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1.
L J Sweet  P A Wilden  J E Pessin 《Biochemistry》1986,25(22):7068-7074
The subunit composition of the dithiothreitol- (DTT) activated insulin receptor/kinase was examined by sodium dodecyl sulfate (SDS)-polyacrylamide gel electrophoresis and gel filtration chromatography under denaturing (0.1% SDS) or nondenaturing (0.1% Triton X-100) conditions. Pretreatment of 32P-labeled insulin receptors with 50 mM DTT followed by gel filtration chromatography in 0.1% SDS demonstrated the dissociation of the alpha 2 beta 2 insulin receptor complex (Mr 400,000) into the monomeric 95,000 beta subunit. In contrast, pretreatment of the insulin receptors with 1-50 mM DTT followed by gel filtration chromatography in 0.1% Triton X-100 resulted in no apparent alteration in mobility compared to the untreated insulin receptors. Resolution of this complex by nonreducing SDS-polyacrylamide gel electrophoresis and autoradiography demonstrated the existence of the alpha 2 beta 2 heterotetrameric complex with essentially no alpha beta heterodimeric or free monomeric beta subunit species present. This suggests that the insulin receptor can reoxidize into the Mr 400,000 complex after the removal of DTT by gel filtration chromatography. Surprisingly, these apparently reoxidized insulin receptors were also observed to be functional with respect to insulin binding, albeit with a 50% decrease in affinity for insulin and insulin stimulation of the beta subunit autophosphorylation. To prevent reoxidation, the insulin receptors were pretreated with 50 mM DTT followed by incubation with excess N-ethylmaleimide prior to gel filtration chromatography in 0.1% Triton X-100. Under these conditions the insulin receptors migrated as the Mr 400,000 alpha 2 beta 2 complex.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

2.
Insulin receptor activities, i.e., insulin binding and tyrosine kinase activation depend on the lipid environment of the receptor. As detergent may disrupt or interfere with this environment, we investigated the effect of various common detergents on insulin receptor properties. Experiments were carried out (i) on solubilized and partially purified insulin receptor and (ii) on the receptor reconstituted into phosphatidylcholine vesicles. The detergents tested, Triton X-100, octyl-beta-D-glucopyranoside, octyl-beta-D-thioglucopyranoside, 3[(3-cholamidopropyl)dimethylammonio]propanesulfonic acid (Chaps), and Na deoxycholate affected the insulin receptor properties differently when compared with the control receptor in the absence of detergent. On the partially purified insulin receptor, Na deoxycholate inhibited both insulin receptor activities; octyl-beta-D-glucopyranoside and octyl-beta-D-thioglucopyranoside decreased insulin binding and kinase activation as their concentration increased, particularly above their respective critical micellar concentration (CMC). Triton X-100 was the only detergent which allowed an increase of insulin binding and kinase activation throughout the whole range of concentrations assayed. Reconstitution of the receptor into phosphatidylcholine vesicles protected the receptor from the direct effects of the detergents, for both the stimulation observed with Triton X-100 and the inhibition produced by the other detergents. In order to determine the effect of detergents on the oligomeric forms of the soluble insulin receptor, we investigated a new rapid sucrose gradient centrifugation technique. Insulin receptors were detected on the gradient by 125I insulin binding. For low concentrations of detergent, i.e., near the CMC, octylglucoside, Chaps, and Triton X-100 favored the (alpha 2 beta 2)2 oligomeric form of the receptor. Higher concentrations of Triton X-100 did not modify the polymeric state of the receptor. In contrast, octylglucoside and Chaps induced an increase in the sedimentation coefficient of the receptor which appeared as (alpha 2 beta 2)3 and (alpha 2 beta 2)4 forms. These alterations in the oligomerization status of the insulin receptor may explain the deleterious effects observed with both Chaps and octylglucoside at higher concentrations.  相似文献   

