Serum insulin,insulin antibodies and insulin requirement in the first period of insulin treatment in non-insulin resistant diabetics

Summary Twelve insulin-sensitive diabetics were studied for 200 days after the initiation of mixed beef-pork NPH insulin. Normalization of the fasting blood glucose was not accompanied by any elevation in the pre-treatment fasting immunoreactive insulin level. Insulin antibodies appeared in 2 patients on the second week of insulin treatment, in 6 others within 87 days. In 4 patients no antibodies were found 200 days after the start of insulin. The appearance of antibodies was accompanied in two patients by a decrease in insulin requirement, in others there was no change. When antibodies were present, the total maximum insulin binding capacity was 4 to 12 U/1, but the total insulin constituted only 3 to 36% of the binding capacity. Insulin wastage caused by the destruction of the immune complexes was calculated to be 0.35 to 5.6 U/die only, and this explains the negligible effect of insulin antibodies on insulin requirement in non-resistant patients. Presented at the 10th Annual Meeting of the European Association for the Study of Diabetes in Jerusalem, September 11–13, 1974.     

ATP sensitizes the insulin receptor to insulin

Insulin receptor with high insulin binding and tyrosine kinase activities has been prepared from human placenta. Based on a molecular mass of 306 kDa for the receptor (the value obtained from the sum of the amino acid residues), this preparation is capable of binding 1.48 mol of insulin per mol of receptor. The receptor is free from phosphatase and ATPase activity and is not stimulated by sodium vanadate. Autophosphorylation is linear with respect to receptor concentration, and the 32P incorporated is stable even in the presence of a 100-fold excess of unlabeled ATP. The Km for ATP is 208 microM. N-Ethylmaleimide inhibits autophosphorylation. Alkylation with 3H-labeled N-ethylmaleimide results in the incorporation of 1.13 +/- 0.37 mol of N-ethylmaleimide per mol of insulin binding activity exclusively into the beta subunit of the receptor. The nonhydrolyzable ATP analog adenosine 5'-[beta,gamma-imido]triphosphate stimulates autophosphorylation of the receptor, an effect that is evident at ATP concentrations below 1 mM. The stimulatory effect of adenosine 5'-[beta,gamma-imido]triphosphate is the result of increasing the binding of insulin to the alpha subunit, and this reflects itself in a shift to the left of the insulin dose-response curve for autophosphorylation. The same is true for ATP. As a consequence, it is now possible to reconcile the concentration of insulin necessary for stimulating the autophosphorylation reaction with physiological levels and with the levels of insulin required for its classical biological effects.     

造化钟神秀,百年铸辉煌--胰岛素百年回顾

胰岛素的发现是生物医学历史上的大事,具有深远的意义。2021年是发现胰岛素100周年,发现胰岛素受体50周年。笔者介绍胰岛素的发现历史,并简要回顾了百年来有关胰岛素化学本质、结构分析、化学合成、测定、制剂演变、生物合成和加工处理、作用机制的研究历程。     

Effect of intensive insulin therapy on insulin sensitivity in the critically ill

CONTEXT: Hyperglycemia and hyperinsulinemia are common in intensive care unit (ICU) patients and relate to illness severity. Intensive insulin therapy (IIT) to maintain normoglycemia reduces morbidity and mortality. Blood glucose control explains this benefit because a high insulin dose is associated with adverse outcome. Mitogenic insulin effects could theoretically explain this link. OBJECTIVE: To investigate further the association between insulin dose and adverse outcome, we studied the effect of IIT on circulating insulin levels, markers of insulin sensitivity, and the metabolic and mitogenic insulin signaling molecules in key tissues. DESIGN: This is a subanalysis of a large randomized, controlled study. SETTING: The study was performed in a university hospital surgical ICU. PATIENTS: A total of 339 critically ill patients, treated in ICU for at least a week, were included in this subanalysis. INTERVENTION: Strict normoglycemia with IIT compared with conventional insulin therapy was performed. RESULTS: Severalfold higher insulin doses than with conventional insulin therapy were required to maintain normoglycemia with IIT. However, serum insulin levels were only transiently higher with IIT, despite the much lower blood glucose levels. IIT normalized the elevated serum C-peptide levels and increased circulating adiponectin levels. The metabolic insulin signal was increased by IIT in muscle, but not in liver. The mitogenic insulin signal in either tissue was not affected by IIT. CONCLUSIONS: Normoglycemia can be maintained in ICU patients without a sustained further elevation of insulinemia. Together with the increased adiponectin levels, this finding suggests that IIT may improve insulin sensitivity. Skeletal muscle, but not liver, revealed an increased metabolic insulin signal. The therapy did not impose mitogenic risk in these tissues.     

