Anne L. Frattali scite author profile

Classical insulin and IGF-1 receptors are alpha 2 beta 2 heterotetrameric complexes synthesized from two identical alpha beta half-receptor precursors. Recent data strongly suggests, however, that nonidentical alpha beta half-receptor precursors can assemble to generate hybrid holoreceptor species both in vivo and in vitro. This review focuses primarily on two types of hybrid receptors. The first type is an insulin/IGF-1 hybrid receptor generated by the association of an alpha beta insulin half-receptor with an alpha beta IGF-1 half-receptor. The second type is one formed from a wildtype (kinase-active) insulin or IGF-1 alpha beta half-receptor and a mutant (kinase-inactive) insulin alpha beta half-receptor. Although the functional properties of insulin/IGF-1 hybrid receptors have not yet been completely defined, wildtype/mutant hybrid receptors are essentially substrate kinase inactive. These data indicate that the mutant alpha beta half-receptor exerts a transdominant inhibition upon the wildtype alpha beta half-receptor within the alpha 2 beta 2 holoreceptor complex. This defect in substrate kinase activity may contribute to the molecular defect underlying some syndromes of severe insulin resistance and diabetes. Heterozygous individuals expressing both wildtype and mutant tyrosine kinase-defective insulin receptor precursors demonstrate varying degrees of insulin resistance and diabetes. In addition, cell lines which express both endogenous wildtype and transfected kinase-defective insulin receptors display markedly decreased insulin and IGF-1 sensitivity and responsiveness. Formation of hybrid receptors which results in premature termination of insulin signal transduction may be one mechanism underlying the observation that kinase-inactive receptors inhibit the function of native receptors.

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Transmembrane signaling by the human insulin receptor kinase. Relationship between intramolecular beta subunit trans- and cis-autophosphorylation and substrate kinase activation.

Frattali

Treadway

Pessin

1992

Journal of Biological Chemistry

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Effects of mutagenesis of C912 in the streptomycin binding region of Escherichia coli 16S ribosomal RNA

Frattali

Flynn

Stasio

et al. 1990

Biochimica et Biophysica Acta (BBA) - Gene Structure and Expres

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Intramolecular subunit interactions between insulin and insulin-like growth factor 1 .alpha..beta. half-receptors induced by ligand and manganese/magnesium-ATP binding

1992

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We have previously demonstrated that isolated insulin and IGF-1 alpha beta half-receptors can be reconstituted into a functional alpha 2 beta 2 hybrid receptor complex [Treadway et al. (1989) J. Biol. Chem. 264, 21450-21453]. In the present study, we have examined this assembly process by determining the effect of ligand occupancy and Mn/MgATP binding on the dimerization of mutant and wild-type insulin and IGF-1 alpha beta half-receptors. IGF-1 or Mn/MgAMPPCP binding to wild-type IGF-1 alpha beta half-receptors resulted in the specific assembly of the alpha beta half-receptors into an alpha 2 beta 2 heterotetrameric IGF-1 holoreceptor complex. Similarly, insulin binding to the kinase-deficient mutant (A/K1018) insulin alpha beta half-receptor also resulted in the specific assembly into an alpha 2 beta 2 holoreceptor complex. In contrast, Mn/MgAMPPCP treatment of A/K1018 mutant insulin alpha beta half-receptors did not induce heterotetramer assembly, consistent with the inability of this mutant receptor to bind ATP. The ability of the insulin alpha beta receptors to assemble with the IGF-1 alpha beta half-receptors was used to examine the intermolecular subunit interactions responsible for dimerization. In the presence of Mn/MgAMPPCP, the wild-type insulin and wild-type IGF-1 alpha beta half-receptors were observed to assemble into an insulin/IGF-1 alpha 2 beta 2 hybrid receptor complex. Similarly, a combination of insulin and IGF-1 induced hybrid receptor formation between wild-type IGF-1 and A/K1018 mutant insulin alpha beta half-receptors.(ABSTRACT TRUNCATED AT 250 WORDS)

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Anne L. Frattali

Insulin/IGF‐1 hybrid receptors: Implications for the dominant‐negative phenotype in syndromes of insulin resistance

Transmembrane signaling by the human insulin receptor kinase. Relationship between intramolecular beta subunit trans- and cis-autophosphorylation and substrate kinase activation.

Effects of mutagenesis of C912 in the streptomycin binding region of Escherichia coli 16S ribosomal RNA

Intramolecular subunit interactions between insulin and insulin-like growth factor 1 .alpha..beta. half-receptors induced by ligand and manganese/magnesium-ATP binding

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