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Impaired phosphorylation and insulin-stimulated translocation to the plasma membrane of protein kinase B/Akt in adipocytes from Type II diabetic subjects (2000)

Carvalho, E. ; Eliasson, B. ; Wesslau, C. ; [et al.]

Springer

Diabetologia 43 (2000), S. 1107-1115

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ISSN: 1432-0428

Keywords: Keywords PKB/Akt ; PI3-kinase ; insulin action ; Type II diabetes ; GLUT-4.

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Aims/hypothesis. To examine protein kinase B/Akt distribution and phosphorylation in response to insulin in different subcellular fractions of human fat cells from healthy subjects and subjects with Type II (non-insulin-dependent) diabetes mellitus. Methods. We prepared subcellular fractions of plasma membranes (PM), low density microsomes and cytosol and examined gene and protein expression as well as serine and threonine phosphorylation in response to insulin. Results. Protein kinase B/Akt mRNA as well as total protein kinase B/Akt protein in whole-cell lysate and cytosol were similar in both groups. Insulin increased protein kinase B/Akt translocation to the the plasma membrane about twofold [(p 〈 0.03) in non-diabetic cells but this effect was impaired in diabetic cells (∼ 30 %; p 〉 0.1)]. In both groups, protein kinase B/Akt threonine phosphorylation considerably increased in low density microsomes and cytosol whereas serine phosphorylation was predominant in the plasma membrane. Phosphatidylinositol-dependent kinase 1, which partially activates and phosphorylates protein kinase B/Akt on the specific threonine site, was predominant in cytosol but it was also recovered in low density microsomes. Serine phosphorylation in response to insulin was considerably reduced (50–70 %; p 〈 0.05) in diabetic cells but threonine phosphorylation was less reduced (∼ 20 %). Wortmannin inhibited these effects of insulin supporting a role for PI3-kinase activation. Conclusion/interpretation. Insulin stimulates a differential subcellular pattern of phosphorylation of protein kinase B/Akt. Furthermore, insulin-stimulated translocation of protein kinase B/Akt to the plasma membrane, where serine phosphorylation and full activation occurs, is impaired in Type II diabetes. Threonine phosphorylation was much less reduced. This discrepancy may be related to differential activation of phosphatidylinositol 3-kinase in the different subcellular compartments and phosphatidylinositol-dependent kinase 1 having high affinity for phosphatidylinositol phosphate 3. [Diabetologia (2000) 43: 1107–1115]

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001250051501

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Insulin resistance in Type 1 (insulin-dependent) diabetes following hypoglycaemia — evidence for the importance of β-adrenergic stimulation (1987)

Attvall, S. ; Fowelin, J. ; Schenck, H. ; [et al.]

Springer

Diabetologia 30 (1987), S. 691-697

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ISSN: 1432-0428

Keywords: Hypoglycaemia ; insulin resistance ; Type 1 (insulin-dependent) diabetes ; propranolol

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The insulin effect, evaluated with the euglycaemic clamp technique, was studied before and after hypoglycaemia in 7 patients with Type 1 (insulin-dependent) diabetes. Following an initial 2 h clamp (clamp I) hypoglycaemia was induced and 2 h later a second clamp (clamp II), identical to the former, was performed. Each subject was studied twice; during infusion with saline (placebo) or propranolol. Glucose production and disposal were studied with the 3(3H)glucose technique. During placebo infusion, hypoglycaemia elicited an insulin resistance leading to approx. 50% reduction in the steady state glucose infusion rate during clamp II as compared to clamp I (clamp I 2.58±0.32, clamp II 1.26±0.08 mg·kg−1·min−1, p〈0.02). The insulin resistance was prevented by infusing propranolol (clamp I 2.29±0.29, clamp II 2.85±0.56 mg·kg−1·min−1). The posthypoglycaemic insulin resistance was due to a less pronounced insulin effect on both glucose production (clamp I 0.29±0.21, clamp II 0.86±0.19 mg·kg−1·min−1, p〈0.05) and glucose utilisation (clamp I 2.84±0.26, clamp II 2.13±0.23 mg·kg−1·min−1, p〈0.05). The insulin resistance on both glucose production and utilisation was prevented by propranolol. Thus, the present study demonstrates that hypoglycaemia elicits a prolonged insulin resistance which is due to a less pronounced effect of insulin to both inhibit splanchnic glucose production and to stimulate peripheral glucose utilisation. The insulin resistance is due to β-adrenergic stimulation and can be prevented by propranolol.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00296990

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Characterization of the insulin-antagonistic effect of growth hormone in man (1991)

Fowelin, J. ; Attvall, S. ; Schenck, H. ; [et al.]

