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1.
Glucose uptake by Bacteroides succinogenes S85 was measured under conditions that maintained anaerobiosis and osmotic stability. Uptake was inhibited by compounds which interfere with electron transport systems, maintenance of proton or metal ion gradients, or ATP synthesis. The most potent inhibitors were proton and metal ionophores. Oxygen strongly inhibited glucose uptake. Na+ and Li+, but not K+, stimulated glucose uptake. A variety of sugars, including alpha-methylglucoside, did not inhibit glucose uptake. Only cellobiose and 2-deoxy-D-glucose were inhibitory, but neither behaved as a competitive inhibitor. Metabolism of both sugars appeared to be responsible for the inhibition. Cells grown in cellobiose medium transported glucose at one-half the rate of glucose-grown cells. Spheroplasts transported glucose as well as whole cells, indicating glucose uptake is not dependent on a periplasmic glucose-binding protein. Differences in glucose uptake patterns were detected in cells harvested during the transition from the lag to the log phase of growth compared with cells obtained during the log phase. These differences were not due to different mechanisms for glucose uptake in the cell types. Based on the results of this study, B. succinogenes contains a highly specific, active transport system for glucose. Evidence of a phosphoenolpyruvate-glucose phosphotransferase system was not found.  相似文献   

2.
The ability of hemin to stimulate estrogen synthetase (aromatase) in cultured human trophoblast cells and in cellular homogenates was investigated and compared with aromatase stimulation by dibutyryl cAMP [(Bu)2 cAMP]. Cells grown with hemin for 24 h, or homogenates incubated for 45 min with hemin, showed maximal aromatase stimulation (150 to 200% of activities in the absence of hemin) at 25 microM and 0.1 microM, respectively. Aromatase stimulation in culture by 25 microM hemin was observed within 4 h after hemin addition, while (Bu)2 cAMP required more than 6 h. Intracellular heme and porphyrin levels were higher (160 to 185%) in 96 h (Bu)2 cAMP-grown cells than control cells.  相似文献   

3.
A very effective lytic enzyme system for massive micro/macro-scale production of protoplasts from the filamentous fungus Aspergillus nidulans is described. A striking coincidence was observed between maximal lytic activity towards Aspergillus mycelium and the presece of both chitinase and alpha-(1 leads to 3)-glucanase activities. The release of protoplasts was greatly enhanced by preincubating the mycelium with 2-deoxy-D-glucose. Furthermore, protoplast formation was influenced by fungal age, culture conditions, pH of incubation and the osmotic stabilizer used. From 40 mg of fresh mycelium, grown for 14--16 h on 1% glucose in a low phosphate-citrate medium, preincubated with 2-deoxy-D-glucose for 45 min, and then incubated with the lytic enzyme mixture at pH 6.5 in the presence of 0.3--0.4 M (NH4) SO4, 2.5 x 10(8) stable protoplasts were produced within 3 h of incubation at 30 degrees C. Comparable results were obtained with 40--50 g of mycelium. At low osmotic stabilizer concentrations a peculiar type of regeneration was observed in the presence of the lytic enzyme system; within 12 h of incubation aberrant hyphal structure emerged from the large vacuolated protoplasts.  相似文献   

4.
Cholecystokinin and analogues increased the uptake of 2-deoxy-D-glucose and 3-O-methylglucose into isolated mouse pancreatic acini. This uptake was mediated by a facilitated glucose transport system that was saturable, stereospecific, and was inhibited by both phloretin and cytochalasin B. In agreement with previous studies of acinar function, caerulein was more potent and pentagastrin less potent than cholecystokinin in increasing sugar transport. The cholinergic analogue carbachol mimicked the effect of caerulein; atropine completely abolished the effects of carbachol but was without influence on the effects of the polypeptide hormones. In contrast, secretion, as well as dibutyryl cyclic AMP and dibutyryl cyclic GMP, had no effect on 2-deoxy-D-glucose uptake. Two lines of evidence suggested that hormonal stimulation of this sugar transport system was related to mobilization of cellular Ca2+. First, depletion of cellular Ca2+ by incubation of acini with ethylene glycol bis(beta-aminoethyl ether) N,N,N',N'-tetraacetic acid (EGTA) reduced the effect of caerulein. Second, the Ca2+ ionophore A23187 mimicked the effects of caerulein on 2-deoxy-D-glucose uptake when Ca2+ was present in the medium.  相似文献   

