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1.
The cytoplasmic leucyl-tRNA synthetases were purified from a wild-type Neurospora crassa and from a temperature-sensitive leucine-auxotroph (leu-5) mutant. A detailed steady-state kinetic study of the aminoacylation of the tRNALeu from N. crassa by the purified synthetases was carried out. These enzymes need preincubation with dithioerythritol and spermine before the assay in order to become fully active. The Kappm value for leucine was lowered by high ATP concentrations and correspondingly the Kappm,ATP was lowered by high leucine concentrations. The Kappm,Leu was lowered by high pH, a pK value of 6.7 (at 30 degrees C) was calculated for the ionizable group affecting the Km. At the concentrations of 2 mM ATP, 20 microM leucine, 0.3 microM tRNALeu, and pH 7 the apparent Km values were Kappm,ATP = 1.3 mM, Kappm,Leu = 49 microM and Kappm,tRNA = 0.15 microM. No essentially altered cytoplasmic leucyl-tRNA synthetase was produced by the temperature-sensitive mutant strain when kept at 37 degrees C. In none of these experiments could we find any difference between the wild-type enzyme and the enzyme from the mutant strain (whether grown at permissive temperature, 28 degrees C, or grown at permissive temperature for 24 h followed by growth at 37 degrees C). We therefore think that the small difference in the Km value for leucine of the wild-type and mutant enzyme, established in some earlier investigations, is not due to a difference in the kinetic properties of the enzyme molecules but to an external influence. The almost total lack of the mitochondrial leucyl-tRNA synthetase in the mutant strain besides the leucine autotrophy remains the only difference between the wild-type and mutant strains.  相似文献   

2.
Poly(ADP-ribosylation) was demonstrated in the intestinal parasite Ascaris suum, especially in the reproductive tissues. The activity of the ADP-ribosyltransferase was found to depend on divalent cations and to be stimulated by deoxyribonuclease I about 5-fold. The reaction rate was optimal at a temperature of 30 degrees C and at pH about 8.4. The apparent Km value for NAD was estimated to be 0.2mM. The enzyme activity was effectively inhibited by nicotinamide (Ki = 65 microM) benzamide (6 microM), 3-aminobenzamide (10 microM), theophylline (35 microM) and thymidine (50 microM). The type of inhibition by these compounds was found to be competitive with respect to NAD.  相似文献   

3.
The kinetics of sodium gradient dependent phosphate uptake by the renal brush border membrane vesicles of the rat have ben studied under various conditions of temperature and pH. From 7 to 30 degrees C the Lineweaver-Burk plots are linear, and the apparent Km progressively increases from 54 to 91 microM. Above 30 degrees C, the apparent Km continues to increase to reach 135 microM at 40 degrees C, but a break is observed in the Lineweaver-Burk plots at the substrate concentration of 300 microM. The existence of this break, confirmed by the Eadie-Hofstee plot supports the hypothesis of a dual mechanism of phosphate transport, one for low concentrations of substrate with a Km of 100 microM and the other for high concentrations with a Km of approximately 240 microM. When the two components of the Eadie-Hofstee plot are analyzed according to a nonlinear regression program, these two values of Km become 70 microM and 1.18 mM, respectively. The Vmax continuously increases with temperature. However, the Arrhenius plot (In Vmax vs. 1/TK) shows an abrupt discontinuity at 23 degrees C. pH experiments were performed at 35 degrees C. In the absence of a proton gradient, increasing the pH from 6.5 to 7.5 and 8.5 decreases the apparent Km from 341 to 167 and 94 microM, respectively. When only the divalent form of phosphate is considered as the substrate, the apparent Km does not vary anymore with the pH and remains around the mean value of 105 microM. The uniformity of the apparent Km for the total phosphate uptake, when only the divalent phosphate is considered as being the substrate, suggests that this divalent form is the only one which is transported. Whatever the substrate considered, total phosphate or divalent phosphate, the highest Vmax is obtained at pH 7.5 which probably approximates the optimum pH inside the vesicles for the phosphate uptake.  相似文献   