Springer

Diabetologia 34 (1991), S. 500-506

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ISSN: 1432-0428

Keywords: Growth hormone ; insulin resistance ; glucose production ; glucose utilization ; dose response effect

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The insulin-antagonistic effect of growth hormone was characterized by infusing the hormone at three different infusion rates (6, 12 or 24 mU·kg−1·min−1) for one h in 11 healthy subjects. The insulin effect was measured with the euglycaemic clamp technique combined with D-(3-3H)-glucose infusion to evaluate glucose production and utilization. A control study with NaCl (154 mmol·l−1) infusion was also performed. The insulin levels during the clamps were similar in all studies (36±0.2 mU·l−1). Peak growth hormone levels were reached at 60 min (growth hormone 6mU·kg−1·h−1: 31±5; growth hormone 12 mU·kg−1·h−1: 52±4 and growth hormone 24 mU·kg−1·h−1: 102±8mU·l−1). The insulin-antagonistic effect of growth hormone started after ∼2 h, was maximal after 4–5 h (∼39% inhibition of glucose infusion rate between control and growth hormone 24 mU·kg−1·h−1) and lasted for 6–7 h after peak levels. The resistance was due to a less pronounced insulin effect both to inhibit glucose production and to stimulate glucose utilization. Growth hormone infusion of 12 mU·kg−1·h−1 induced a similar insulin-antagonistic effect as the higher infusion rate whereas 6 mU·kg−1·h−1 induced a smaller response with a duration of 1 h between 3–4 h after peak levels of growth hormone. The present study demonstrates that growth hormone levels similar to those frequently seen in Type 1 (insulin-dependent) diabetic patients during poor metabolic control or hypoglycaemia, have pronounced insulin-antagonistic effects. The effects starts after about 2–3 h, is maximal after 4–5 h and lasts for about 6–7 h. Both duration and inhibitory effect of growth hormone are related to the plasma levels, where a maximal effect is seen at about 50 mU·l−1 or higher.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00403286

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Vanadate increases cell surface insulin binding and improves insulin sensitivity in both normal and insulin-resistant rat adipocytes (1992)

Eriksson, J. W. ; Lönnroth, P. ; Smith, U.

Springer

Diabetologia 35 (1992), S. 510-516

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ISSN: 1432-0428

Keywords: Vanadate ; insulin receptor ; insulin binding ; glucose transport ; insulin sensitivity ; tyrosine kinase activity

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The aim of this study was to elucidate the acute effects of vanadate on cell surface insulin binding and insulin sensitivity in rat adipocytes. The cells were preincubated at 37° for 20 min followed by energy depletion with potassium cyanide, extensive washing and 125I-insulin binding. The presence of vanadate or insulin during the preincubation period dose-dependently enhanced 125I-insulin binding to normal adipocytes (maximally 4–5-fold) through an increased number of binding sites without any change in receptor affinity. Submaximal concentrations of vanadate added together with insulin enhanced the cellular sensitivity to the effect of insulin to stimulate 3-O-methylglucose transport. Vanadate, but not insulin, was also capable of increasing insulin binding as well as insulin sensitivity in insulin-resistant cells (treatment with N6-monobutyryl cAMP or amiloride and adipocytes from obese, aging rats). There was a correlation between the effect of vanadate to augment insulin binding and its ability to enhance cellular insulin sensitivity. Thus, the data suggest that short-term vanadate treatment improves insulin sensitivity through enhanced receptor binding and that this occurs in both normal and insulin-resistant cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00400477

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Impaired glucose transport and protein kinase B activation by insulin, but not okadaic acid, in adipocytes from subjects with Type II diabetes mellitus (1999)

Rondinone, C. M. ; Carvalho, E. ; Wesslau, C. ; [et al.]