5.
Cells isolated from newborn rat hearts were cultured for 10-14 days, and lipoprotein lipase activity was present in an intracellular and heparin-releasable pool. Treatment of the cultures with 10(-7) M isoproterenol for 3 min resulted in a 3-fold increase in heparin-releasable lipoprotein lipase and a concomitant decrease in residual cellular enzyme activity. Similar results were obtained by treatment with dibutyryl cAMP. Treatment with isoproterenol or dibutyryl cAMP for 2 h affected glycosylation of immunoadsorbable lipoprotein lipase, so that the ratio of [3H]galactose to [14C]mannose in the heparin-releasable enzyme increased from 3.8 (control) to 13.0 (isoproterenol-treated). The change in the ratio of the sugars in the cellular fraction of the enzyme was from 3.1 to 9.9. 2 h treatment with isoproterenol did not enhance new enzyme synthesis, as determined by incorporation of [3H]leucine into immunoadsorbable lipoprotein lipase. 24 h after addition of either isoproterenol or dibutyryl cAMP to the culture medium, stimulation of enzyme synthesis was demonstrated. The present results permit three effects of isoproterenol on lipoprotein lipase to be distinguished: stimulation of translocation from a cellular to heparin-releasable pool; enhanced processing of mannose residues and terminal glycosylation; stimulation of synthesis of enzyme protein.  相似文献   

6.
Cultures preincubated in a growth restricted salts/glucose medium in the presence and absence of ornithine decarboxylase (ODC) activating factors were then incubated under ideal growth conditions to study the influence of these factors on cell growth. Incubation of confluent cultures in a salts/glucose medium alone did not induce ODC or change the other biochemical parameters investigated. However, if cultures were incubated in the salts/glucose medium supplemented with asparagine (ASN) and agents that increase cellular cAMP levels then ODC was induced after 6–8 h. This primary induction in the salts/glucose medium resulted in altered and delayed ODC induction during growth stimulation and also caused a delay in (3H) thymidine incorporation without affecting (3H) uridine and (3H) leucine incorporation. These results demonstrate that incubation of cultures in a salts/glucose media with ASN and dibutyryl cAMP (dBcAMP) causes refractory ODC induction and altered (3H) thymidine incorporation upon growth challenge with complete medium. These effects were not observed when cells were preincubated in a salts/glucose medium alone.  相似文献   

7.
Ornithine decarboxylase activity (ODC) increased about 7 fold 6--8 h following 10mM asparagine (ASN) addition to confluent cultures that had been previously serum deprived and then placed in a salts/glucose medium. Optimal concentrations of dibutyryl cAMP (dB cAMP) when incubated with the ASN caused up to a 50 fold increase in the activity of this enzyme after 7--8 h. The enhancement of ODC activity by ASN and dB cAMP was not sensitive to continuous (0--7 h) treatment with actinomycin D but similar treatment with cycloheximide depressed enzyme activity 40--60%. The synergistic stimulation of ODC activity by dB cAMP added with ASN was dose dependent and the dB cAMP stimulation of ODC activity displayed an absolute requirement for ASN when cells were maintained in the salts/glucose medium. The addition of dB cAMP always further enhanced ODC activity above the levels produced by addition of various levels of ASN (1 to 40mM) to the salts/glucose medium. Other agents which elevated cAMP levels such as 1-methyl-3-isobutylxanthine (IBMX) also enhanced ODC activity when administered with ASN. Additionally, treatment with sodium butyrate at concentrations ranging from 0.001mM to 5.0mM did not elevate ODC activity above the activity obtained with ASN alone. Addition of dB cAMP at various times after placing cells in salts/glucose medium with ASN further stimulated ODC activity only when added during the first 3-4 h. These results demonstrate the involvement of cAMP in the ASN mediated stimulation of ODC activity using cells maintained in a salts/glucose medium.  相似文献   