4.
Nucleoside transport was examined in freshly isolated mouse intestinal epithelial cells. The uptake of formycin B, the C nucleoside analog of inosine, was concentrative and required extracellular sodium. The initial rate of sodium-dependent formycin B transport was saturable with a Km of 45 +/- 3 microM. The purine nucleosides adenosine, inosine, guanosine, and deoxyadenosine were all good inhibitors of sodium-dependent formycin B transport with 50% inhibition (IC50) observed at concentrations less than 30 microM. Of the pyrimidine nucleosides examined, only uridine (IC50, 41 +/- 9 microM) was a good inhibitor. Thymidine and cytidine were poor inhibitors with IC50 values greater than 300 microM. Direct measurements of [3H]thymidine transport revealed, however, that the uptake of this nucleoside was also mediated by a sodium-dependent mechanism. Thymidine transport was inhibited by low concentrations of cytidine, uridine, adenosine, and deoxyadenosine (IC50 values less than 25 microM), but not by formycin B, inosine, or guanosine (IC50 values greater than 600 microM). These data indicate that there are two sodium-dependent mechanisms for nucleoside transport in mouse intestinal epithelial cells, and that formycin B and thymidine may serve as model substrates to distinguish between these transporters. Neither of these sodium-dependent transport mechanisms was inhibited by nitrobenzylmercaptopurine riboside (10 microM), a potent inhibitor of one of the equilibrative (facilitated diffusion) nucleoside transporters found in many cells.  相似文献   

5.
Applicability of the integrated form of the Michaelis-Menten equation to kinetic analysis of transport ATPases has been shown during continuous pH-metric recording of their activity. Two values of Km for both Na, K-ATPase and Ca-ATPase have been found to be consistent with the reported data. Both values of Km for Na, K-ATPase change with temperature, i. e. at 37 degrees, 26 degrees and 15 degrees C they are as follows: Km1--21, Km2--171; Km1--3.32, Km2--47; and Km1--1,2, Km2--20 microM, respectively. This method of determination of Km and V for transport ATPases compares favourably with the previously used methods in resulting efficiency.  相似文献   

6.
The kinetics of sulfobromophthalein uptake by rat liver sinusoidal vesicles   总被引:3,自引:0,他引:3  
The kinetics of bromo[35S]sulfophthalein (35S-BSP) binding by and uptake across the hepatocyte sinusoidal membrane were investigated using isolated rat liver sinusoidal membrane vesicles containing K+ as the principal internal inorganic cation. Uptake of 35S-BSP into vesicles was found to be temperature dependent, with maximum uptake between 35 and 40 degrees C; only binding occurred at or below 15 degrees C. Uptake at 37 degrees C was saturable and resolvable by Eadee-Hofstee analysis into two components: one with high affinity (Km = 53.1 microM) but low capacity, and the second of low affinity (Km = 1150 microM) but high capacity. By pre- or post-incubation, respectively, with unlabelled BSP, trans-stimulation and counter transport of 35S-BSP could also be demonstrated in these vesicles. Uptake was inhibited competitively using 5 microM Rose bengal and 10 microM indocyanine green, and non-competitively using 10 microM DIDS. Taurocholate did not inhibit uptake, and actually enhanced transport at concentrations greater than or equal to 250 microM. Imposition of inwardly directed inorganic ion gradients resulted in the enhancement of 35S-BSP transport when chloride ions were part of this gradient, irrespective of the cation employed whereas there was no apparent cation effect. However, substitution of 10 mM Na+ for 10 mM K+ as the internal cation resulted in a significant increase in uptake in the presence of external K+ as compared to Na+ gradients. This effect was not observed when 10 mM Tris+ was employed as the internal cation. The kinetics of 35S-BSP uptake by isolated sinusoidal membrane vesicles are indicative of facilitated transport. While the observed inorganic ion effects suggest a possible electrogenic component, the driving forces for hepatic BSP uptake remain uncertain. Isolated sinusoidal membrane vesicles provide a useful technique for studying hepatic uptake processes independent of circulatory or subsequent cellular phenomena.  相似文献   

