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  • Title: Evidence that insulin plus ATP may induce a conformational change in the beta subunit of the insulin receptor without inducing receptor autophosphorylation.
    Author: Maddux BA, Goldfine ID.
    Journal: J Biol Chem; 1991 Apr 15; 266(11):6731-6. PubMed ID: 1849890.
    Abstract:
    The effect of insulin and ATP on insulin receptor beta subunit conformation was studied in vitro with radioiodinated monoclonal antibodies directed at several regions of the receptor beta subunit. Insulin plus ATP inhibited their binding to the receptor. The greatest inhibitory effect of insulin and ATP was seen with antibody 17A3 which recognizes a domain of the beta subunit that is near the major tyrosine autophosphorylation sites at residues 1158, 1162, and 1163. ATP alone inhibited 17A3 binding with a one-half maximal ATP inhibitory concentration of 186 +/- 7 microM. Insulin at concentrations as low as 100 pM potentiated the effect of ATP; at 100 nM where insulin had its maximal effect, insulin lowered the one-half maximal inhibitory concentration of ATP to 16 +/- 6 microM. At 1 mM CTP, GTP, ITP, TTP, and AMP were without effect in either the presence or absence of insulin; in contrast, ADP was inhibitory in the presence of insulin. Of major interest was adenyl-5'-yl imidodiphosphate (AMP-PNP). This nonhydrolyzable analog of ATP inhibited 17A3 binding, and the effect of AMP-PNP (like ATP) was potentiated by insulin. Two insulin receptor beta subunit mutants then were studied. Mutant receptor F3, where the major tyrosine autophosphorylation sites at residues 1158, 1162, and 1163 were changed to phenylalanines, bound to 17A3; antibody binding was inhibited by insulin and ATP in a manner similar to normal receptors. In contrast, mutant receptor M1030, where the lysine in the ATP binding site at residue 1030 was changed to methionine, bound 17A3, but unlike either normal receptors or F3 receptors, the binding of 17A3 was not inhibited by insulin and ATP. Therefore, these studies raise the possibility that, in vivo, ATP binding in the presence of insulin may induce a conformational change in the insulin receptor beta subunit which in turn signals some of the biological effects of insulin.
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