8.
Incubation of chick embryo fibroblasts in glucose-free medium resulted in a dramatic increase in the rate of 2-deoxy-D-glucose transport. The greatest increase in rate occurred during the first 20 hours of incubation in glucose-free medium and was blocked by actinomycin D, dordycepin, or cycloheximide. The conditions of 2-deoxy-D-glucose concentration and time of incubation with the sugar were determined where transport rather than phosphorylation was rate-limiting in sugar uptake. These studies demonstrated that the transport of 2-deoxy-D-glucose was rate-limiting for only 1 or 2 min when the concentration of sugar in the medium was near the Km for transport, i.e. 2mM. No difference was found in the level of hexokinase activity in homogenates prepared from cells incubated glucose-free medium or standard medium when either 2-deoxy-D-[14C]glucose or D-glucose was used as substrate. A kinetic analysis of the initial rates of 2-deoxy-D-glucose transport by Lineweaver-Burk plots showed that the Vmax for sugar transport increased from 18 to 95 nmol per mg of protein per min when fibroblasts were incubated in glucose-free medium for 40 hours. The Km remained constant at 2 mM. Analysis of the initial rates of 3-omicron-methyl-D-glucose transport by Lineweaver-Burk plots further substantiated that the increase in sugar transport was due to an increase in the Vmax for transport with the Km remaining constant. The activation energy for the transport reaction calculated from an Arrhenius plot was 17.4 Cal per mol for cells cultured in the standard medium and 17.2 Cal per mol for cells cultured in the glucose-free medium. These results are consistent with the interpretation that the Vmax increase observed in hexose-starved cells is due to an increase in the number of transport sites.  相似文献   

9.
Asparagine specifically activated ornithine decarboxylase activity 5–7 fold by 7–8 h in confluent cultures maintained with a salts/glucose medium. When dibutyryl cAMP was added with asparagine, a 40–50 fold stimulation of ornithine decarboxylase activity was produced. Ornithine decarboxylase activation in the salts/glucose medium was not sensitive to actinomycin D. Omission of Ca++ and Mg++ from the medium abolished the ability of asparagine and/or dibutyryl cAMP to stimulate enzyme activity. Calcium was essential for the asparagine and dibutyryl cAMP mediated stimulation of ornithine decarboxylase activity.  相似文献   

10.
Both dibutyryl cAMP and carbachol stimulated amylase released from rat parotid cells incubated in Ca2+-free medium containing 1 mM EGTA. Cells preincubated with 10 microM carbachol in Ca2+-free, 1 mM EGTA medium for 15 min lost responsiveness to carbachol, but maintained responsiveness to dibutyryl cAMP. Dibutyryl cAMP still evoked amylase release from cells preincubated with 1 microM ionophore A23187 and 1 mM EGTA for 20 min. Although carbachol stimulated net efflux of 45Ca from cells preequilibrated with 45Ca for 30 min, dibutyryl cAMP did not elicit any apparent changes in the cellular 45Ca level. Inositol trisphosphate, but not cAMP, evoked 45Ca release from saponin-permeabilized cells. These results suggest that cAMP does not mobilize calcium for amylase release from rat parotid cells.  相似文献   