3.
The insulin receptor from rat skeletal muscle was characterized. Treatment of muscle membranes with the photoactive insulin analog, 125I[N-epsilonB29-monoazidobenzoyl]-insulin revealed a single protein band of 135,000 Da, the alpha subunit. Iodination of total membrane protein followed by Triton X-100 solubilization and immunoprecipitation demonstrated the presence of a protein band of 90,000 Da, the beta subunit, together with a protein band of 190,000 Da, which may be the receptor precursor. In partially purified receptor preparations, the beta subunit exhibited dose-dependent, insulin-stimulated phosphorylation with incorporation of phosphate solely into tyrosine residues, which was also observed in the 190,000-Da receptor precursor. Purified plasma membranes contained a large amount of insulin-degrading activity which had to be inactivated prior to performing insulin-binding studies. If degradation of insulin was not prevented, apparent enhanced binding in the presence of unlabeled insulin was observed.  相似文献   

4.
Purified human placental insulin receptors were incorporated into small unilamellar phospholipid vesicles by the addition of n-octyl beta-glucopyranoside solubilized phospholipids, followed by removal of the detergent on a Sephadex G-50 gel filtration column and extensive dialysis. The vesicles have an average diameter of 142 +/- 24 nm by Sephacryl S-1000 gel filtration chromatography and 119 +/- 20 nm by transmission electron microscopy. These vesicles are impermeant to small molecules as indicated by their ability to retain [gamma-32P]ATP, which could be released by the addition of 0.05% Triton X-100. Detergent permeabilization or freeze-thawing of the insulin receptor containing vesicles in the presence of 125I-insulin indicated that approximately 75% of the insulin binding sites were oriented right side out (extravesicularly). Sucrose gradient centrifugation of insulin receptors incorporated at various protein to phospholipid mole ratios demonstrated that the insulin receptors were inserted into the phospholipid bilayer structure in a concentration-dependent manner. Addition of [gamma-32P]ATP to the insulin receptor containing vesicles was relatively ineffective in promoting the autophosphorylation of the beta subunit in the absence or presence of insulin. Permeabilization of the vesicles with low detergent concentrations, however, stimulated the beta-subunit autophosphorylation approximately 2-fold in the absence and 10-fold in the presence of insulin. Insulin-stimulated beta-subunit autophosphorylation was also observed under conditions such that 94% of those vesicles containing insulin receptors had a single receptor per vesicle, suggesting that the initial beta-subunit autophosphorylating activity is intramolecular. Phospho amino acid analysis of the vesicle-incorporated insulin receptors demonstrated that the basal and insulin-stimulated beta-subunit autophosphorylation occurs exclusively on tyrosine residues. It is concluded that when purified insulin receptors are incorporated into a phospholipid bilayer, they insert into the vesicles primarily in the same orientation as occurs in the plasma membrane of intact cells and retain insulin binding as well as insulin-stimulated beta-subunit autophosphorylating activities.  相似文献   

5.
Treatment of human placenta membranes at pH 8.5 in the presence of 2.0 mM dithiothreitol (DTT) for 5 min, followed by the simultaneous removal of the DTT and pH adjustment to pH 7.6, resulted in the formation of a functional alpha beta heterodimeric insulin-like growth factor 1 (IGF-1) receptor complex from the native alpha 2 beta 2 heterotetrameric disulfide-linked state. The membrane-bound alpha beta heterodimeric complex displayed similar curvilinear 125I-IGF-1 equilibrium binding compared to the alpha 2 beta 2 heterotetrameric complex. Triton X-100 solubilization of the alkaline pH and DTT-pretreated placenta membranes, followed by Bio-Gel A-1.5m gel filtration chromatography, was found to effectively separate the alpha 2 beta 2 heterotetrameric and alpha beta heterodimeric IGF-1 receptor species, 125I-IGF-1 binding to both the isolated alpha 2 beta 2 heterotetrameric and alpha beta heterodimeric complexes demonstrated a marked straightening of the Scatchard plots, compared to the placenta membrane-bound IGF-1 receptors, with a 2-fold increase in the high-affinity binding component. Similar to the membrane-bound IGF-1 receptor species, the 125I-IGF-1 binding properties between the alpha 2 beta 2 heterotetrameric and alpha beta heterodimeric complexes were not significantly different. IGF-1 stimulation of IGF-1 receptor autophosphorylation indicated that the ligand-dependent activation of alpha beta heterodimeric protein kinase activity occurred concomitant with the reassociation into a covalent alpha 2 beta 2 heterotetrameric state.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

