Carla Roberta de Oliveira Carvalho scite author profile

Although the pineal gland influences several physiological systems, only a few studies have investigated its role in the intermediary metabolism. In the present study, male Wistar rats, pinealectomized or sham-operated 6 wk before the experiment, were submitted to both intravenous glucose tolerance tests (IVGTT) and insulin binding as well as glucose transport assays in isolated adipocytes. The insulin receptor tyrosine kinase activity was assessed in liver and muscle. The insulin secretory response during the IVGTT was impaired, particularly in the afternoon, and the glucose transport responsiveness was 33% lower in pinealectomized rats. However, no difference was observed in the insulin receptor number of adipocytes between groups as well as in insulin-stimulated tyrosine kinase activity, indicating that the initial steps in the insulin signaling were well conserved. Conversely, a 40% reduction in adipose tissue GLUT-4 content was detected. In conclusion, pinealectomy is responsible for both impaired insulin secretion and action, emphasizing the influence of the pineal gland on glucose metabolism.

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A High Fructose Diet Affects the Early Steps of Insulin Action in Muscle and Liver of Rats

Bezerra

Ueno

Silva

et al. 2000

The Journal of Nutrition

144

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A high fructose diet induces insulin resistance in rats, although the exact molecular mechanism involved is unknown. In this study, we used immunoprecipitation and immunoblotting to examine the levels and phosphorylation status of the insulin receptor (IR) and insulin receptor substrate-1 (IRS-1), as well as the association of the IRS-1 with phosphatidylinositol 3-kinase (PI 3-kinase), and phosphotyrosine phosphatase (SHP2) in the liver and muscle of rats fed a control or high fructose diet for 28 d. There were no differences in IR and the IRS-1 protein levels in the liver and muscle of rats fed the control and high fructose diets. However, tyrosine-phosphorylation of the insulin receptor after insulin stimulation was reduced to 71 +/- 2% (P < 0.05) of control in the liver of the fructose-fed rats. In samples previously immunoprecipitated with anti-IRS-1 antibody and blotted with antiphosphotyrosine antibody, the insulin-stimulated IRS-1 phosphorylation levels in the liver and muscle of the fructose-fed group were only 70 +/- 6% (P < 0.05) and 76 +/- 5% (P < 0.05) of those of control rats, respectively. The insulin-stimulated IRS-1 association with PI 3-kinase was reduced to 84 +/- 3% (P < 0.05) in the liver and to 84 +/- 4% (P < 0.05) in the muscle of the fructose-fed group compared with control rats. Insulin-stimulated IRS-1 association with SHP2 was reduced to 79 +/- 5% (P < 0.05) in liver of the fructose-fed rats. These data suggest that changes in the early steps of insulin signal transduction may have an important role in the insulin resistance observed in these rats.

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Effect of aging on insulin receptor, insulin receptor substrate-1, and phosphatidylinositol 3-kinase in liver and muscle of rats.

et al. 1996

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Insulin stimulates the tyrosine kinase activity of its receptor, resulting in the phosphorylation of its cytosolic substrate, insulin receptor substrate-1 (IRS-1), which, in turn, associates with phosphatidylinositol 3-kinase (PI 3-kinase), thereby activating the latter. Aging is associated with insulin resistance, but the exact molecular mechanism is unknown. In the present study, we examined the levels and phosphorylation status of the insulin receptor and IRS-1 as well as the association between IRS-1 and PI 3-kinase in the liver and muscle of 2-, 5-, 12-, and 20-month-old rats. There were no changes in the insulin receptor concentration in the liver and muscle of rats 2-. 5-, 12-, and 20-month rats. There were no changes in the insulin receptor concentration in the liver and muscle of rats 2-20 months old, as determined by immunoblotting using antibody to the COOH-terminus of the receptor. However, insulin stimulation of receptor autophosphorylation, as determined by immunoblotting with antiphosphotyrosine antibody was reduced by 25% (P < 0.05) in the liver and muscle of rats at 20 months. Interestingly, IRS-1 protein levels decrease at an early stage (5 months) by 58 +/- 9%, (P < 0.01) and remained at low levels thereafter in muscle, but not in liver. In samples previously immunoprecipitated with anti-IRS-1 antibody and blotted with antiphosphotyrosine antibody, there were 60 +/- 9% (P < 0.001) and 92 +/- 4% (P < 0.001) decreases in the insulin-stimulated IRS-1 association with PI 3-kinase was decreased by 70 +/- 2% in the liver and muscle, respectively, of 20-month rats. The insulin-stimulated IRS-1 association with PI 3-kinase was decreased by 70 +/- 2% in the liver (P < 0.001) and by 98 +/- 3% (P < 0.001) in the muscle of 20-month-old rats, with no change in the PI 3-kinase protein levels. The phosphotyrosine-associated PI 3-kinase activity after insulin stimulation was dramatically reduced in liver and muscle of 20-month-old rats compared to that in 2-month-old rats. Finally, by immunoprecipitation, the detection of insulin-stimulated IRS-2 phosphorylation followed the same pattern as that for IRS-1 in both liver of 2- and 20-month-old rats. These data suggest that changes in the early steps of insulin signal transduction may have an important role in the insulin resistance observed in old animals.

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Effect of Captopril, Losartan, and Bradykinin on Early Steps of Insulin Action

Carvalho

Thirone

Gontijo

et al. 1997

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Insulin initiates its metabolic and growth-promoting effects by binding to the alpha subunit of its receptor, thereby activating the kinase in the beta subunit. This event leads to tyrosyl phosphorylation of its cytosolic substrate, insulin receptor substrate 1 (IRS-1), which in turn associates with and activates phosphatidylinositol (PI) 3-kinase. The clinical use of ACE inhibitors has been associated with increased insulin sensitivity. However, the exact molecular mechanism is unknown. In the present study, we examined the phosphorylation status of the insulin receptor and IRS-1, as well as the association between IRS-1 and PI 3-kinase in the liver and muscle of 20-month-old rats treated acutely with captopril, using immunoprecipitation with antipeptide antibodies to the insulin receptor and IRS-1, and immunoblotting with antiphosphotyrosine and anti-PI 3-kinase antibodies. Insulin stimulation increased receptor autophosphorylation to 462 +/- 253% (P < 0.05) in the liver and 697 +/- 78% (P < 0.001) in the muscle of ACE inhibitor-treated rats. There were also increases to 250 +/- 17% (P < 0.001) and 280 +/- 50% (P < 0.05) in the insulin-stimulated IRS-1 phosphorylation levels in the liver and muscle, respectively, of animals treated with captopril. The insulin-stimulated IRS-1 association with PI 3-kinase rose to 305 +/- 20% (P < 0.001) in liver and 267 +/- 48% (P < 0.05) in muscle. Losartan, an ANG receptor blocker, had no significant effect on insulin-stimulated IRS-1 phosphorylation in both tissues. The acute administration of bradykinin increased insulin-stimulated tyrosine phosphorylation of the insulin receptor and IRS-1 in the liver and muscle. These data demonstrate that ACE inhibitors modulate the early steps of insulin signaling, and that this effect may be simulated by the administration of bradykinin.

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