7.
1. An affinity column for the purification of thymidine kinase (TK) from the cestode Hymenolepis diminuta is described. Using an epoxy-activated Sepharose 6B affinity column containing thymidine as a ligand, a 698-fold purification of thymidine kinase was obtained. 2. Thymidine kinase eluted from this affinity column was partially characterized as having an apparent Km value of 3.94 microM thymidine. This value is very similar to those observed in mammalian systems. 3. Thymidine kinase appears to be an extremely active and ubiquitous enzyme, whose primary function is to rapidly phosphorylate incoming thymidine and thus "trap" it for the cell's use, reducing efflux to a minimum. 4. The apparent Km for TK is two orders of magnitude lower than the Kt for thymidine transport. Thus, theories postulating that long-term (2 min) uptake kinetics for thymidine actually represent subsequent metabolism must look further along the thymidine phosphorylating pathway, beyond TK and its very active role.  相似文献   

8.
Adenosine uptake, transport, and metabolism in human erythrocytes   总被引:2,自引:0,他引:2  
Using rapid kinetic techniques, we have determined the kinetics of zero-trans influx and equilibrium exchange of adenosine, and its uptake and in situ phosphorylation at 25 degrees C in human erythrocytes which were pretreated with 2'-deoxycoformycin to inhibit deamination of adenosine. Both the Km and Vmax for adenosine transport were about 300 times higher than those for the in situ phosphorylation of adenosine (Km about 0.2 microM), so that the first order rate constants for both processes were about the same. In contrast, the first order rate constant for adenosine deamination by untreated, intact cells was about 20% of that of adenosine transport or phosphorylation. These kinetic properties of the various steps, in combination with substrate inhibition of adenosine phosphorylation above 1 microM adenosine, assure that, at extracellular concentrations of physiological relevance (less than 1 microM), adenosine is very rapidly and efficiently salvaged by the erythrocytes and converted to ATP, whereas at extracellular concentrations of 10 microM or higher, practically all adenosine transported into the cells is deaminated. When the concentration of adenosine was 0.1 microM, a 10% (v/v) suspension of erythrocytes depleted the extracellular fluid of adenosine within 1 min of incubation at 25 degrees C.  相似文献   

9.
In isolated rat adipocytes, basal as well as insulin-stimulated 3-O-methylglucose transport was inhibited nearly completely (maximal inhibition: 95%) by the nucleoside transport inhibitors dipyridamole (IC50 = 5 microM), nitrobenzylthioguanosine (20 microM), nitrobenzylthioinosine (35 microM) and papaverine (130 microM). Transport kinetics in the presence of 10 microM dipyridamole revealed a significant increase in the transport Km value of 3-O-methylglucose (3.45 +/- 0.6 vs 2.36 +/- 0.29 mM in the controls) as well as a decrease in the Vmax value (4.84 +/- 0.95 vs 9.03 +/- 1.19 pmol/s per microliter lipid in the controls). Half-maximally inhibiting concentrations of dipyridamole were one order of magnitude higher than those inhibiting nucleoside (thymidine) uptake (0.48 microM). The inhibitory effect of dipyridamole (5 microM) reached its maximum within 30 s. The agent failed to affect insulin's half-maximally stimulating concentration (0.075 nM) indicating that it did not interfere with the mechanism by which insulin stimulates glucose transport. Further, dipyridamole fully suppressed the glucose-inhibitable cytochalasin B binding (IC50 = 1.65 +/- 0.05 microM). The data indicate that nucleoside transport inhibitors reduce glucose transport by a direct interaction with the transporter or a closely related protein. It is suggested that glucose and nucleoside transporters share structural, and possibly functional, features.  相似文献   