11.
Intracellular radioactivity following incubation of HTC or RLC cells in [3H]cAMP exceeds that following incubation in either [3H]mono- or dibutyryl cAMP by 30-fold, yet little [3H]cAMP is found within the cells. Even at early times (30 min) the label derived from [3H]cAMP is predominantly found in ADP or ATP, suggesting it mostly enters the cell as the nucleoside. Significant intracellular concentrations of monobutyryl cAMP (2–10 μm) result from incubation of both cell lines in either N6 mono- or dibutyryl cAMP. A very small percentage of this label is in cAMP, and within 2 h of incubation > 65% of the label is again found in ADP or ATP.Liver cytosol contains three major cAMP-dependent protein kinases, designated A, B, and C, as resolved by DEAE-Sephadex chromatography. cAMP is the most effective in vitro activator (10- to 16-fold stimulation) of kinases A and B, the preponderant forms, in the order cAMP > N6 monobutyryl cAMP ? dibutyryl cAMP. Kinase C, a minor fraction, was stimulated two to threefold with the order cAMP ≥ N6 monobutyryl cAMP > dibutyryl cAMP. HTC and RLC cell cytosol protein kinase has Chromatographic and cyclic nucleotide activation properties similar to those of liver fraction C.The activation state of the protein kinases of HTC and RLC cells incubated in the various cyclic nucleotides was also studied. The ability of such nucleotides to occupy regulatory protein binding sites in intact cells (as determined by the inhibition of subsequent in vitro binding of [3H]cAMP) was of the order N6 monobutyryl cAMP > dibutyryl cAMP > cAMP > untreated cells. Correspondingly, the ratio of basal protein kinase activity in cyclic nucleotide treated:control cells was higher in cells incubated in monobutyryl cAMP > dibutyryl cAMP > cAMP. This in vivo activation suggests that little additional stimulation would be obtained by adding cAMP to extracts prepared from such cells. This activation can be expressed as the ratio ? cAMP: + cAMP (a ratio of 1 being maximal activation). The highest such ratio was seen in cells which had been incubated in monobutyryl cAMP > dibutyryl cAMP > cAMP > untreated cells. The studies indicate that all three cyclic nucleotides are capable of activating protein kinase in intact RLC and HTC cells; however the monobutyryl derivative is the most effective, and the degree of stimulation is greater in RLC than in HTC cells.RLC cell tyrosine aminotransferase activity is increased two to threefold by butyrylated cAMP derivatives (but not by cAMP) whereas the HTC cell enzyme is not induced. The rate of replication of both lines is unaltered by the butyrylated compounds.Since HTC and RLC cells accumulate and metabolize cAMP and its derivatives equally, and since they both contain a protein kinase with similar in vivo and in vitro activation properties, it is suggested that the effects of butyrylated cAMP derivatives on cell replication and tyrosine aminotransferase induction are mediated separately, either by distinct protein kinases, or at a point distal to protein kinase, or by a mechanism independent of protein kinase.  相似文献   

12.
The active uptake of 2-aminoisobutyric acid (AIB) and several other amino acids in resting cells of Streptomyces hydrogenans was found to be stimulated by exogenously added adenosine cyclic monophosphate (cAMP). The uptake of glycerol, sorbose, and pyrimidine nucleosides remained unaffected. Among the various cAMP derivatives tested, the dibutyryl derivative was found to be most effective, followed by monobutyryl cAMP, and cAMP. Dibutyryl cGMP was also found to stimulate AIB transport, and its effectivity was as good as that of dibutyryl cAMP. The effect of dibutyryl cAMP is time dependent and attains its maximum after 40–60 min of incubation at 30°C in K-Na-phosphate buffer. Dibutyryl cAMP-dependent transport stimulation has a high temperature coefficient and is prevented by rifamycin SV or chloramphenicol. The rate of leucine incorporation into protein was rapidly increased upon addition of dibutyryl cAMP. Kinetic studies reveal that the stimulation of AIB transport is characterized by an increase in maximum uptake rate and an unaltered apparent Michaelis constant. Analysis of the unidirectional fluxes show that both influx and efflux are enhanced by dibutyryl cAMP. It is concluded that exogenous dibutyryl cAMP stimulates de novo synthesis of certain protein including the transport catalysts for various amino acids.  相似文献   

