US EPA

508449 

Journal Article 

Modeling an active conformation for linear peptides and design of a competitive inhibitor for HMG-CoA reductase 

Pan, XH; Yang, XP; Lowe, CR 

2008 

1 

Journal of Molecular Recognition
ISSN: 0952-3499
EISSN: 1099-1352 

21 

4 

205-209 

English 

10.1002/jmr.885 

This study presents an approach that can be used to search for lead peptide candidates, including unconstrained structures in a recognized sequence. This approach was performed using the design of a competitive inhibitor for 3-hydroxy-3-methylglutaryl CoA reductase (HMGR). In a previous design for constrained peptides, a head-to-tail cyclic structure of peptide was used as a model of linear analog in searches for lead peptides with a structure close to an active conformation. Analysis of the conformational space occupied by the peptides suggests that an analogical approach can be applied for finding a lead peptide with an unconstrained structure in a recognized sequence via modeling a cycle using fixed residues of the peptide backbone. Using the space obtained by an analysis of the bioactive conformations of statins, eight cyclic peptides were selected for a peptide library based on the YVAE sequence as a recognized motif. For each cycle, the four models were assessed according to the design criterion ("V" parameter) applied for constrained peptides. Three cyclic peptides (FGYVAE, FPYVAE, and FFYVAE) were selected as lead cycles from the library. The linear FGYVAE peptide (IC50 = 0.4 mu M) showed a 1200-fold increase the inhibitory activity compared to the first isolated LPYP peptide (IC50 = 484 mu M) from soybean. Experimental analysis of the modeled peptide structures confirms the appropriateness of the proposed approach for the modeling of active conformations of peptides. Copyright (C) 2008 John Wiley & Sons, Ltd. 

peptides; inhibitors; design; HMG-CoA reductase; active conformation; circular dichroism; selective holographic detection; photonic crystal; glucose; sensors; complexes; system; acids