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ABSTRACT
Phosphoinositide (PI) 3-kinase contributes to a wide variety of biological actions, including insulin stimulation of glucose transport in adipocytes. Both Akt (protein kinase B), a serine-threonine kinase with a pleckstrin homology domain, and atypical isoforms of protein kinase C (PKCζ and PKCλ) have been implicated as downstream effectors of PI 3-kinase. Endogenous or transfected PKCλ in 3T3-L1 adipocytes or CHO cells has now been shown to be activated by insulin in a manner sensitive to inhibitors of PI 3-kinase (wortmannin and a dominant negative mutant of PI 3-kinase). Overexpression of kinase-deficient mutants of PKCλ (λKD or λΔNKD), achieved with the use of adenovirus-mediated gene transfer, resulted in inhibition of insulin activation of PKCλ, indicating that these mutants exert dominant negative effects. Insulin-stimulated glucose uptake and translocation of the glucose transporter GLUT4 to the plasma membrane, but not growth hormone- or hyperosmolarity-induced glucose uptake, were inhibited by λKD or λΔNKD in a dose-dependent manner. The maximal inhibition of insulin-induced glucose uptake achieved by the dominant negative mutants of PKCλ was ∼50 to 60%. These mutants did not inhibit insulin-induced activation of Akt. A PKCλ mutant that lacks the pseudosubstrate domain (λΔPD) exhibited markedly increased kinase activity relative to that of the wild-type enzyme, and expression of λΔPD in quiescent 3T3-L1 adipocytes resulted in the stimulation of glucose uptake and translocation of GLUT4 but not in the activation of Akt. Furthermore, overexpression of an Akt mutant in which the phosphorylation sites targeted by growth factors are replaced by alanine resulted in inhibition of insulin-induced activation of Akt but not of PKCλ. These results suggest that insulin-elicited signals that pass through PI 3-kinase subsequently diverge into at least two independent pathways, an Akt pathway and a PKCλ pathway, and that the latter pathway contributes, at least in part, to insulin stimulation of glucose uptake in 3T3-L1 adipocytes.
ACKNOWLEDGMENTS
This work was supported by a grant from the Ministry of Education, Science, Sports, and Culture of Japan, a Grant-in-Aid for Research for the Future Program from the Japan Society for the Promotion of Science, a grant from the Uehara Memorial Foundation, a grant for studies on the pathophysiology and complications of diabetes from Tsumura Pharma Ltd. (to M.K.), and a grant from Suzuken Memorial Foundation (to W.O.).