EC:3.4.24.56 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: EC:3.4.24.56 (insulin-degrading enzyme)
737 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The degradation of insulin by insulin protease and glutathion-insulin transhydrogenase (glutathioneproteindisulphide oxidoreductase--EC 1.8.4.2, GIT) was measured in rat liver either after replacing food and water by 15% glucose solution, or after daily insulin administration 8 U daily for 3 days or after fasting. The breakdown of radioiodinated insulin was followed by measuring the increase of TCA soluble radioactivity during incubation of cell fractions with 125I insulin at 37 degrees C. The highest GIT activity was observed in liver microsomes of rats after glucose feeding and after insulin administration, whereas enzyme activity of fasted animals did not essentially differ from corresponding values of normally fed controls. The insulin protease in cytosol of liver cells remained unchanged after these procedures. The important role of GIT in insulin degradation seems to be conclusively demonstrated.
...
PMID:Effect of insulin and glucose on the activity of insulin-degrading enzymes in rat liver. 30 91

Results obtained with Cerasi & Luft's method and OGTT in subjects with a historical, clinical and laboratory suspicion of dysmetabolism were compared. It was found that: 1) obese subjects showed increased blood sugar and insulinase areas by comparison with normal controls; 2) subjects of normal weight displayed: a) a mean increase in blood sugar areas by comparison with normal controls; b) less evident changes in blood insulin areas; in these subjects, it was also noted that, c) an early-phase secretion irregularity detected with Cerasi & Luft's method did not involve changes in the oral loading pattern displayed by subjects classed as normal by means of such method; d) in subjects classed as "chemical diabetics" by OGTT, the response to glucagon after venous loading was defective. In border-line cases, early-phase changes were observed in the venous curve after oral glucose, whereas the response to glucagone remained efficient. It is felt that OGTT is an effective means in the diagnosis of infantile dysmetabolism. Attention is also drawn to the possibilities offered by the method of Cerasi & Luft in the detailed and specific appraisal of insulin secretion.
...
PMID:[Comparative evaluation of the results obtained with the Cerasi and Luft method and the OGGT in children]. 99 83

The disappearance rate of intravenously injected insulin was investigated in the serum of 30 women during the third trimester of pregnancy and 6 to 8 weeks post partum, in order to determine whether pregnancy has an influence on insulin kinetics in human subjects. Both women with unimpaired glucose tolerance and those with latent diabetes were included in this study. The disappearance rate of exogenous serum insulin in pregnancy was characterized by a two-compartment model. Multivariate analyses of variance were used to determine whether the estimated parameters of this model during pregnancy differ from those obtained after the puerperium and whether the insulin kinetics are altered when carbohydrate metabolism is disturbed. The kinetics of insulin during pregnancy did not differ from those after pregnancy. Thus, hyperinsulinemia observed in pregnancy cannot be explained by a change in the insulin kinetics. It appears improbable that the insulin-degrading enzyme activities of the placenta participate in degradation of insulin circulating in the maternal blood. A connection between the decline of glucose tolerance during pregnancy and the kinetics of exogenous insulin could not be found.
...
PMID:Influence of pregnancy on the kinetics of insulin. 114 34

To study the regulation of lipogenesis in adipose tissue by insulin and growth hormone during lactation, tissue was biopsied from primiparous bovines at 30 days antepartum and 60 days postpartum. Tissue was cultured for 24 hr or 48 hr in M199 with acetate and glucose, with a change of medium at 24 hr. The three in vitro treatments were: insulin and hydrocortisone at 10 and 50 ng/ml, respectively (IH); IH + 10 ng/ml of growth hormone (G10); and IH + 100 ng/ml of growth hormone (G100). IH allowed lipogenesis rates from 50% to 85% of those in fresh tissue. Addition of 10 ng/ml of growth hormone reduced (P less than 0.05) lipogenesis; at 100 ng/ml, the effect was only slightly greater. The hypothesis that insulin and growth hormone could be degraded by bovine adipose tissue was tested. Adipose tissue cell-free extracts degraded 125I-labeled insulin, but did not degrade labeled growth hormone. The insulin protease activity was further characterized and had a pH optimum of 7.1, a maximum hydrolysis of approximately 70%, and a hydrated molecular mass of approximately 23,000 daltons. Insulin proteolysis was inhibited by specific insulin protease inhibitors and stimulated by disulfide reducing agents. Bovine growth hormone, prolactin, and histone inhibited (P less than 0.05) the proteolysis of insulin, while bovine serum albumin, egg albumin, trypsin inhibitor, and lysozyme did not. Adipose tissue from pregnant and lactating bovines was sensitive to insulin and growth hormone, and growth hormone may modulate activity of an insulin-specific protease.
...
PMID:Growth hormone alters metabolic effects and proteolysis of insulin in adipose tissue during lactation. 157 Mar 58