13.
Hepatocytes from rats deprived of food for 48 h synthesized glucose and urea from glutamine at a rate which, at pH 7.3, was markedly stimulated (175-250%) by dibutyryl cAMP, phenylephrine, and norepinephrine, in agreement with previous investigators. These effectors also stimulated respiration, elevating ATP production by the amount required for the increase in glucose and urea synthesis. Both the basal and stimulated rates were strongly pH dependent with maxima in the region of pH 7.2-7.6 (urea synthesis) and 7.2-7.5 (glucose synthesis) and declined rapidly on either side of these pH values. The inhibitions at acid and alkaline pH were neither due to lack of energy nor to limitation in glutamine uptake. The intracellular concentrations of aspartate, glutamate, and glutamine were lower at pH 6.7 than at pH 7.3 and were differently affected by dibutyryl cAMP and phenylephrine at the two pH values investigated. When calcium was omitted from the suspending medium, the basal rates of glucose and urea production were decreased as was stimulation by the effectors, phenylephrine completely, and the others partially. The stimulations by phenylephrine and dibutyryl cAMP were additive under all conditions tested. The pattern of metabolite changes indicates that although both effectors stimulated glutaminase and increased supply of aspartate to the argininosuccinate synthetase, dibutyryl cAMP gave greater activation of glutaminase whereas the adrenergic agonists gave greater stimulation of later steps on the biosynthetic pathways. It may be physiologically important than at acid pH both ureagenesis and gluconeogenesis are severely suppressed and cannot be effectively stimulated by the major hormonal regulators of these pathways.  相似文献   

14.
The in vitro effect of glucocorticoid on insulin binding and glucose transport was studied with rat adipocytes. Isolated rat adipocytes were incubated with or without 0.70 microgram/ml (1.9 mumol) of hydrocortisone in TCM 199 medium at 37 degrees C, 5% CO2/95% air (v/v), pH 7.4, for 2, 4, and 8 h, and then fat cell insulin binding and insulin-stimulated 3-O-methylglucose transport were measured. Hydrocortisone did not affect insulin binding in terms of affinity or receptor number. Glucose transport in the absence of insulin was significantly decreased at the incubation time of 2 h and continued to decrease up to 8 h of incubation with hydrocortisone. Decreased insulin sensitivity of glucose transport (i.e., a right-ward shift of the dose response curve) was also demonstrated after 2 h incubation with hydrocortisone, and the ED50 of insulin was maximally increased at 4 h of incubation (0.53 ng/ml for treated vs. 0.22 ng/ml for control cells). Maximal insulin responsiveness was also significantly decreased in treated cells after 8 h incubation with hydrocortisone. When percent maximum glucose transport was expressed relative to receptor-bound insulin, the ED50 values of treated and control cells were 10.5 and 7.2 pg of bound insulin, per 2 X 10(5) cells, respectively. Thus, it was evident that glucocorticoid induced a post-receptor coupling defect in the signal transmission of insulin-receptor complex.  相似文献   

15.
In 3T3-L1 adipocytes, we previously reported that glucosamine impairs insulin stimulation of glucose transport, which is accompanied by impaired insulin stimulation of serine/threonine kinase Akt. To examine the role of Akt in glucosamine-induced insulin resistance, we investigated time course for insulin stimulation of Akt activity and glucose transport during recovery from glucosamine-induced insulin resistance. After induction of insulin resistance by glucosamine, we washed cells to remove glucosamine and incubated them for various times. After one hour, insulin stimulated-glucose transport was significantly increased and continued to increase up to 6-24 h. Insulin stimulation of Akt, however, did not increase after 1-3 h and began to slightly increase after 6 h. Next, we investigated effects of osmotic shock and vanadate on glucose transport in glucosamine-treated cells and found that glucosamine completely inhibited their actions in these cells. These data suggest that an Akt-independent mechanism is operative in glucosamine-induced insulin resistance and glucosamine impairs glucose transport stimulated by various stimuli involving and not involving Akt activation.  相似文献   