10.
The transport of nucleosides by LLC-PK1 cells, a continuous epithelial cell line derived from pig kidney, was characterised. Uridine influx was saturable (apparent Km approximately 34 microM at 22 degrees C) and inhibited by greater than 95% by nitrobenzylthioinosine (NBMPR), dilazep and a variety of purine and pyrimidine nucleosides. In contrast to other cultured animal cells, the NBMPR-sensitive nucleoside transporter in LLC-PK1 cells exhibited both a high affinity for cytidine (apparent Ki approximately 65 microM for influx) and differential 'mobility' of the carrier (the kinetic parameters of equilibrium exchange of formycin B are greater than those for formycin B influx). An additional minor component of sodium-dependent uridine influx in LLC-PK1 cells became detectable when the NBMPR-sensitive nucleoside transporter was blocked by the presence of 10 microM NBMPR. This active transport system was inhibited by adenosine, inosine and guanosine but thymidine and cytidine were without effect, inhibition properties identical to the N1 sodium-dependent nucleoside carrier in bovine renal outer cortical brush-border membrane vesicles (Williams and Jarvis (1991) Biochem. J. 274, 27-33). Late proximal tubule brush-border membrane vesicles of porcine kidney were shown to have a much reduced Na(+)-dependent uridine uptake activity compared to early proximal tubule porcine brush-border membrane vesicles. These results, together with the recent suggestion of the late proximal tubular origin of LLC-PK1 cells, suggest that in vivo nucleoside transport across the late proximal tubule cell may proceed mainly via a facilitated-diffusion process.  相似文献   

11.
4'-Azidothymidine (ADRT) is a novel nucleoside analog, that selectively inhibits human immunodeficiency virus replication in human lymphocytes. Unlike the dideoxyribonucleoside analogs and 3'-azido-2',3'-dideoxythymidine (AZT), ADRT retains the 3'-hydroxy group. The pathways of ADRT metabolism were elucidated by determining: (i) the kinetics of the interactions of ADRT and its metabolites with enzymes of thymidine metabolic pathways, (ii) the pool sizes of phosphorylated metabolites, and (iii) the nature of ADRT incorporation into human DNA. ADRT is not a substrate for thymidine phosphorylase, but is metabolized by kinases. Thymidine kinase phosphorylates ADRT to ADRT monophosphate (ADRT-MP). For this enzyme, ADRT has a Ki value of 5.2 microM, in comparison to a Km value of 0.7 microM for thymidine. The Km value of ADRT toward thymidine kinase is 8.3 microM and the rate of ADRT phosphorylation is 1.4% that of thymidine phosphorylation. ADRT-MP has a low affinity toward thymidylate kinase (a Ki value of 28.9 microM versus a Km value of 0.56 microM for thymidylate), and toward thymidylate synthase (a Ki value of 180 microM versus a Km value of 8 microM for deoxyuridylate). The results suggest that ADRT can be activated effectively by cellular kinases without significant interference of normal thymidine metabolism. In cultured human lymphocytes (A3.01, H9, and U937 cells), ADRT was phosphorylated efficiently to ADRT 5'-triphosphate (ADRT-TP), which is the major metabolite of ADRT. The intracellular concentrations of ADRT-TP ranged from 1 to 3.3 microM after 24 h of incubation with 2 microM of ADRT and the half-life of ADRT-TP varied from 3 to 6 h. Although ADRT-TP is a poor competitive inhibitor against dTTP toward DNA polymerases alpha and beta with Ki values of 62.5 and 150 microM, respectively. ADRT-MP was found to be internally incorporated into cellular DNA. The extent of ADRT-MP substitution for dTMP in DNA was 1 in 6979 for A3.01 cells incubated with 2.9 microM ADRT for 24 h. Internal incorporation of ADRT-MP contrasts with the mechanism of other 2',3'-dideoxynucleoside analogs (i.e. AZT, ddC, ddI, d4T...), which are DNA chain terminators. This finding indicates that a 3'-deoxy structure in a nucleoside analog is not a prerequisite for anti-human immunodeficiency virus activity.  相似文献   

