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Title
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Identification of a 13 amino acid peptide mimetic of erythropoietin and description of amino acids critical for the mimetic activity of EMP1.
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Authors
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D.L.Johnson,
F.X.Farrell,
F.P.Barbone,
F.J.McMahon,
J.Tullai,
K.Hoey,
O.Livnah,
N.C.Wrighton,
S.A.Middleton,
D.A.Loughney,
E.A.Stura,
W.J.Dower,
L.S.Mulcahy,
I.A.Wilson,
L.K.Jolliffe.
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Ref.
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Biochemistry, 1998,
37,
3699-3710.
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PubMed id
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Abstract
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To obtain information about the functional importance of amino acids required
for effective erythropoietin (EPO) mimetic action, the conserved residues of a
peptide mimetic of EPO, recently discovered by phage display, were subjected to
an alanine replacement strategy. Further, to identify a minimal mimetic peptide
sequence, a series of truncation peptides has been generated. One EPO mimetic
peptide sequence, EMP1, was targeted and more than 25 derivatives of this
sequence were evaluated for their ability to compete with [125I]EPO for receptor
binding and for their ability to support the proliferation of two EPO-responsive
cell lines. Two hydrophobic amino acids, Tyr4 and Trp13, appear essential for
mimetic action, and aromatic residues appear to be important at these sites.
These findings are consistent with the previously reported X-ray crystal
structure of EMP1 complexed with the extracellular domain of the EPO receptor
(EPO binding protein; EBP). In our efforts to define the structural elements
required for EPO mimetic action, a 13 amino acid peptide was identified which
possesses mimetic properties and contains a minimal agonist epitope. The ability
of this peptide to effectively serve as a mimetic capable of the induction of
EPO-responsive cell proliferation appears to reside within a single residue,
equivalent to position Tyr4 of EMP1, when present in a sequence that includes
the cyclic core peptide structure. Although these peptides are less potent than
EPO, they should serve as an excellent starting point for the design of
compounds with EPO mimetic activity.
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