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Glucose, insulin stimulated transport

Much of the glucose not taken up by liver and muscle is taken up by adipocytes under the influence of insulin-stimulated transport of glucose into the cell. Esterification of fatty acids for storage as triacylglycerols is dependent on the availability of... [Pg.499]

The absorption of sulfonylureas from the upper gastrointestinal tract is faidy rapid and complete. The agents are transported in the blood as protein-bound complexes. As they are released from protein-binding sites, the free (unbound) form becomes available for diffusion into tissues and to sites of action. Specific receptors are present on pancreatic islet P-ceU surfaces which bind sulfonylureas with high affinity. Binding of sulfonylureas to these receptors appears to be coupled to an ATP-sensitive channel to stimulate insulin secretion. These agents may also potentiate insulin-stimulated glucose transport in adipose tissue and skeletal muscle. [Pg.341]

Insulin stimulates lipogenesis by several other mechanisms as well as by increasing acetyl-CoA carboxylase activity. It increases the transport of glucose into the cell (eg, in adipose tissue), increasing the availability of both pyruvate for fatty acid synthesis and glycerol 3-phosphate for esterification of the newly formed fatty acids, and also converts the inactive form of pyruvate dehydrogenase to the active form in adipose tissue but not in liver. Insulin also—by its ability to depress the level of intracellular cAMP—inhibits lipolysis in adipose tissue and thereby reduces the concentration of... [Pg.178]

Carayannopoulos, M. O., et al. GLUT8 is a glucose transporter responsible for insulin-stimulated glucose uptake in the blastocyst. Proc. Natl. Acad. Sci. U. S. A. 2000, 97, 7313-7318. [Pg.282]

Cheatham, B., Vlahos, C. J., Cheatham, L., Wang, L., Blenis, J., and Kahn, C. R. (1994). Phosphatidylinositol 3-kinase activation is required for insulin stimulation of pp70 S6 kinase, DNA synthesis, and glucose transporter translocation. Mol. Cell. Biol. 14, 4902-4911. [Pg.172]

Figure 12.18 Sites at which insulin stimulates glycogen synthesis in muscle. An increase in the blood glucose level, after a meal, increases secretion of insulin from the p-cells in the Islets of Langerhans. Insulin increases the transport of glucose into the muscle fibre and the activity of glycogen synthase (Chapter 6). The result is that insulin increases the rate of glycogen synthesis without marked changes in concentrations of glucose 6-phos-phate, glucose 1-phosphate or UDP-glucose in the liver. Figure 12.18 Sites at which insulin stimulates glycogen synthesis in muscle. An increase in the blood glucose level, after a meal, increases secretion of insulin from the p-cells in the Islets of Langerhans. Insulin increases the transport of glucose into the muscle fibre and the activity of glycogen synthase (Chapter 6). The result is that insulin increases the rate of glycogen synthesis without marked changes in concentrations of glucose 6-phos-phate, glucose 1-phosphate or UDP-glucose in the liver.
A. R. Saltiel, J. A. Fox, P. SherUne, P. Cuatrecasas (1986). Insulin-stimulated hydrolysis of a novel glycoUpid generates modulators of cAMP phosphodiesterase. Science 233 967-972. P. R. Shepherd, B. B. Kahn (1999). Glucose transporters and insulin action—implications for insulin resistance and diabetes melUtns. N. Eng. J. Med. 341 248. [Pg.384]

D. Insulin stimulates the transport of glucose into hepatocytes. [Pg.334]

The uptake of glucose by brain, liver, kidneys, erythrocytes, and the islets of Langerhans is unaffected by insulin. However, in muscle and adipose tissues insulin stimulates glucose uptake. Part of this effect results from insulin-induced translocation of molecules of the 509-residue glucose transport protein GLUT4 (Chapter 8) from the cytosol into the plasma membrane where it can function.354-3563 Insulin apparently also increases the rate of synthesis of the transporters. [Pg.568]

In one study, troglitazone increased body weight, adipocyte size, leptin concentrations, GLUT4 protein expression, basal and insulin-stimulated glucose transport, and insulin-stimulated whole-body glucose disposal rate (73). [Pg.463]

Simulation of glucose transport and glucose transporter translocation from intracellular stores to the plasma membrane in muscle cells by vanadate and peroxovan-adate involve a mechanism independent of PI-3K and protein kinase C systems utilized for stimulation of these processes by insulin. The transport of GLUT4 to the plasma membrane in muscle cells growing in culture after stimulation by vanadate, peroxovanadate, or insulin all require an intact actin network [138], Sometimes, the insulin-like action of vanadium is accompanied by overall stimulation of actual metabolic pathways. One example of this is the stimulation of the pentose phosphate pathway observed when vanadate promotes the incorporation of glucose into lipids, an antilipogenic effect [139],... [Pg.188]

Sweeney, G., Keen, J., Somwar, R., Konrad, D., Garg, R., and Klip, A. 2001. High leptin levels acutely inhibit insulin-stimulated glucose uptake without affecting glucose transporter 4 translocation in 16 rat skeletal muscle cells. Endocrinology 142 4806-4812. [Pg.394]

A group of receptors exists that responds to so-called growth factors such as insulin, epidermal growth factor, platelet-derived growth factor, etc. These receptors have an extracellular domain that binds the growth factor and an intracellular domain that possesses latent kinase activity. The interaction of insulin, for example, results in autophosphorylation of the intracellular domain and subsequent internalization of the insulin-receptor complex. The internalized complex now possesses the properties of a tyrosine kinase and can phosphorylate cell substrates that produce the appropriate intracellular effect. However, these kinases differ from the usual protein kinases in that they phosphorylate proteins exclusively on tyrosine hydroxyl residues. The ensemble of proteins phosphorylated by the insulin receptor has not yet been identified, but there is supportive evidence that tyrosine kinase activity is required for the major actions of insulin. For example, it is possible that a membrane-linked glucose transport system becomes activated following insulin-stimulated phosphorylation. [Pg.85]

It has been well-documented that insulin stimulates glucose transport in adipocytes by increasing the Vmax for the reaction rather than by exerting any dramatic effect on the Km for this process. This action is rapid and reversible and is not due to the biosynthesis of new carrier molecules [28,38]. [Pg.328]

Insulin is an antilipolytic hormone, and its effect on adipose tissue is to increase the transport of glucose into the fat cell, to stimulate lipogenesis and inhibit lipolysis. Thus, pyruvate dehydrogenase and acetyl-CoA carboxylase are activated, and the hormone-sensitive lipase is inactivated. In the normal, well-fed state insulin stimulates the deposition of fat. [Pg.394]

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See also in sourсe #XX -- [ Pg.280 , Pg.287 ]



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