6.
Both receptor subunits were functionally labeled in order to provide methods allowing, in live cells and in broken cell systems, concomitant evaluation of the insulin receptor dual function, hormone binding, and kinase activity. In cell-free systems, insulin receptors were labeled on their alpha-subunit with 125I-photoreactive insulin, and on their beta-subunit by autophosphorylation. Thereafter, phosphorylated receptors were separated from the complete set of receptors by means of anti-phosphotyrosine antibodies. Using this approach, a subpopulation of receptors was found which had bound insulin, but which were not phosphorylated. Under nonreducing conditions, receptors appeared in three oligomeric species identified as alpha 2 beta 2, alpha 2 beta, and alpha 2. Mainly the alpha 2 beta 2 receptor species was found to be phosphorylated while insulin was bound to alpha 2 beta 2, alpha 2 beta, and alpha 2 forms. In live cells, biosynthetic labeling of insulin receptors was used. Receptors were first labeled with [35S]methionine. Subsequently, the addition of insulin led to receptor autophosphorylation by virtue of the endogenous ATP pool. The total amount of [35S]methionine-labeled receptors was precipitated with antireceptor antibodies, whereas with anti-phosphotyrosine antibodies, only the phosphorylated receptors were isolated. Using this approach we made the two following key findings: (1) Both receptor species, alpha 2 beta 2 and alpha 2 beta, are present in live cells and in comparable amounts. This indicates that the alpha 2 beta form is not a degradation product of the alpha 2 beta 2 form artificially generated during receptor preparation. (2) The alpha 2 beta 2 species is the prevalently autophosphorylated form.  相似文献   

7.
Insulin receptor was purified 10,000-fold from cultured mouse 3T3-L1 adipocytes in 35% overall yield. The specific activities of 125I-insulin binding and autophosphorylation increased in parallel, following the initial Triton X-100 extraction of membranes. The isolation protocol, performed entirely at pH 8.45, entailed adsorption by avidin-Sepharose CL-4B of a complex formed between Triton X-100-solubilized insulin receptor and N alpha B1-(biotinyl-epsilon-aminocaproyl)insulin, and the specific elution of the complex with biotin. The avidin-Sepharose CL-4B was a partially denatured preparation, showing estimated dissociation constants of 0.2 microM for biotin and approximately 1 microM for the bifunctional ligand at, pH 7, 4 degrees C. The bifunctional ligand was characterized by 70% competency in binding to avidin, 100% competency in binding to solubilized insulin receptor, full stimulation of autophosphorylation of the isolated receptor, and maximal stimulation of hexose uptake by intact 3T3-L1 adipocytes. The insulin binding properties of the insulin receptor were uniform throughout this purification procedure. At pH 8.45, 4 degrees C, an average Kd = 0.72 nM was determined for a single class of noninteracting insulin binding sites. The apparent autophosphorylation of the beta-subunit was also unchanged following affinity chromatography. A single oligomeric structure was established for the purified receptor, composed only of 135,000- and 95,000-Da subunits, whose association was lost by denaturation in the presence of reducing agent. This single structure occurred in the initial Triton X-100 extract. The purified insulin receptor was capable of autophosphorylating the beta-subunit and catalyzed phosphorylation of protein substrates.  相似文献   