We previously reported on the degradation of monocomponent porcine insulin by affinity-purified pig skeletal muscle insulin-degrading enzyme (IDE) and on the detection and HPLC separation of the initial degradation product (peak VI). Using relatively high concentration of insulin, peak VI appeared rapidly at 30 sec of incubation, whereas other peaks were not detected within 5 min of incubation. Performate oxidation studies suggested that peak VI is composed of a cleaved A-chain and an intact B-chain. To assess whether the initial degradation product of insulin generated by IDE preserves biological properties, we analyzed several insulin-like activities of peak VI. It had a hypoglycemic effect on rats. In vitro, it bound to the insulin receptors of rat adipocytes and stimulated glucose oxidation there. It also strengthened insulin receptor kinase activity in insulin receptors from rat liver and human placenta. Its biological potency, however, was 1/40th to 1/160th that of insulin itself. This is probably due to reduced affinity for the insulin receptor, since it had 2.5% of insulin's ability to both bind to the receptor and stimulate glucose oxidation. Moreover, peak VI had all of insulin's agonistic effect on glucose oxidation when used at a higher concentration. On the other hand, cross-linking analysis suggested that peak VI preserves almost the same affinity for IDE as does insulin. These results suggest that pig skeletal muscle IDE may cleave peptide bonds within the A-chain early in insulin degradation, generating peak VI; this then serves as the next substrate of IDE while exerting reduced insulin-like activity, and peak VI is converted to several relatively low mol wt products.
...
PMID:Biological properties of an initial degradation product of insulin by insulin-degrading enzyme. 264 22

We previously reported on the detection and HPLC separation of the initial degradation product (peak VI) of native insulin from the reaction of monocomponent porcine insulin with affinity-purified pig skeletal muscle insulin-degrading enzyme (IDE). In the present study, we investigated the biological characteristics of the initial degradation product. Structural analysis of peak VI by amino acid composition and glucose oxidation revealed that peak VI was composed of intact B-chain and a fragment of A-chain. In vivo, peak VI exhibited a hypoglycemic effect on rats. In vitro, this peptide had the binding capacity to insulin receptor of rat adipocytes and the ability to stimulate the glucose oxidation on rat adipocytes and the activity of insulin receptor kinase. However, the biological potencies of peak VI were 1/40 to 1/160 of those of insulin proper. Its reduced biological potencies were probably due to a decrease of affinity for insulin receptor, because both biological potencies of peak VI to bind to insulin receptor and to stimulate the glucose oxidation were 2.5% of insulin. Moreover peak VI showed the same full agonistic effect as insulin on the glucose oxidation at higher concentration. On the other hand, a cross-linking study suggested that peak VI preserves almost the same affinity to IDE as insulin. These findings may indicate the possibility that pig skeletal muscle IDE cleaves peptide bonds within A-chain at an early step of degradation of native porcine insulin and generates peak VI, which is the next substrate to insulin for IDE and keeps reduced insulin-like biological potencies, and then peak VI is converted into several relatively low molecular weight products.
...
PMID:[Biochemical characteristics of an initial degradation product of insulin by insulin-degrading enzyme]. 285 64

The effect of age and of prolonged caloric restriction on glucose tolerance and insulin responsiveness has been studied in male Fischer 344 rats. Beginning at 1 month of age dietary intake of an experimental group (R) was limited to 60% of that of the control group (AL) which was allowed to eat ad libitum. Studies were carried out at intervals up to 24 months of age. In AL rats the oral glucose tolerance curve showed progressively higher peak levels of plasma glucose with age, and a decrease in the plasma insulin concentration at the time of the glucose peak. The R group did not show the increase in peak value with age and the corresponding insulin concentration was lower than that of the AL group. These results are compatible with a delay in the first phase of insulin secretion in aging AL rats. Insulin-stimulated glucose disposal was assessed by the method of Reaven et al. [Diabetes, 32 (1983) 175], at ages 4, 12, 18 and 24 months; using infusions of 2 mU of insulin and 1 mg of glucose/min per kg, the steady-state plasma glucose level (SSPG) was slightly lower in R than in AL rats, while the steady-state plasma insulin level was reduced by 40-60%. In rats aged 18-24 months the hepatic glucose output, measured with [3-3H]glucose, was the same for AL and R rats in the basal state and was reduced to the same extent by insulin. In the presence of epinephrine and propranolol, infusion of glucose and insulin at various rates demonstrated that the plasma glucose clearance rate increased linearly with increasing SSPI, and at comparable SSPI levels was lower in R than in AL rats. The ability of insulin to stimulate glycogenesis from glucose was measured in primary hepatocyte cultures. Insulin increased glycogenesis 3-fold in cells from AL rats and 4-6-fold in cells from R rats. There was no effect of age. The increased insulin responsiveness of R rats was not due to an increase in insulin binding or to a decrease in insulin degradation (measured with intact cells or as cytosolic insulinase activity).(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Effect of diet restriction on glucose metabolism and insulin responsiveness in aging rats. 306 1