Hepatic and peripheral insulin resistance following streptozotocin-induced insulin deficiency in the dog

Insulin resistance and insulin deficiency are both present in many patients with diabetes mellitus. We tested the hypothesis that insulin resistance can evolve from a primary lesion of the beta-cell secretory function. Insulin-mediated glucose uptake (insulin clamp), endogenous glucose production, and glucose-stimulated insulin secretion (hyperglycemic clamp) were measured in awake dogs before and four to six weeks after streptozotocin-induced diabetes mellitus. Streptozotocin (30 mg/kg) resulted in a significant rise in the mean fasting plasma glucose concentration from 104 +/- 2 mg/100 mL to 200 +/- 34 mg/100 mL, (P less than 0.05), and a slight decrease in the mean fasting plasma insulin concentration (from 21 +/- 2 microU/mL to 15 +/- 2 microU/mL). Under conditions of steady-state hyperglycemia (+75 mg/100 mL hyperglycemic clamp, insulin secretion was reduced by 75% in the streptozotocin-treated dogs (P less than 0.025), and the total amount of glucose metabolized decreased from 13.56 +/- 1.04 to 4.74 +/- 0.70 mg/min X kg (P less than 0.001). In the postabsorptive state, endogenous glucose production was slightly, although not significantly, higher in the diabetic dogs (3.05 +/- 0.46 v 2.51 +/- 0.22 mg/min . kg), while the glucose clearance rate was 35% lower (P less than 0.001). When the plasma insulin concentration was increased to approximately 45 microU/mL (insulin clamp) while holding plasma glucose constant at the respective fasting levels (99 +/- 1 and 186 +/- 30 mg/100 mL), endogenous glucose production was completely suppressed in control dogs but suppressed by only 51% (1.46 +/- 0.37 mg/min . kg, P less than 0.025) in diabetic animals.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effect of oral insulin on insulin autoantibody levels in the Diabetes Prevention Trial Type 1 oral insulin study

Aims/hypothesis Our aim was to evaluate insulin autoantibody (IAA) levels over time in the Diabetes Prevention Trial Type 1 (DPT-1) oral insulin study to determine the effect of oral insulin compared with placebo on IAA levels. Subjects and methods The DPT-1 trial randomised 372 relatives of subjects with type 1 diabetes, positive for IAA and with normal IVGTTs and OGTTs, to oral insulin 7.5 mg daily or placebo. Subjects were followed with IVGTTs, OGTTs and serial IAA measurements. The change in IAA level over time was modelled statistically using mixed model longitudinal data analysis with spatial exponential law for unevenly spaced data. In a separate analysis, subjects were divided into four groups by treatment and diabetes status at the end of the study. IAA levels were compared amongst the groups at randomisation, last sampling and at the maximum level. Results Longitudinal data analysis showed that treatment did not affect levels of IAA over time. After controlling for age, the IAA levels at randomisation and the last visit and the maximum values were different in the four groups. Significantly higher levels were noted in groups that developed diabetes compared with those that did not, with no significant difference by treatment group. Conclusions/interpretation This suggests that IAA levels over time were not influenced by oral insulin in subjects already positive for IAA at the start of treatment. ClinicalTrials.gov ID no.: NCT00004984. Electronic supplementary material The online version of this article (doi:) contains supplementary material, including a list of the members of the DPT-1 Study Group. This is available to authorised users.     