8.
The insulin receptor is a complex membrane-spanning glycoprotein composed of two alpha-subunits and two beta-subunits connected to form an alpha 2 beta 2 holoreceptor. Insulin binding to the extracellular alpha-subunits activates intracellular beta-subunit autophosphorylation and substrate kinase activity. The current study was designed to differentiate mechanisms of transmembrane signaling by the insulin receptor, specifically whether individual beta-subunits undergo cis- or trans-phosphorylation. We compared relative kinase activities of trypsin-truncated receptors, alpha beta-half receptors, and alpha 2 beta 2 holoreceptors under conditions that allowed us to differentiate intermolecular and intramolecular events. Compared to the insulin-stimulated holoreceptors, the trypsin-truncated receptor undergoes autophosphorylation at similar tyrosine residues and catalyzes substrate phosphorylation in the absence of insulin at a comparable rate. The truncated receptor sediments on a sucrose gradient at a position consistent with a structure comprising a single beta-subunit attached to a fragment of the alpha-subunit and undergoes autophosphorylation in this form in the absence of insulin. Autophosphorylation of the truncated insulin receptor is independent of receptor concentration, and immobilization of the truncated receptor on a matrix composed of an anti-receptor antibody bound to protein A-Sepharose diminishes neither autophosphorylation nor receptor-catalyzed substrate phosphorylation. Therefore, true intramolecular (cis) phosphorylations, which occur within individual beta-subunits derived from trypsin-truncated receptors, lead to kinase activation. However, insulin-stimulated autophosphorylation of insulin receptor alpha beta heterodimers is concentration-dependent, and both autophosphorylation and kinase activity are markedly reduced following immobilization.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

9.
Insulin receptor halves (alpha beta) were obtained upon selective reduction of the holoreceptor (alpha 2 beta 2) and were isolated in concentrated form. Autophosphorylation of concentrated alpha beta receptor halves can be stimulated by insulin an average of 4.0-fold, whereas nonreduced holoreceptor can be stimulated 5.4-fold. If alpha beta half-receptors are immobilized on wheat germ agglutinin-agarose, no insulin-stimulated autophosphorylation is observed, whereas immobilized holoreceptor retains insulin responsiveness. Treatment of alpha beta half-receptors with glutathione in the presence of insulin results in reoxidation to the holoreceptor form (alpha 2 beta 2) with an efficiency of 60-70% as visualized by immunoblotting, thus providing evidence that two alpha beta halves are in close physical proximity. This reoxidation reaction, which is evident prior to autophosphorylation, is rapid and strictly dependent on the presence of insulin, consistent with the hypothesis that insulin promotes the association of two alpha beta halves. Furthermore, the insulin-induced reoxidation reaction and the insulin-induced autophosphorylation show the same dose dependence ED50 3-4 x 10(-8) M insulin), suggesting that the noncovalent association of alpha beta half-receptors upon insulin binding is a prerequisite for insulin-stimulated autophosphorylation in concentrated alpha beta half-receptor preparations. If the alpha beta half-receptor forms are phosphorylated in the presence of an anti-phosphotyrosine antibody and separated from nonphosphorylated alpha beta receptors, we observed that the phosphorylated alpha beta receptor halves contain bound insulin. This excludes the possibility that alpha beta half-receptors that bind insulin, preferentially phosphorylate alpha beta halves that have no insulin bound.  相似文献   

10.
The insulin receptor is a tyrosine-specific protein kinase. Upon binding of the hormone, the kinase is activated resulting in autophosphorylation of the receptor. This kinase activity has been postulated to be an early step in the transmembrane signaling produced by insulin. To evaluate the physiologic relevance of receptor phosphorylation, we have studied insulin binding and autophosphorylation properties using cells from an individual with a variant of the Type A syndrome of severe insulin resistance and acanthosis nigricans. Erythrocytes and cultured fibroblasts from this individual exhibited normal or near normal 125I-insulin binding. Receptors extracted from erythrocytes with Triton X-100 also exhibited normal 125I-insulin binding and competition curves. Despite this, receptors extracted from both erythrocytes and fibroblasts showed a 50% decrease in insulin-stimulated autophosphorylation. Partially purified receptors from the patient's fibroblasts also exhibited a 40% decrease in their ability to phosphorylate exogenous substrates. These data suggest that the insulin resistance in this syndrome is due to a genetic abnormality which impairs insulin receptor phosphorylation and kinase activity and further support the possible role of receptor phosphorylation and kinase activity in insulin action.  相似文献   