16.
Glucose transport into adipocytes of the rat was measured by monitoring the conversion of [1-(14)C]glucose into (14)CO(2). Glucose transport was made rate-limiting by increasing the flux through the pentose phosphate pathway with phenazine methosulphate, an agent that rapidly reoxidizes NADPH. Under these conditions, the observed rate of glucose disappearance from the incubation medium was about 20% higher than the rate of conversion of the C-1 of glucose into (14)CO(2). Apparent rates of glucose transport were significantly increased by insulin, H(2)O(2), adenosine and nicotinic acid. Stimulation of the apparent rate of glucose transport by insulin was dependent on adipocyte concentration, the hormone being most effective at relatively high cell concentrations. Adenosine and nicotinic acid further enhanced the maximum stimulation of glucose transport by insulin. Potentiation of insulin action by adenosine was more pronounced at lower cell concentrations. At relatively high cell concentrations the stimulatory action of insulin was markedly decreased by adenosine deaminase. Stimulation of apparent rates of glucose transport by the compounds noted above were antagonized by agents that increased intracellular cyclic AMP concentrations (theophylline and isoprenaline) and by dibutyryl cyclic AMP. Intracellular concentrations of cyclic AMP were significantly lowered when adipocytes were incubated with insulin, H(2)O(2), adenosine or nicotinic acid. These effects were observed under basal conditions or when intracellular cyclic AMP concentrations were elevated by theophylline or isoprenaline. On the basis of the above data, we suggest that insulin, H(2)O(2), adenosine and nicotinic acid may all stimulate glucose transport in rat adipocytes by lowering the intracellular cyclic AMP concentration. These data therefore support the hypothesis that cyclic AMP inhibits glucose transport in rat adipocytes.  相似文献   

17.
Glucose transport capacity of C. cryptica increases in an exponential manner over 24 hr after transfer of the cells from light to complete darkness with little simultaneous increase in cell number. The transport system is rapidly inactivated when cells are transferred back to continuous light. Most of the inactivation takes place while there is still little changes in cell number. When grown on a continuous light regime, the capacity for glucose transport per cell depends on the light intensity. At intensities sufficient to saturate photosynthesis the glucose transport system is only about 5% that of dark-grown cells, while cells grown at intensities close to the light compensation point have about 30% of the capacity of dark-grown cells. The action spectrum for inactivation of glucose transport is identical to that for photosynthesis. Cells, whether grown under continuous light, in the dark in the presence of glucose, or kept in the dark without glucose, contain high levels of glucokinase and phosphofructokinase. The glucose transport system is highly specific for glucose; only galactose inhibits the uptake of glucose by about 50% when present at 10 times the concentration of glucose. The glucokinase is even more specific for glucose and is not inhibited by galactose. The phosphofructokinase is inhibited by high concentrations of ATP in cells grown under all conditions. cycloheximide inhibits the induction of glucose transport in the dark, but not the inactivation of the system in the light.  相似文献   