Influence of changes in insulin receptor binding during insulin infusions on the shape of the insulin dose-response curve for glucose disposal in man

To determine the influence of insulin infusions used in dose-response studies on monocyte insulin binding, monocyte insulin binding and glucose disposal were measured in six normal subjects before and at the end of each of four sequential 2-h insulin infusions (0.4, 1.0, 2.0, and 10 mU kg-1 min-1). Monocyte insulin binding was unaltered at the end of the first three infusions (plasma insulin, 31 +/- 2 (SEM), 77 +/- 3, and 184 +/- 10 microU/ml) but was decreased after the last infusion (plasma insulin, 1730 +/- 125 microU/ml) at 0.2 through 10.2 ng/ml insulin concentrations in the binding assay (P less than 0.01). Using a one-site model, this could be ascribed to a decrease in insulin receptor affinity (1.54 +/- 0.26 vs. 2.27 +/- 0.48 X 10(8) M-1, P less than 0.05), whereas in a two-site model this appeared to be due to a decrease in high affinity binding sites (1,868 +/- 228 vs. 2,387 +/- 207, P less than 0.02). Nevertheless, insulin receptor occupancies estimated to occur during the insulin infusions were virtually identical whether preinsulin infusion binding data (745 +/- 72, 1,383 +/- 117, 2,572 +/- 302, and 10,092 +/- 1,708) or binding data at the end of each infusion (702 +/- 56, 1,367 +/- 150, 2,383 +/- 318, and 9,158 +/- 2,023) were used to calculate occupancy. These results indicate that although monocyte insulin binding decreased during dose-response experiments using sequential infusions of insulin, due to the concentrations of insulin at which this occurs this decrease did not alter the shape of the dose-response curve relating glucose disposal to monocyte insulin receptor occupancy.     

Characterization of circulating insulin in insulin autoimmune syndrome

We examined the forms of circulating insulin in three patients with the insulin autoimmune syndrome by a method combining gel filtration and reverse phase high performance liquid chromatography (RP-HPLC). Insulin bound to circulating antibody was dissociated by molecular sieve chromatography at acid pH. The free insulin peak eluted from a Sephadex G-50 column was subsequently chromatographed on a Bio-Gel P-30 column. In all three patients, insulin coeluted with normal human insulin. However, when the partially purified insulins, obtained by gel filtration, were applied to RP-HPLC, an abnormally migrating insulin was found in two of three patients. The insulins were more hydrophobic than normal human, porcine, or bovine insulin, but were different from each other. A third patient had only a single insulin peak on RP-HPLC which corresponded to normal insulin. In contrast, the insulin from insulin-treated diabetic patients with antibodies to exogenous insulin corresponded to either porcine or bovine and normal human insulin. The antibodies in the circulation of these patients with the autoimmune syndrome were of the immunoglobulin G type and contained kappa and lambda-chains in the same proportions as antibodies in insulin-treated patients. Autoantibodies could not be distinguished from those secondary to exogenous insulin treatment on the basis of displacement of binding by human, beef, or pork insulin. These results suggest that in certain patients with the insulin autoimmune syndrome, there may be a molecular abnormality of circulating insulin. Whether this comprises a cause for the syndrome or is a result of posttranslational processing of insulin remains to be determined.     

Effect of fructose feeding on insulin secretion and insulin action in the rat

Insulin secretion and insulin action were studied in rats fed either a diet containing (as percent of calories) 66% fructose, 22% protein, and 12% fat, or standard rat chow (60% vegetable starch, 29% protein, 11% fat) for 7 days. Plasma glucose concentration following either an oral glucose or fructose load ($\text{180 mg}\text{100 g body weight}$) were slightly higher in the fructose-fed rats, and this was associated with a much greater elevation of plasma insulin concentrations. The ability of insulin to stimulate disposal of glucose load was determined during the continuous infusion of epinephrine, propranolol, glucose, and insulin. Under these conditions the steady state plasma insulin levels were the same in the two groups of rats, whereas the steady state plasma glucose levels were almost twice as high in the fructose fed rats. Thus, fructose feeding for 7 days resulted in an increase in the insulin response to an oral carbohydrate challenge, as well as to a loss of normal insulin sensitivity.