11.
We previously have demonstrated that intramolecular interactions between alpha beta-alpha beta subunits are necessary for insulin-dependent activation of the protein kinase domain within a single alpha 2 beta 2 heterotetrameric insulin-receptor complex (Wilden, P. A., Morrison, B. D., and Pessin, J. E. (1989) Biochemistry 28, 785-792). To evaluate the role of the beta subunit transmembrane domain in the insulin-dependent signalling mechanism, mutant human insulin receptors containing a series of nested transmembrane domain deletions (amino acids 941-945) were generated and stable Chinese hamster ovary-transfected cell lines were obtained. In addition, a substitution of Val-938 for Glu (E/V938) similar to the oncogenic mutation found in the neu transmembrane domain was also introduced into the insulin receptor. Scatchard analysis of insulin binding to the stable Chinese hamster ovary cell lines expressing either wild type or mutant insulin receptors indicated equivalent receptor number (2-4 x 10(6)/cell) and similar high affinity binding constants (Kd 0.1-0.3 nM). 125I-Insulin affinity cross-linking demonstrated that all of the expressed insulin receptors were assembled and processed into alpha 2 beta 2 heterotetrameric complexes. Surprisingly, all the mutant insulin receptors retained insulin-stimulated autophosphorylation both in vivo and in vitro. Furthermore, endogenous substrate phosphorylation in vivo as well as insulin-stimulated thymidine incorporation into DNA were unaffected by the transmembrane domain mutations. These data demonstrate that marked structural alterations in the insulin receptor transmembrane domain do not interfere with insulin-dependent signal transduction.  相似文献   

12.
Dithiothreitol (DTT) was observed to increase both beta-subunit autophosphorylation and exogenous substrate phosphorylation of the insulin receptor in the absence of insulin. The natural protein reducing agent thioredoxin was also observed to increase the insulin receptor beta-subunit autophosphorylation. The activation of the insulin receptor/kinase by both DTT and thioredoxin was found to be additive with that of insulin. Further, the increase in the insulin receptor beta-subunit autophosphorylation in the presence of DTT and insulin was demonstrated to be due to an increase in the initial rate of autophosphorylation without alteration in the extent of phosphorylation. Similarly, the increase in the exogenous substrate phosphorylation was due to an increase in the Vmax of phosphorylation without significant effect on the apparent Km of substrate binding. In the presence of relatively low concentrations of DTT, insulin was found to potentiate the apparent insulin receptor subunit reduction of the native alpha 2 beta 2 heterotetrameric complex into alpha beta heterodimers, when observed by silver staining of sodium dodecyl sulfate-polyacrylamide gels. N-[3H]Ethylmaleimide ([3H]NEM) labeling in the absence of DTT pretreatment demonstrated that only the beta subunit had accessible sulfhydryl group(s). However, treatment of insulin receptors with DTT increased the amount of [3H]NEM labeling in the beta subunit as well as exposing sites on the alpha subunit. Further, incubation of the insulin receptors with the combination of DTT and insulin also demonstrated the apparent insulin-potentiated subunit reduction without any increase in the total amount of [3H]NEM labeling.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