18.
We have compared the effects of cellular cyclic AMP modulation on the regulation of lipoprotein lipase in cultures of rat epididymal pad preadipocytes and mesenchymal heart cells. Addition of dibutyryl cyclic AMP (dibutyryl cAMP) or 3-isobutyl-1-methylxanthine (IBMX) to preadipocytes grown in serum-containing culture medium resulted in a progressive decrease in lipoprotein lipase activity released into the culture medium so that at 6-8 h enzyme activity ranged between 20 and 30% of that recovered in the control dishes. Similar short-term (6-8 h) studies of the heart cell cultures showed a variable and much less pronounced depression of lipoprotein lipase activity. Thus, following dibutyryl cAMP and IBMX treatment, lipoprotein lipase activity ranged between 70 and 95% of control values. Incubation for 6 h with cholera toxin was followed by a 4-fold rise in the concentration of cellular cyclic AMP in both types of culture, but while in heart cell cultures enzyme activity was unchanged, lipoprotein lipase activity in preadipocytes decreased to 30% of control value. After 24 h incubation with all three effectors, an increase in lipoprotein lipase activity was seen. In the preadipocytes the increase ranged between 50 and 150% above control value, in the heart cell cultures it was 100-250%. 24-h incubation of heart cell cultures with dibutyryl cAMP resulted in a 6-fold increase of heparin-releasable lipoprotein lipase activity while residual activity was doubled. The rise in surface-bound lipoprotein lipase was evidenced also by an increase in the lipolysis of chylomicron triacylglycerol. In the presence of cycloheximide, the dibutyryl cAMP-induced heparin-releasable and residual lipoprotein lipase activity declined at the same rate as the basal activity. The reason for the difference in response of cultured preadipocytes and heart cells to the effectors during the first 8 h of incubation has not been elucidated, but could be related to a possible absence of hormone-sensitive lipase in the heart cells, and hence in a difference in intracellular metabolism of triacylglycerol. On the other hand, a common mechanism can be postulated for the long-term effect of cyclic AMP on the induction of lipoprotein lipase activity in both types of cultures. It probably involves mRNA and protein synthesis, which culminates in an increase in enzyme activity.  相似文献   

19.
Both dibutyryl cAMP and carbachol stimulated amylase are released from rat parotid cells incubated in Ca2+-free medium containing 1 mM EGTA. Cells preincubated with 10 μM carbachol in Ca2+-free, 1 mM EGTA medium for 15 min lost responsiveness to carbachol, but maintained responsiveness to dibutyryl cAMP. Dibutyryl cAMP still evoked amylase release from cells preincubated with 1 μM ionophore A23187 and 1 mM EGTA for 20 min. Although carbachol stimulated net efflux of 45Ca from cells preequilibrated with 45Ca for 30 min, dibutyryl cAMP did not elicit any apparent changes in the cellular 45Ca level. Inositol trisphosphate, but not cAMP, evoked 45Ca release from saponin-permeabilized cells. These results suggest that cAMP does not mobilize calcium for amylase release from rat parotid cells.  相似文献   

20.
The regulation by glucose and insulin of the muscle-specific facilitative glucose transport system GLUT-4 was investigated in L6 muscle cells in culture. Hexose transport activity, mRNA expression, and the subcellular localization of the GLUT-4 protein were analyzed. As observed previously (Walker, P. S., Ramlal, T., Sarabia, V., Koivisto, U.-M., Bilan, P. J., Pessin, J. E., and Klip, A. (1990) J. Biol. Chem. 265, 1516-1523), 24 h of glucose starvation and 24 h of insulin treatment each increase glucose transport activity severalfold. Here we report a differential regulation of the GLUT-4 and GLUT-1 transport systems under these conditions. (a) The level of GLUT-4 mRNA was not affected by glucose starvation and was diminished by prolonged (24 h) administration of insulin; in contrast, the level of GLUT-1 mRNA was elevated under both conditions. (b) Glucose starvation and prolonged insulin administration increased the amount of both GLUT-4 and GLUT-1 proteins in the plasma membrane. (c) In intracellular membranes, glucose starvation elevated, and prolonged insulin administration reduced, the GLUT-4 protein content. In contrast, the GLUT-1 protein content in these membranes decreased with glucose starvation and increased with insulin treatment. Glucose transport was rapidly curbed upon refeeding glucose to glucose-starved cells, with half-maximal reversal after 30 min and maximal reversal after 4 h. This was followed by a marked decrease in the levels of GLUT-1 mRNA without major changes in GLUT-4 mRNA. Neither 2-deoxy-D-glucose nor 3-O-methyl-D-glucose could substitute for D-glucose in these effects. It is proposed that glucose and insulin differentially regulate the two glucose transport systems in L6 muscle cells and that the rapid down-regulation of hexose transport activity by glucose is regulated by post-translational mechanisms.  相似文献   

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