An original method was used for a study of blood insulinase activity in patients with type I (insulin-dependent) diabetes mellitus which was decreased as compared to that in healthy persons and in persons with disturbed glucose tolerance. A GTT caused no significant variations of this index. Relations between lowered blood capability to degenerate insulin in diabetes mellitus and a rise of antiinsulinase activity of the plasma with preserved normal insulinase activity of erythrocytic hemolysate were established.
...
PMID:[Blood insulinase activity in patients with diabetes mellitus]. 332 77

Clearance of exogenous insulin measured in perfused livers from rats fed ad lib or fasted X 24 or X 48 h was correlated with changes in activity and distribution of the insulin-degrading enzyme glutathione-insulin transhydrogenase measured in microsome fractions, post-perfusion. For comparison with endogenous insulin removal (Endocr. Res. Commun. 7: 231, 1980), a single-pass perfusion mode was used and clearance of insulin at levels (less than or equal to 15 ng/ml) typically observed in perfused rat liver-pancreases during glucose stimulation was studied. Similar to the endogenous data, exogenous insulin removal followed an ogival pattern during fasting. In the fed state, clearance was relatively low, corresponding to a hepatic extraction of approximately 29%. Insulin extraction increased nearly 2-fold after a 24 h fast to approximately 48% (p less than .01), declining to approximately 30% (p less than .025) when fasting was prolonged (X 48 h). At portal insulin concentrations greater than 8 ng/ml (approximately 200 microUnits/ml), clearance tended to decrease in all 3 nutritional states, with apparent saturation of the insulin capturing mechanism being strongest in the 24 h fasted state. In conjunction with these changes in whole organ insulin removal, GSH-insulin transhydrogenase nonlatency, viz., nonlatent activity in intact microsomes relative to total activity in disrupted microsomes, did not change during the first 24 h of fasting; whereas the proportion of nonlatent activity was significantly decreased (p less than .01) after 48 h. Homogenate activity remained essentially constant during the initial fasting period, and declined by approximately 16% (p less than .01) after 48 h of fasting.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Insulin clearance and microsomal glutathione-insulin transhydrogenase in perfused livers of fed and fasted rats. 332 20

A method has been described for the direct measurement of proinsulin in human plasma. The method makes use of an insulin-degrading enzyme designated "insulin-specific protease (ISP)", which is obtained from rat skeletal muscle. Under the conditions used, this enzyme rapidly degrades insulin and insulin-like polypeptides to nonimmunoassayable components, whereas proinsulin and proinsulin cleaved at position B(54,55) are not appreciably affected. The incubation of plasma with ISP results in the disappearance of insulin, but not proinsulin, as demonstrated by column chromatography. Immunoassay of the plasma, therefore, before and after incubation, determines the values for the total immunoreactive substance (TIR) and for immunoreactive proinsulin (IRP), respectively. The values obtained for proinsulin levels are reproducible and compare closely with the more complicated column fractionation methods. Proinsulin responses were studied in four normal subjects and one patient with an insulinoma after a glucose load. Fasting proinsulin levels varied widely in the normal subjects, and the levels rose more slowly than TIR levels after glucose. IRP levels in the patient with an insulinoma were very high and fell to normal after removal of the tumor. The ISP method, therefore, appears to be suitable for the direct, accurate, and rapid determination of proinsulin and proinsulin-like materials in human plasma.
...
PMID:Direct measurement of proinsulin in human plasma by the use of an insulin-degrading enzyme. 432 76

1 2 3 4 5 6 7 8 Next >>