Design, Synthesis, and Structure–Activity
Relationship
Studies of a Potent PACE4 Inhibitor
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Abstract
PACE4 plays an important role in
the progression of prostate cancer
and is an attractive target for the development of novel inhibitor-based
tumor therapies. We previously reported the design and synthesis of
a novel, potent, and relatively selective PACE4 inhibitor known as
a Multi-Leu (ML) peptide. In the present work, we examined the ML
peptide through detailed structure–activity relationship studies.
A variety of ML-peptide analogues modified at the P8–P5 positions
with leucine isomers (Nle, DLeu, and DNle) or substituted at the P1
position with arginine mimetics were tested for their inhibitory activity,
specificity, stability, and antiproliferative effect. By incorporating d isomers at the P8 position or a decarboxylated arginine mimetic,
we obtained analogues with an improved stability profile and excellent
antiproliferative properties. The DLeu or DNle residue also has improved
specificity toward PACE4, whereas specificity was reduced for a peptide
modified with the arginine mimetic, such as 4-amidinobenzylamide