the remaining 20% of the bound ligand. Competition studies with a number of cholinergic ligands indicated that the α-bungarotoxin-binding sites in foetal brain display a predominantly nicotinic profile. 相似文献
13.
(1) Na+ currents and Na+-current fluctuations were measured in myelinated frog nerve fibres at 15°C during 7.7 ms depolarizations to . (2) The conductance γ of a single Na+ channel and the number of channels per node were calculated from ensemble average values of the mean Na+ current and the variance of Na+-current fluctuations. (3) For a hyperpolarizing holding potential of the mean values of the channel conductance and number were and . (4) After changing the holding potential to the resting potential () the conductance γ increased by a factor of 1.37 whereas the number decreased by a factor of 0.60. (5) Addition of 8 nM tetrodotoxin at a holding potential of increased γ by a factor of 1.55 and reduced by a factor of 0.25. (6) The increase of the channel conductance at reduced channel numbers suggests negative cooperativity between Na+ channels in the nodal membrane. 相似文献
14.
Hepatocytes prepared by collagenase perfusion from Antarctic nototheniid fish of genus Trematomus are active in uptake of [14C]leucine at 0, 5, and 10°C. The system is saturable with apparent about 1.0 mM. Isoleucine and phenylalanine were major competitors, valine was about one-half as effective, while alanine, glycine and histidine had no effect. Temperature dependency of rates in the 0–10°C range yielded (). The average first-order rate constant at 0°C was 0.1 min?1, one-third the value of 0.3 min?1 estimated for clearance of [14C]leucine by liver of these species in vivo. Affinity and specificity agreed well with in vivo data on liver clearance of leucine, both in Antarctic fish at 0°C and in temperate fish acclimated to 10°C and 20°C. The results indicate similar modifications of leucine transport associated with evolutionary cold adaptation and seasonal acclimation in fish. 相似文献
15.
(1) A quantitative study has been made of the binding of ouabain to the ( in homogenates prepared from brain tissue of the hawk moth, Manduca sexta. The results have been compared to those obtained in bovine brain microsomes. (2) The insect brain ( will bind ouabain either in the presence of Mg2+ and Pi, (‘Mg2+, Pi’ conditions) or in the presence of Na+, Mg2+, and an adenine nucleotide (‘nucleotide’ conditions) as is the case for the bovine brain (. The binding conditions did not alter the total number of receptor sites measured at high ouabain concentrations in either tissue. (3) Potassium ion decreases the affinity (increases the ) of ouabain to the M. sexta brain ( under both binding conditions. However, ouabain binding is more sensitive to K+ inhibition under the nucleotide conditions. In bovine brain ouabain binding is equally sensitive to K+ inhibition under the both conditions. (4) The enzyme-ouabain complex has a rate of dissociation that is 10-fold faster in the M. sexta preparation than in the bovine brain preparation. Because of this, the M. sexta ( has a higher for ouabain binding and is less sensitive to inhibition by ouabain than the bovine brain enzyme. (5) This data supports the hypothesis that two different conformational states of the M. sexta ( can bind ouabain. 相似文献
16.
Chewn Lang Ho R.Glenn Hammonds Choh Hao Li 《Biochemical and biophysical research communications》1983,111(3):1096-1104
Specific binding of human β-endorphin to rabbit cerebellar and brain membranes was measured using as the primary ligand. In both tissues binding was time dependent and saturable, with apparent equilibrium dissociation constants of 0.275 nM and 0.449 nM in the cerebellum and brain, respectively. The binding capacity of cerebellum is greater than that of brain. Kinetic studies showed that the association rate constants were 2.7 × 107 M?1min?1 for cerebellum and 2.4 × 107 M?1min?1 for brain. Dissociation of tritiated βh-endorphin from both cerebellum and brain is not consistent with a first order decay from a single site. In the cerebellum, these is a time-dependent increase in slowly dissociating complex. The potency of several opioid peptides and opiates to inhibit the binding of tritiated βh-endorphin was determined. Ligands with preference for μ, δ, and κ opiate receptor (morphine, Metenkephalin and ethylketocyclazocine) all have similar affinities toward βh-endorphin sites in both brain and cerebellar membranes. 相似文献
17.
W.McD. Armstrong W.R. Bixenman K.F. Frey J.F. Garcia-Diaz M.G. ORegan Jeanie L. Owens 《生物化学与生物物理学报:生物膜》1979,551(1):207-219
Na+, K+ and Cl? concentrations () and activities (), and mucosal membrane potentials () were measured in epithelial cells of isolated bullfrog (Rana catesbeiana) small intestine. Segments of intestine were stripped of their external muscle layers, and bathed (at 25°C and pH 7.2) in oxygenated Ringer solutions containing 105 mM Na+ and Cl? and 5.4 mM K+. Na+ and K+ concentrations were determined by atomic absorption spectrometry and Cl? concentrations by conductometric titration following extraction of the dried tissue with 0.1 M HNO3. 14C-labelled inulin was used to determine extracellular volume. was measured with conventional open tip microelectrodes, with solid-state Cl?-selective silver microelectrodes and and with Na+- and K+-selective liquid ion-exchanger microelectrodes. The average recorded was ?34 mV. , and were 51, 105 and 52 mM. The corresponding values for , and were 18, 80 and 33 mM. These results suggest that a large fraction of the cytoplasmic Na+ is ‘bound’ or sequestered in an osmotically inactive form, that all, or virtually all the cytoplasmic K+ behaves as if in free solution, and that there is probably some binding of cytoplasmic Cl?. significantly exceeds the level corresponding to electrochemical equilibrium across the mucosal and baso-lateral cell membranes. Earlier studies showed that coupled mucosal entry of Na+ and Cl? is implicated in intracellular Cl? accumulation in this tissue. This study permitted estimation of the steady-state transapical Na+ and Cl? electrochemical potential differences (Δμ̄Na and Δμ̄Cl). Δμ̄Na (?7000 J · mol?1; cell minus mucosal medium) was energetically more than sufficient to account for Δμ̄Cl (1000–2000 J · mol?1). 相似文献
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19.
Zoltán Spolarics Jozsef Mandl Raymund Machovich Patrick Lambin Tamás Garzó Ferenc Antoni István Horváth 《Biochimica et Biophysica Acta (BBA)/Molecular Cell Research》1985,845(3):389-395
125I-labelled complexed with thrombin or plasmin bound to hepatocytes in a concentration-and time-dependent manner. The apparent values calculated from displacement experiments were 7.9 · 10?8 M for and 8.5 · 10?8 M for . Association of these complexes was only partially reversible; after a 180 min incubation period, 50–60% of the bound radioactivity was internalized by the cells. itself bound also to hepatocytes, but the affinity of the complexes was higher than that of the inhibitor alone, and was not internalized, either. 125I-labelled thrombin or plasmin bound to hepatocytes as well. These bindings were also concentration-dependent and could be decreased with an excess of unlabelled ligands. Binding rates and amounts of the bound proteinases were higher than those of their complexes. The complex competed with the complex in binding to hepatocytes, whereas there was no competition between these complexes and the antithrombin III-thrombin complex. These results suggest that the binding sites of hepatocytes for and antithrombin III-proteinase complexes are different. 相似文献