Hui He scite author profile

The formyl peptide receptors (FPRs) are G protein-coupled receptors that transduce chemotactic signals in phagocytes and mediate host-defense as well as inflammatory responses including cell adhesion, directed migration, granule release and superoxide production. In recent years, the cellular distribution and biological functions of FPRs have expanded to include additional roles in homeostasis of organ functions and modulation of inflammation. In a prototype, FPRs recognize peptides containing N-formylated methionine such as those produced in bacteria and mitochondria, thereby serving as pattern recognition receptors. The repertoire of FPR ligands, however, has expanded rapidly to include not only N-formyl peptides from microbes but also non-formyl peptides of microbial and host origins, synthetic small molecules and an eicosanoid. How these chemically diverse ligands are recognized by the three human FPRs (FPR1, FPR2 and FPR3) and their murine equivalents is largely unclear. In the absence of crystal structures for the FPRs, site-directed mutagenesis, computer-aided ligand docking and structural simulation have led to the identification of amino acids within FPR1 and FPR2 that interact with several formyl peptides. This review article summarizes the progress made in the understanding of FPR ligand diversity as well as ligand recognition mechanisms used by these receptors.

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Compound 49b Prevents Diabetes-Induced Apoptosis through Increased IGFBP-3 Levels

Zhang

Guy

Pagadala³

et al. 2012

Invest. Ophthalmol. Vis. Sci.

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A Novel Polymyxin Derivative That Lacks the Fatty Acid Tail and Carries Only Three Positive Charges Has Strong Synergism with Agents Excluded by the Intact Outer Membrane

Vaara

Siikanen

Apajalahti

et al. 2010

Antimicrob Agents Chemother

109

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Polymyxins are cationic lipopeptides (five cationic charges) and the last resort for the treatment of serious Gram-negative infections caused by multiresistant strains. NAB741 has a cyclic peptide portion identical to that of polymyxin B but carries in the linear peptide portion a threonyl-D-serinyl residue (no cationic charges) instead of the diaminobutyryl-threonyl-diaminobutyryl residue (two cationic charges). At the N terminus of the peptide, NAB741 carries an acetyl group instead of a mixture of methyl octanoyl and methyl heptanoyl residues. NAB741 sensitized Escherichia coli, Klebsiella pneumoniae, Enterobacter cloacae, and Acinetobacter baumannii to antibiotics against which the intact outer membrane is an effective permeability barrier. When tested by using Etest strips on plates containing increasing concentrations of NAB741, the fractional inhibition concentration index (FICI) of the combination of NAB741 with rifampin ranged from <0.111 to 0.158 and that with clarithromycin from <0.094 to 0.292. When tested by the checkerboard method, the corresponding FICI values against E. coli ATCC 25922 were <0.141 to <0.155 with rifampin and 0.094 with clarithromycin. In addition, at 4 g/ml, NAB741 decreased the MICs of azithromycin, mupirocin, fusidic acid, and vancomycin for E. coli strains and E. cloacae by factors ranging from 8 to 200. A sister peptide, NAB752, carrying a threonyl-aminobutyryl residue as the linear peptide portion, was inactive. Furthermore, NAB741 sensitized E. coli to the bactericidal activity of fresh guinea pig serum. The renal clearance of NAB741 was approximately 400-fold, 16-fold, and 8-fold higher than those measured for colistin, NAB7061, and NAB739, respectively.

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Structural Determinants for the Interaction of Formyl Peptide Receptor 2 with Peptide Ligands

Troksa

Caltabiano

et al. 2014

Journal of Biological Chemistry

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Background: Formyl peptide receptor 1 (FPR1) and FPR2 are highly homologous but bind fMet-Leu-Phe with very different affinities. Results: Asp-281 provides a negative charge that renders FPR2 more sensitive to the length and composition of formyl peptides than FPR1. Conclusion: Asp-281 is a major determinant for FPR2 binding. Significance: This work provides a structural basis for differential interaction between formyl peptides and their receptors.

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A highly selective charge transfer fluoroionophore for Cu²⁺

et al. 2006

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Hui He

The Formyl Peptide Receptors: Diversity of Ligands and Mechanism for Recognition

Compound 49b Prevents Diabetes-Induced Apoptosis through Increased IGFBP-3 Levels

A Novel Polymyxin Derivative That Lacks the Fatty Acid Tail and Carries Only Three Positive Charges Has Strong Synergism with Agents Excluded by the Intact Outer Membrane

Structural Determinants for the Interaction of Formyl Peptide Receptor 2 with Peptide Ligands

A highly selective charge transfer fluoroionophore for Cu²⁺

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About

Hui He

The Formyl Peptide Receptors: Diversity of Ligands and Mechanism for Recognition

Compound 49b Prevents Diabetes-Induced Apoptosis through Increased IGFBP-3 Levels

A Novel Polymyxin Derivative That Lacks the Fatty Acid Tail and Carries Only Three Positive Charges Has Strong Synergism with Agents Excluded by the Intact Outer Membrane

Structural Determinants for the Interaction of Formyl Peptide Receptor 2 with Peptide Ligands

A highly selective charge transfer fluoroionophore for Cu2+

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A highly selective charge transfer fluoroionophore for Cu²⁺