12.
The characteristics of nucleoside transport were examined in Walker 256 rat carcinosarcoma and S49 mouse lymphoma cells. In Walker 256 cells the initial rates of uridine, thymidine and adenosine uptake were insensitive to the nucleoside transport inhibitor nitrobenzylthioinosine (NBMPR) (1 microM), but were partially inhibited by dipyridamole (10 microM), another inhibitor of nucleoside transport. In contrast, the transport of these nucleosides in S49 cells was completely blocked by both inhibitors. Nucleoside transport in Walker 256 and S49 cells also differed in its sensitivity to the thiol reagent p-chloromercuribenzenesulphonate (pCMBS). Uridine transport in Walker 256 cells was inhibited by pCMBS with an IC50 (concentration producing 50% inhibition) of less than 25 microM, and inhibition was readily reversed by beta-mercaptoethanol. In S49 cells uridine transport was only inhibited at much higher concentrations of pCMBS (IC50 approximately equal to 300 microM). In other respects nucleoside transport in Walker 256 and S49 cells were quite similar. The Km and Vmax. values for uridine transport were nearly identical, and the transporters of both cell lines appeared to accept a broad range of nucleosides as substrates. Uridine transport in Walker 256 cells was non-concentrative and did not require an energy source. These studies demonstrate that nucleoside uptake in Walker 256 cells is mediated by a facilitated-diffusion mechanism which differs markedly from that of S49 cells in its sensitivity to the transport inhibitor NBMPR and the thiol reagent pCMBS.  相似文献   

13.
Transport of methionine in sea-urchin sperm by a neutral amino-acid carrier   总被引:1,自引:0,他引:1  
A carrier-mediated transport for L-methionine and other neutral amino acids exists in sperm of the sea urchin Lytechinus pictus. The initial rate of L-methionine entry is a Michaelis-Menten function of the methionine concentration in the external medium. The maximum velocity is low [V = 250 pmol h-1 (10(9) sperm)-1 at 22 degrees C] and the affinity is high (Km = 6-10 microM). The initial rate of transport under steady-state exchange conditions is also a Michaelis-Menten function of the external concentration of methionine. The Km determined by this method is about 14 microM. Neutral amino acids compete with L-methionine transport as shown by initial velocity measurements. These results indicate that L-methionine transport is a carrier-mediated process. The temperature dependence of the process is approximately 84 kJ (20 kcal) mol-1 K-1, which is not compatible with a simple diffusion mechanism, but in the range of values usually found for a mediated transport. The transport is largely Na+-independent and does not depend on Ca2+, K+ or H+ gradients. It is only partially sensitive to KCN, showing it is mainly independent of oxidative phosphorylation. The steady-state internal methionine concentration is not a linear function of the external amino acid concentration. This suggests that an exit by diffusion competes with a carrier-mediated concentrative transport in a cellular compartment. This mediated transport is compared to those of higher animal cells.  相似文献   

14.
Adipose differentiation related protein (ADRP) is a 50-kDa novel protein cloned from a mouse 1246 adipocyte cDNA library, rapidly induced during adipocyte differentiation. We have examined ADRP function, and we show here that ADRP facilitates fatty acid uptake in COS cells transfected with ADRP cDNA. We demonstrate that uptake of long chain fatty acids was significantly stimulated in a time-dependent fashion in ADRP-expressing COS-7 cells compared with empty vector-transfected control cells. Oleic acid uptake velocity increased significantly in a dose-dependent manner in ADRP-expressing COS-7 cells compared with control cells. The transport Km was 0.051 microM, and Vmax was 57.97 pmol/10(5) cells/min in ADRP-expressing cells, and Km was 0.093 microM and Vmax was 20.13 pmol/10(5) cells/min in control cells. The oleate uptake measured at 4 degrees C was only 10% that at 37 degrees C. ADRP also stimulated uptake of palmitate and arachidonate but had no effect on uptake of medium chain fatty acid such as octanoic acid and glucose. These data suggest that ADRP specifically enhances uptake of long chain fatty acids by increasing the initial rate of uptake and provide novel information about ADRP function as a saturable transport component for long chain fatty acids.  相似文献   