13.
When insulin receptors of rat skeletal muscle sarcolemmal vesicles were solubilized with Triton X-100, the specific binding of 125I-labeled insulin increased by more than 10-fold over that seen in the intact vesicles. Partial purification of the skeletal muscle insulin receptors on wheat germ agglutinin affinity columns increased the total insulin binding activity by 7-fold and reduced the Kd for insulin binding from 1.92 to 0.20 nM, suggesting that an inhibitor of insulin binding was removed by this purification step. This was confirmed when the unbound fractions of the affinity column were dialyzed and reconstituted with the insulin receptors. The inhibitory activity in the sarcolemmal extract could not be accounted for by the presence of Triton X-100. The skeletal muscle inhibitor was more potent in inhibiting insulin binding to skeletal muscle insulin receptors than to liver or adipose receptors. The inhibitor was very effective in inhibiting insulin binding to wheat germ agglutinin-purified IM-9 receptors, but had negligible effects on insulin binding to intact IM-9 cells. The properties of the alpha and beta subunits of the skeletal muscle insulin receptors appear to be the same as those of insulin receptors of other tissues: cross-linking of 125I-labeled insulin to the receptor revealed a band of 130,000 daltons, and insulin stimulated the phosphorylation of bands of 90,000 and 95,000 daltons in the receptor preparation. The skeletal muscle insulin binding inhibitor elutes from molecular sieves in a major 160,000-dalton peak and minor 75,000-dalton peak. The binding inhibitor is not inactivated by heat, by mercaptoethanol, or by trypsin, pepsin, or proteinase K. Collectively, these data suggest that the inhibitor may be a small molecule that aggregates with itself, with larger proteins, or with detergent micelles.  相似文献   

14.
1246-3A cell line is an insulin-independent variant isolated from the adipogenic cell line 1246 which can proliferate in the absence of insulin, has lost the ability to differentiate, and secretes an insulin-related factor called IRF similar to pancreatic insulin and different from IGFs. In contrast, the parent adipogenic cell line 1246 is dependent on the presence of insulin to proliferate and differentiate in defined medium. In the present paper, we examined if the loss of response to insulin observed for 1246-3A cells was accompanied by alterations in the insulin receptor properties. Insulin binding and tyrosine kinase activity of insulin receptors isolated from 1246-3A cells and from the parent cell line 1246 were measured; 125I-insulin binding to intact cells was 75% lower for the 1246-3A cells than for the 1246 cells. This was due to a decrease in receptor number without major change in receptor affinity. However, when the cells were solubilized in 1% Triton X-100 and the insulin receptor was partially purified by chromatography on wheat germ agglutinin-agarose, a similar pattern of binding was observed for both cell lines. Down regulation of insulin receptors by insulin occurred in a dose-dependent fashion, which was similar for both cell lines. Phosphorylation experiments were performed by incubation of the partially purified insulin receptor with insulin and [gamma-32P]ATP. They indicated that insulin stimulated phosphorylation of the 95-kDa molecular weight beta subunit of the receptor, in a similar fashion for both cell types. These data suggest that the insulin-independent cell line 1246-3A does not possess a specific defect in the insulin receptor which alters both its binding and autophosphorylation properties and that the loss of response to insulin can be attributed to the fact the 1246-3A cells secrete IRF which bind to cell surface receptors and stimulate their proliferation.  相似文献   

15.
Assembly of insulin/insulin-like growth factor-1 hybrid receptors in vitro   总被引:8,自引:0,他引:8  
Insulin and Mn/MgATP treatment of immunoaffinity-purified alpha beta heterodimeric insulin receptors induced the formation of an alpha 2 beta 2 heterotetrameric insulin receptor complex. In contrast, insulin-like growth factor-1 (IGF-1) treatment was completely ineffective in inducing the association of alpha beta heterodimeric insulin receptors. Similarly, IGF-1 or Mn/MgATP, but not insulin, treatment of immunoaffinity-purified alpha beta heterodimeric IGF-1 receptors induced the formation of an alpha 2 beta 2 heterotetrameric IGF-1 receptor complex. A monoclonal antibody specific for the insulin receptor (MA5) completely immunoprecipitated all the insulin binding activity from both the alpha 2 beta 2 heterotetrameric and alpha beta heterodimeric insulin receptor complexes but did not immunoprecipitate IGF-1 receptors. Conversely, the IGF-1 receptor-specific monoclonal antibody (alpha IR-3) immunoprecipitated all the IGF-1 binding activity, but not insulin receptors. The simultaneous treatment of pooled equal amounts of alpha beta heterodimeric insulin and IGF-1 receptors with a combination of insulin and IGF-1 resulted in the formation of alpha 2 beta 2 heterotetrameric insulin and IGF-1 receptor complexes. However, in the mixed alpha 2 beta 2 heterotetrameric receptor fraction MA5 immunoprecipitated 94% of the insulin binding in addition to 27% of the IGF-1 binding activity whereas alpha IR-3 immunoprecipitated 97% of the IGF-1 binding in addition to 38% of the insulin binding activity. Treatment of the mixed alpha beta heterodimeric insulin and IGF-1 receptors with Mn/MgATP also resulted in the formation of cross-immunoreactive (42-46%) alpha 2 beta 2 heterotetrameric receptors. These data directly demonstrate the formation of insulin/IGF-1 hybrid receptors by both a combination of insulin plus IGF-1 or Mn/MgATP treatment of purified human placenta alpha beta heterodimeric insulin and IGF-1 half-receptors in vitro.  相似文献   

