This proposal is intended to contribute to an understanding of the intracellular transduction of the insulin signal and the regulation of cellular metabolism in general. A comprehension of insulin action is necessary to develop new methods of diagnosing and treating diabetes mellitus. The general aims of the study are to characterize the interactions among the insulin receptor, casein kinase II (a multipoten- tial serine/threonine kinase) and calmodulin. Calmodulin, an intracel- lular mediator of Ca 2+ signals, is phosphorylated in vitro by both the insulin receptor kinase and casein kinase II and recent evidence suggests that casein kinase II is involved in the cellular mechanism of insulin action. It is my hypothesis that the phosphorylation of calmodulin by casein kinase II and the insulin receptor kinase represents an important point of cross-talk between the two signalling pathways. The proposed studies include the following specific aims: 1) Characterization of calmodulin phosphorylation in intact cells and the effects of insulin and casein kinase II on this process; 2) Investigation of the physiological consequences of calmodulin phosphorylation; Together these studies should provide definitive information on the role of calmodulin and casein kinase II in insulin action and also add to our knowledge of the intracellular transduction of the insulin signal; 3) Investigation of the alteration of substrate specificity of the insulin receptor produced by calmodulin prephosphorylated by casein kinase II. This includes investigating the altered interaction between phosphocalmodulin and the insulin receptor and characterizing the receptor associated, insulin-- stimulated serine/threonine kinase; and 4) Characterization of the sequential phosphorylation of calmodulin by casein kinase II and the insulin receptor in vitro. The influence of multiple sites of phosphorylation on each other and the effect of other growth factors will also be examined.

Agency
National Institute of Health (NIH)
Institute
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Type
Research Project (R01)
Project #
5R01DK043682-02
Application #
3245083
Study Section
Metabolism Study Section (MET)
Project Start
1992-09-30
Project End
1995-09-29
Budget Start
1993-09-30
Budget End
1994-09-29
Support Year
2
Fiscal Year
1993
Total Cost
Indirect Cost
Name
Brigham and Women's Hospital
Department
Type
DUNS #
071723621
City
Boston
State
MA
Country
United States
Zip Code
02115
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Joyal, J L; Crimmins, D L; Thoma, R S et al. (1996) Identification of insulin-stimulated phosphorylation sites on calmodulin. Biochemistry 35:6267-75
Sacks, D B; Lopez, M M; Li, Z et al. (1996) Analysis of phosphorylation and mutation of tyrosine residues of calmodulin on its activation of the erythrocyte Ca(2+)-transporting ATPase. Eur J Biochem 239:98-104
Benguria, A; Soriano, M; Joyal, J L et al. (1995) Phosphorylation of calmodulin by plasma-membrane-associated protein kinase(s). Eur J Biochem 234:50-8
Joyal, J L; Sacks, D B (1994) Insulin-dependent phosphorylation of calmodulin in rat hepatocytes. J Biol Chem 269:30039-48
Sugawara, A; Yen, P M; Apriletti, J W et al. (1994) Phosphorylation selectively increases triiodothyronine receptor homodimer binding to DNA. J Biol Chem 269:433-7
Sacks, D B (1994) Alteration of calmodulin-protein interactions by a monoclonal antibody to calmodulin. Biochim Biophys Acta 1206:120-8
Benguria, A; Hernandez-Perera, O; Martinez-Pastor, M T et al. (1994) Phosphorylation of calmodulin by the epidermal-growth-factor-receptor tyrosine kinase. Eur J Biochem 224:909-16
Williams, J P; Jo, H; Sacks, D B et al. (1994) Tyrosine-phosphorylated calmodulin has reduced biological activity. Arch Biochem Biophys 315:119-26
Benjamin, R J; Sacks, D B (1994) Glycated protein update: implications of recent studies, including the diabetes control and complications trial. Clin Chem 40:683-7

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