15.
Transport of adenine and hypoxanthine in human erythrocytes proceeds via two mechanisms: (1) a common carrier for both nucleobases and (2) unsaturable permeation 4-5-fold faster for adenine for hypoxanthine. The latter process was resistant to inactivation by diazotized sulfanilic acid. Carrier mediated transport of both substrates was investigated using zero-trans and equilibrium exchange protocols. Adenine displayed a much higher affinity for the carrier (Km approximately 5-8 microM) than hypoxanthine (Km approximately 90-120 microM) but maximum fluxes at 25 degrees C were generally 5-10-fold lower for adenine (Vmax approximately 0.6-1.4 pmol/microliters per s) than for hypoxanthine (Vmax approximately 9-11 pmol/microliters per s). The carrier behaved symmetrically with respect to influx and efflux for both substrates. Adenine, but not hypoxanthine reduced carrier mobility more than 10-fold. The mobility of the unloaded carrier, calculated from the kinetic data of either hypoxanthine or adenine transport, was the same thus providing further evidence that these substrates share a common transporter and that their membrane transport is adequately described by the alternating conformation model of carrier-mediated transport.  相似文献   

16.
A novel "inhibitor-stop" method for the determination of initial rates of purine nucleobase transport in human erythrocytes has been developed, based on the addition of seven assay volumes of cold 19 mM papaverine to terminate influx. In view of our finding that the initial velocities of adenine, guanine, and hypoxanthine influx into human erythrocytes were linear for only 4-6 s at 37 degrees C, the present method has been used to reexamine the kinetics of purine nucleobase transport in these cells. Initial influx rates of all three purine nucleobases were shown to be the result of concurrent facilitated and nonfacilitated diffusion. The nonfacilitated influx rates could be estimated either from the linear concentration dependence of nucleobase influx at high concentrations of permeant or from residual influx rates which were not inhibited by the presence of co-permeants. Appropriate corrections for nonfacilitated diffusion were made to the influx rates observed at low nucleobase concentrations. Kinetic analyses indicated that adenine (Km = 13 +/- 1 microM, n = 7), guanine (Km = 37 +/- 2 microM, n = 5), and hypoxanthine (Km = 180 +/- 12 microM, n = 6) were mutually competitive substrates for transport. The Ki values obtained with each nucleobase as an inhibitor of the influx of the other nucleobases were similar to their respective Km values for influx. Furthermore, the transport of the purine nucleobases was not inhibited by nucleosides (uridine, inosine) or by inhibitors of nucleoside transport (6-[(4-nitrobenzyl)thio]-9-beta-D-ribofuranosylpurine, dilazep, dipyridamole). It is concluded that all three purine nucleobases share a common facilitated transport system in human erythrocytes which is functionally distinct from the nucleoside transporter.  相似文献   

17.
Isolation of ADP-ribosyltransferase by affinity chromatography   总被引:3,自引:0,他引:3  
An affinity adsorbent for ADP-ribosyltransferase (EC 2.4.2.30) has been synthesized by coupling 3-aminobenzamide to Sepharose 4B. Using this material, ADP-ribosyltransferase from human placenta has been purified from crude extract to homogeneity within a few hours. The enzyme has an apparent Km for NAD+ of 52 microM. Its molecular mass is 115,000 as determined by gel electrophoresis. The enzyme is DNA dependent and stimulated by histone, its temperature optimum is at 25 degrees C, and its pH optimum is around pH 9. alpha-NAD+, thymidine, caffeine, theophylline, theobromine, 3-methoxybenzamide, and nicotinamide inhibit the enzyme. Purification of ADP-ribosyltransferases from horse, rat, and chicken liver was also achieved with the method described.  相似文献   