16.
Insulin receptors from chicken liver and brain were studied following alterations in the nutritional state. Chickens were either fasted for 48 h, fasted for 48 h and then refed for 24 h, or fed a regular diet ad libitum. 125I-Porcine insulin binding was significantly elevated in liver membranes from the fasted animals and lowered in refed chickens when compared to preparations from ad libitum fed chickens. These changes in 125I-insulin binding were inversely related to the levels of plasma insulin and since receptor affinities for insulin were similar in each group, they probably represent alterations in receptor number. Apparent Mr of alpha subunits of the insulin receptors was unaffected by alterations in the nutritional states. The presence of ATPase-like activities that co-eluted with liver insulin receptors from wheat germ agglutinin lectin columns but not from pea lectin columns necessitated the use of both pea and wheat germ agglutinin for liver insulin receptor purification. The insulin receptors purified from both lectin columns were recognized by anti-insulin receptor antiserum and had similar affinities for insulin which were unaltered by the nutritional state. Insulin-stimulatable autophosphorylation of the beta subunit of the insulin receptor was lower in livers from fasted chickens and intermediate in refed chickens. Furthermore, basal and insulin-induced phosphorylation of the artificial substrate poly(Glu,Tyr) 4:1 was significantly less in the fasting state and intermediate in the refed state compared to the ad libitum fed state. Insulin sensitivity (measured as the dose of insulin required for 50% maximal stimulation of kinase activity) was similar in all three states suggesting that the differences in insulin-induced phosphorylation are due to a change in maximal stimulation and not a change in insulin sensitivity. In contrast to the alterations seen with liver receptors, brain insulin receptors were unaffected by these alterations in nutritional state. These findings suggest that: liver insulin receptors are affected by altering the nutritional state; insulin binding to liver membranes is inversely related to plasma insulin levels; and tyrosine kinase is decreased both in fasted and refed animals suggesting an uncoupling of the normal interaction between alpha subunit and beta subunit in liver insulin receptors.  相似文献   

17.
We investigated whether insulin forms covalent bonds with its receptors on erythrocytes and reticulocytes, as it does in adipocytes (1). Of the [125I]-insulin specifically bound at 37 degrees C to human and rat erythrocytes and rat reticulocytes, only 1.5-2.3% was non-dissociable on extensive washing. When ghosts prepared from the washed cells were solubilized in Triton X-100, only 0.6-1.5% of the specifically bound radioactivity appeared in the void volume of a Sephadex G-50 column. Moreover in contrast to adipocytes, this high molecular weight radioactivity was not immunoprecipitable by antibodies to the insulin receptor and was dissociated during chromatography in sodium dodecyl sulphate. Thus we have been unable to demonstrate the formation of covalent bonds between insulin and its receptors on erythrocytes and reticulocytes. This finding is consistent with the hypothesis that covalent binding of insulin is a necessary receptor modification for insulin's metabolic effects.  相似文献   

