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(Received for publication, April 21, 1995; and in revised form, June 27, 1995) The finding that human epidermal growth factor (hEGF) and human
transforming growth factor (hTGF)
Volume 270,
Number 38,
Issue of September 22, pp. 22337-22343, 1995
©1995 by The American Society for Biochemistry and Molecular Biology, Inc.
bind with similar affinity to
the human EGF receptor but differ in their affinity for the chicken EGF
receptor was used as a model system to study ligand-receptor
interaction of EGF receptor agonists. We previously constructed
domain-exchange mutants of hEGF and hTGF and found that the region
COOH-terminal of the sixth cysteine residue in hTGF is important
for high affinity binding to the chicken EGF receptor (Kramer, R. H.,
Lenferink, A. E. G., Lammerts van Bueren-Koornneef, I., van der Meer,
A., van de Poll, M. L. M., and van Zoelen, E. J. J.(1994) J. Biol.
Chem. 269, 8708-8711). To analyze this domain in more
detail, we now constructed four additional chimeras in which either the
region between the sixth cysteine residue and the highly conserved
Leu-47 was exchanged or the region COOH-terminal of Leu-47. A mutant in
which the latter region in hEGF was replaced by hTGF (designated
E6ET) showed intermediate binding affinity, whereas replacement of the
former region in hEGF by hTGF was sufficient to generate a mutant
(designated E6TE) with a similar high affinity for the chicken EGF
receptor as wild type hTGF. Furthermore, a deletion mutant of hEGF
lacking three COOH-terminal amino acids, EGF50, showed intermediate
binding affinity for the chicken EGF receptor similar to E6ET, but upon
additional deletions (EGF49 and EGF48), this initial gain in affinity
was lost. A systematic analysis of the region between the sixth
cysteine residue and Leu-47 showed that the low affinity of hEGF for
the chicken EGF receptor is mainly due to the presence of Arg-45.
Replacement of the positively charged Arg-45 by Ala, the corresponding
amino acid in hTGF, was sufficient to generate a mutant growth
factor with high affinity for the chicken EGF receptor. This indicates
that in hEGF Arg-45 may play an important role in receptor binding. A
model is proposed in which positively charged amino acids close to or
within the receptor recognition site of hEGF prohibit high affinity
binding to the chicken EGF receptor due to electrostatic repulsion of
positively charged amino acids in the putative ligand binding domain of
the chicken EGF receptor.
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