18.
Techniques are described by which the transport of nutrients into mammalian cells in suspension can be measured at intervals of 1.5 seconds. By application of these techniques, the existence of a saturable (Km = 85 muM), non-concentrative, transport system for thymidine was demonstrated in Novikoff rat hepatoma cells depleted of ATP. At concentrations of thymidine less than the Km, this system operated at velocities sufficient to nearly completely equilibrate intra- and extra-cellular thymidine pools within 8 seconds. In phosphorylating cells, the transport system operated with similar rapidity, so that intracellular phosphorylation was rate-limiting for the incorporation of thymidine into nucleotides. Uptake of 3-O-methylglucose occurred at comparable velocities, attaining 90% of equilibrium between internal and external pools within 25 seconds. Uptake of cytosine by simple diffusion was 100 times slower.  相似文献   

19.
The H(+)-ATPase from chloroplasts (CF0F1) was isolated, purified and reconstituted into liposomes from phosphatidylcholine/phosphatidic acid. A transmembrane pH difference, delta pH, and a transmembrane electric potential difference, delta psi, were generated by an acid/base transition. The rate of ATP synthesis was measured at constant delta pH and constant delta psi as a function of temperature between 5 degrees C and 45 degrees C. The activation energy was 55 kJ mol-1. CF0F1 was coreconstituted with bacteriorhodopsin at a molar ratio of approximately 1:170 in the same type of liposomes. Illumination of the proteoliposomes leads to proton transport into the vesicles generating a constant delta pH = 1.8. The dependence of the rate of ATP synthesis on ADP concentration was measured with CF0F1 in the oxidized state, E(ox), and in the reduced state, E(red). The results can be described by Michaelis-Menten kinetics with the following parameters: Vmax = 0.5 s-1, Km = 8 microM for E(ox) and Vmax = 2.0 s-1, Km = 8 microM for E(red).  相似文献   

20.
We have previously described experimental conditions where basal methylglucose transport in adipocytes exhibited an apparent Km of approximately 35 mM. Under those conditions insulin stimulated transport predominantly by decreasing the transport Km (Whitesell, R. R., and Abumrad, N. A. (1985) J. Biol. Chem. 260, 2894-2899). Our findings were in contrast with earlier reports that the Km of basal glucose transport was low (3-5 mM) and similar to that of transport in insulin-treated cells. In this study we have investigated the effect of different experimental conditions on the kinetics of basal glucose transport in adipocytes. When transport was assayed at 37 degrees C, cell agitation for 10 min prior to the transport assay decreased the basal Km from 35 to 12 mM. Deprivation of metabolic substrate produced a further reduction down to 2 mM. Refeeding starved cells with 1 mM glucose returned the Km back up to 12 mM in agitated cells and to 40 mM in stabilized cells. The effects of agitation to lower and of glucose to raise the basal Km were prevented by preincubating cells with dinitrophenol. Cell agitation or substrate lack did not alter the Vmax of basal transport and were without effect on both Km and Vmax in insulin-treated cells. The temperature dependencies of the kinetics of basal and stimulated transport were studied. A decrease in the assay temperature from 37 to 23 degrees C caused both basal Km and Vmax to drop proportionately from 25 to 5 mM, and 13 to 3.6 nmol/(microliter X min), respectively. In insulin-stimulated cells, only the Vmax was decreased (Km went from 3.5 to 3 mM, Vmax from 45 to 17 nmol/(microliter X min]. The results support the concept that experimental conditions can produce large changes in the Km of basal glucose transporters. Furthermore they explain why, under certain assay conditions (with temperatures around 23 degrees C or with deprivation of metabolic substrate), the effect of insulin on transport Km is not observed. Our data also suggest that basal transport characteristics do not persist in insulin-treated cells. We would propose that one of the actions of insulin (in addition to raising Vmax) is to change the characteristics of basal transporters by overriding metabolic factors which keep the Km high. Alternatively, insulin could cause the disappearance of basal transporters as new and different ones are recruited from intracellular stores.  相似文献   

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