18.
Tetrameric insulin holoreceptor (alpha 2 beta 2) was reduced with dithiothreitol into alpha beta dimers such that they maintain up to 50% of insulin binding at tracer ligand concentrations. Scatchard analysis of insulin binding to dimers revealed that they had a reduced affinity for ligand by a factor of 3-6 compared to holoreceptor, whereas the maximum number of high affinity binding sites was not affected. The alpha beta dimers can be separated from holoreceptor by sucrose density gradient centrifugation, and hence, they are not associated by noncovalent interactions. Insulin-dependent autophosphorylation of alpha beta dimers isolated from low ionic strength sucrose density gradients was minimal and was always accompanied by reoxidation of dimers to the tetrameric holoreceptor. The reformed tetramer exhibited a strong insulin-dependent autophosphorylation reaction. Reoxidation was prevented by isolating alpha beta dimers in sucrose density gradients containing 0.15 M NaCl. Under these conditions, no insulin-dependent autophosphorylation was observed. When insulin receptor was first autophosphorylated and then reduced, receptor kinase activity, as assayed by histone phosphorylation, was not affected. Also, the insulin-independent, basal autophosphorylation was maintained after reduction into alpha beta dimers. We conclude that alpha beta-alpha beta interaction is not necessary for the maintenance of basal kinase activity or for insulin-activated kinase activity once autophosphorylation occurs. However, dimer-dimer interaction appears critical for the insulin-dependent activation of the receptor's intrinsic kinase activity.  相似文献   

19.
Insulin-like growth factor (IGF) I receptor was purified from Triton X-100-solubilized human placental membranes by wheat germ agglutinin-Sepharose chromatography followed by immunoaffinity chromatography using alpha IR-3, a monoclonal antibody directed against the IGF-I receptor. Purification of 3200-fold and 2800-fold was achieved from wheat germ agglutinin-Sepharose eluates with regard to IGF-I binding and kinase activities. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis under reducing conditions revealed two major protein bands corresponding to the alpha and beta subunits of the receptor, which accounted for at least 90% of the protein content. The purified receptor bound 10-20 micrograms of IGF-I/mg of protein and was more than 95% free of contamination by insulin receptor. It sedimented in glycerol gradients as a single species with a sedimentation coefficient of 13.7 S and gave three protein bands with Mr = approximately 300,000 on sodium dodecyl sulfate-polyacrylamide gel electrophoresis under nonreducing conditions, indicating that alpha 2 beta 2 is an intact form of the IGF-I receptor. The purified receptor, when incubated with [gamma-32P] ATP, became phosphorylated at tyrosine residues of its beta subunit. This was stimulated 3-fold by IGF-I. It also had IGF-I-stimulated tyrosine kinase activity (5264 pmol of 32P incorporated/min/mg of protein) toward a synthetic peptide corresponding to the autophosphorylation site of pp60src. These data strongly suggest that it is a tyrosine-specific protein kinase.  相似文献   

20.
The insulin receptor protein kinase. Physicochemical requirements for activity   总被引:13,自引:0,他引:13  
We determined that the rate of insulin-stimulated autophosphorylation of the insulin receptor is independent of receptor concentration and thus proceeds via an intramolecular process. This result is consistent with the possibility that ligand-dependent autophosphorylation may be a means by which cells can distinguish occupied from unoccupied receptors. We employed dithiothreitol to dissociate tetrameric receptor into alpha beta halves in order to further elucidate the structural requirements for the receptor-mediated kinase activity. Dithiothreitol had a complex biphasic effect on insulin-stimulated receptor kinase activity. Marked stimulation of kinase activity was observed at 1-2 mM dithiothreitol when the receptor was predominantly tetrameric and kinase activity diminished when dimeric alpha beta receptor halves predominate (greater than 2 mM dithiothreitol). N-Ethylmaleimide inhibits insulin-stimulated receptor kinase activity. We suggest that the tetrameric holoreceptor is the most active kinase structure and this structure requires for maximal activity, a reduced sulfhydryl group at or near the active site. We treated receptor preparations with elastase to generate receptor proteolytically "nicked" in the beta subunit. This treatment completely abolishes insulin-dependent autophosphorylation and histone phosphorylation with essentially no effects on insulin binding as determined by affinity labeling of the receptor alpha subunit. We suggest such treatment functionally uncouples insulin binding from insulin-stimulated receptor kinase activity. The possible physiological significance of these findings is discussed.  相似文献   

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