EXPRESSION AND CHARACTERIZATION OF A 70-KDA FRAGMENT OF THE INSULIN-RECEPTOR THAT BINDS INSULIN - MINIMIZING LIGAND-BINDING DOMAIN OF THE INSULIN-RECEPTOR
C. Kristensen et al., EXPRESSION AND CHARACTERIZATION OF A 70-KDA FRAGMENT OF THE INSULIN-RECEPTOR THAT BINDS INSULIN - MINIMIZING LIGAND-BINDING DOMAIN OF THE INSULIN-RECEPTOR, The Journal of biological chemistry, 273(28), 1998, pp. 17780-17786
In order to characterize regions of the insulin receptor that are esse
ntial for ligand binding and possibly identify a smaller insulin-bindi
ng fragment of the receptor, we have used site-directed mutagenesis to
construct a series of insulin receptor deletion mutants. From 112 to
246 amino acids were deleted from the alpha-subunit region comprising
amino acids 469-729. The receptor constructs were expressed as soluble
insulin receptor IgG fusion proteins in baby hamster kidney cells and
were characterized in binding assays by immunoblotting and chemical c
ross-linking with radiolabeled insulin. The shortest receptor fragment
identified was a free monomeric a-subunit deleted of amino acids 469-
703 and 718-729 (exon 11); the mass of this receptor fragment was foun
d by mass spectrometry to be 70 kDa. This small insulin receptor fragm
ent bound insulin with an affinity (K-d) of 4.4 nM, which is similar t
o what was found for the full-length ectodomain of the insulin recepto
r (5.0 nM). Cross-linking experiments confirmed that the 70-kDa recept
or fragment specifically bound insulin. In summary we have minimized t
he insulin binding domain of the insulin receptor by identifying a 70-
kDa fragment of the ectodomain that retains insulin binding affinity m
aking this an interesting candidate for detailed structural analysis.