Springer

Diabetologia 42 (1999), S. 819-825

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ISSN: 1432-0428

Keywords: Keywords PKB ; insulin ; okadaic acid ; Type II diabetes ; glucose transport.

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Aims/hypothesis. To study the effects of insulin and okadaic acid, a serine/threonine phosphatase inhibitor which does not increase PI3-kinase activity, on the rate of glucose transport and protein kinase B activation in adipocytes from healthy subjects and subjects with Type II (non-insulin-dependent) diabetes mellitus. Methods. Adipocytes were incubated with or without insulin or okadaic acid or both and glucose transport, protein kinase B activity, phosphorylation and protein expression measured. Results. Insulin and okadaic acid alone increased glucose uptake to a similar degree in adipocytes from healthy subjects and, when combined, exerted a partial additive effect. The effect of insulin was reduced by about 60 % in adipocytes from Type II diabetic patients, whereas the effect of okadaic acid was essentially unchanged and no further increase was seen when okadaic acid and insulin were combined. Okadaic acid increased protein kinase B activity to a greater extent (two to threefold) than insulin but only slightly increased the serine phosphorylation of protein kinase B. Adipocytes from Type II diabetic subjects exhibited both an impaired sensitivity as well as a reduced total serine phosphorylation and activation of protein kinase B in response to insulin but protein kinase B activity in response to okadaic acid was intact. Conclusion/interpretation. These results show that the ability of insulin to increase glucose transport and activate protein kinase B is reduced in fat cells from Type II diabetic subjects. Protein kinase B can, however, be activated by agents like okadaic acid which bypass the upstream defects in the insulin signalling pathway in Type II diabetic cells and, thus, increase glucose uptake. [Diabetologia (1999) 42: 819–825]

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001250051232

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The effects of physical training on insulin secretion and effectiveness and on glucose metabolism in obesity and Type 2 (non-insulin-dependent) diabetes mellitus (1985)

Krotkiewski, M. ; Lönnroth, P. ; Mandroukas, K. ; [et al.]

Springer

Diabetologia 28 (1985), S. 881-890

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ISSN: 1432-0428

Keywords: Type 2 diabetes ; obesity ; physical training ; glucose tolerance ; insulin ; C-peptide ; glucose clamp ; insulin binding ; adipocytes

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Obese subjects with normal glucose tolerance (n=55), and, in another study, a group of patients with Type 2 (non-insulin-dependent) diabetes (n=33), and controls (n=13) matched for body weight and age but with normal glucose tolerance, participated in an individualized physical training program for 3 months. Under controlled dietary conditions, metabolic studies were performed before and in steady state after the last exercise session after training in the subjects showing signs of physical training in VO2 max and heart rate measurements. No changes occurred in body weight, body cell mass, body fat or adipose tissue cellularity. Oral glucose tolerance was improved in the patients with diabetes mellitus only. In both diabetic and control subjects initially elevated C-peptide concentrations decreased, while low C-peptide values increased and which was particularly pronounced in diabetic subjects with subnormal values. Peripheral insulin values did not change. Glucose disposal rate measured with the glucose clamp technique was similar in diabetic patients and control subjects. An improvement was seen at both submaximal and maximal insulin levels in both groups, correlating with improvement in glucose tolerance in the diabetic subjects. No changes were found in adipocytes in insulin binding or the antilipolytic effect of insulin at submaximal insulin levels, but there was a normalization of a decreased glucose incorporation into triglycerides. These results indicate that both insulin secretion and effectiveness are altered by physical training in different ways in different clinical entities. They suggest that in insulin resistant conditions with high insulin secretion (as indicated by high C-peptide concentrations) the increased peripheral insulin sensitivity is followed by a decreased insulin secretion. This is not associated with an improvement of glucose tolerance. In Type 2 diabetes with low insulin secretion, an increased insulin secretion results from physical training, perhaps due to accompanying sensitization of the autonomic nervous system. Peripheral insulin concentrations are not altered, suggesting that the extra insulin produced is captured by the liver. This mechanism, as well as the improved peripheral insulin responsiveness seen in the whole body and also seen at the cellular level, probably both contribute to an improvement in glucose tolerance.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00703130

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