A Mitogenic Peptide Amide Encoded within the E Peptide Domain of the Insulin-Like Growth Factor IB Prohormone

We have identified an amino acid sequence within the E peptide of the insulin-like growth factor IB (IGF-IB) precursor that is biologically active and designated this peptide insulin-like growth factor IB-(103-124) E1amide (IBE1). Its existence was predicted by a flanking Gly-Lys-Lys-Lys, a signal s...

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Veröffentlicht in:Proceedings of the National Academy of Sciences - PNAS 1992-09, Vol.89 (17), p.8107-8111
Hauptverfasser: Siegfried, Jill M., Kasprzyk, Philip G., Treston, Anthony M., Mulshine, James L., Quinn, Kathryn A., Cuttitta, Frank
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Sprache:eng
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Zusammenfassung:We have identified an amino acid sequence within the E peptide of the insulin-like growth factor IB (IGF-IB) precursor that is biologically active and designated this peptide insulin-like growth factor IB-(103-124) E1amide (IBE1). Its existence was predicted by a flanking Gly-Lys-Lys-Lys, a signal sequence for sequential proteolytic cleavage and peptidyl C-terminal amidation. A synthetic analog of the predicted IBE1peptide, designated Y-23-R-NH2, was generated with tyrosine added at position 0. This peptide at 2-20 nM had growth-promoting effects on both normal and malignant human bronchial epithelial cells. Y-23-R-NH2bound to specific high-affinity receptors (Kd= 2.8 ± 1.4 x 10-11M) present at 1-2 * 104binding sites per cell. Ligand binding was not inhibited byrecombinant insulin or recombinant IGF-I. Furthermore, a monoclonal antibody antagonist to the IGF-I receptor (αIR3) did not suppress the proliferative response induced by Y-23-R-NH2. In addition, C-terminal amidation was shown to be important in receptor recognition since the free-acid analog of IBE1(Y-23-R-OH) did not effectively compete for binding and was not a potent agonist of proliferation. Immunoblot analysis of human lung tumor cell line extracts using an antibody raised against Y-23-R-NH2detected a low molecular mass band of ≈5 kDa, implying that a protein product is produced that has immunological similarity to IBE1. Extracts of human, mammalian, and avian livers analyzed on an immunoblot with the anti-Y-23-R-NH2antibody contained proteins of ≈21 kDa that were specifically recognized by the antiserum and presumably represent an IGF-I precursor molecule. This implies that in species where an IGF-I mRNA with homology to the human IGF-IB E domain has not yet been described, an alternate mRNA must be produced that contains a sequence similar to that of the midportion of the human IGF-IB E domain. Our findings demonstrate that IBE1is a growth factor that mediates its effect through a specific high-affinity receptor and is most likely conserved in many species.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.89.17.8107