Abstract
Chimeric receptors were generated in which structurally defined subdomains of the insulin receptor (IR) and insulin growth factor-I receptor (IGF-1R) alpha-subunits were exchanged between their respective receptor backbone structures. Upon expression in human fibroblasts, nine IR/IGF-1R chimeras were transported to the cell surface, where they formed binding sites with differential properties. One IGF-1R/IR chimera (C3') exhibited to some extent high insulin specificity, demonstrating the presence of major insulin binding determinants within the amino acid 325-524 region of the IR alpha-subunit. Complementation of this region with subdomain 1 (amino acids 1-137) reconstituted full insulin binding potential within an IGF-1R framework. In addition, both the IGF-1R/IR C3' chimera and another chimera (C13') displayed high affinity binding properties for IGF-1, which suggests distinct locations for major insulin and IGF-1 binding determinants in their respective receptors, in agreement with our previous findings (Schumacher, R., Mosthaf, L., Schlessinger, J., Brandenburg, D., and Ullrich, A. (1991) J. Biol. Chem. 266, 19288-19295). The binding characteristics of all receptor chimeras correlated directly with the ability of the ligands to regulate their tyrosine kinase activity in intact cells. These results demonstrate direct coupling of ligand binding affinity and capacity for tyrosine kinase activation.
Highlights
Chimeric receptors were generated in which struc- linked, heterotetrameric, cell membrane-spanning glycoproturally defined subdomainsof the insulin receptor (IR) teins consisting of two a- and two @-subunits.The extraceland insulin growth factor-]; receptor (IGF-1R) a-subunits wereexchanged between their respective receptor backbone structures
One IGF-lRDR chimera (C3’) exhibited to some extent high insulin specificity, demonstrating the presence of major insulin binding determinants within the amino acid 325-524 region of the IR a-subunit. Complementation of this region with subdomain 1 reconstituted full insulin binding potential within an IGF1R framework. Both the IGF-lR/IR C3’ chimera and another chimera (C13’) displayed high lularportions of these receptors are formed by the ligand binding a-subunits and part of the @-subunits,whereas the intracellular portionsare constituted by the @-subunitsw, hich possess tyrosine kinase activity (Kasuga et ai., 1982; Ul~rich et al, 1985,1986; Ebina et al, 1985).Binding of the hormones to their cognate receptors stimulates @-subunit tyrosine kinase activity, which Ieads to rapid tyrosine phosphorylation of the @-subunits aswell as cytoplasmic polypeptides that are thought to be involved in receptor-specific signal transduction
Distinct locations for major insulin and IGF-1 binding The molecular mechanisms by which insulin and IGF-1 determinants in their respective receptors, in agree- activate the P-subunit tyrosine kinase activityand the extrament with our previous findings (Schumacher,R., Mosthaf, L., Schlessinger, J., Brandenburg, D., and U11rich, A. (1991) J
Summary
100,1.5 mM MgCl,, 1mM EGTA, 1 pg/ml aprotinin, 1mM phenylmethylsulfonyl fluoride) and incubated for 5 min on ice. After labeling with [35S]methionine,cells were chain reaction in a total volume of 50 p1 containing 16.6 mM removed from the plate, washed with 0.1% dialyzed BSA in PBS,and (NH4),S04;67 mM Tris-HC1, pH 8.8 6.7 mM MgCl,; 6.7 pM EDTA; incubated with either anti-IR or anti-IGF-1R antibodies directed 170 pg/ml BSA, 1 mM dATP, dGTP, dCTP and dTTP; 1 mM p- against the extracellular domain for 2 h a t 4 "C in atotal volume of mercaptoethanol; and 0.1 OD/ml of the forward and reverse primers. An SphI site with PBS and incubated with 5 mlof mM EDTA in PBS for 2 was introduced at nucleotides 1711 and 1673 of IR andIGF-lR, min.Cellswere removed from the plate, washed once with respectively using MF-3 Was performed with the second half of the sample as described above
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