High Fidelity Processing and Activation of the Human α-Defensin HNP1 Precursor by Neutrophil Elastase and Proteinase 3

Prasad Tongaonkar,André J Ouellette,Amir E Golji,Patti Tran,Michael E Selsted,Dominik Hartl

doi:10.1371/journal.pone.0032469

Prasad Tongaonkar, André J Ouellette + Show 4 more

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https://doi.org/10.1371/journal.pone.0032469

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Journal: PLoS ONE	Publication Date: Mar 20, 2012
Citations: 63	License type: CC BY 4.0

Affiliation: University of Southern California

Abstract

The azurophilic granules of human neutrophils contain four α-defensins called human neutrophil peptides (HNPs 1–4). HNPs are tridisulfide-linked antimicrobial peptides involved in the intracellular killing of organisms phagocytosed by neutrophils. The peptides are produced as inactive precursors (proHNPs) which are processed to active microbicides by as yet unidentified convertases. ProHNP1 was expressed in E. coli and the affinity-purified propeptide isolated as two species, one containing mature HNP1 sequence with native disulfide linkages (“folded proHNP1”) and the other containing non-native disulfide linked proHNP1 conformers (misfolded proHNP1). Native HNP1, liberated by CNBr treatment of folded proHNP1, was microbicidal against Staphylococcus aureus, but the peptide derived from misfolded proHNP1 was inactive. We hypothesized that neutrophil elastase (NE), proteinase 3 (PR3) or cathepsin G (CG), serine proteases that co-localize with HNPs in azurophil granules, are proHNP1 activating convertases. Folded proHNP1 was converted to mature HNP1 by both NE and PR3, but CG generated an HNP1 variant with an N-terminal dipeptide extension. NE and PR3 cleaved folded proHNP1 to produce a peptide indistinguishable from native HNP1 purified from neutrophils, and the microbicidal activities of in vitro derived and natural HNP1 peptides were equivalent. In contrast, misfolded proHNP1 conformers were degraded extensively under the same conditions. Thus, NE and PR3 possess proHNP1 convertase activity that requires the presence of the native HNP1 disulfide motif for high fidelity activation of the precursor in vitro.

Highlights

Antimicrobial peptides (AMPs) produced by animal cells provide a first line of defense against potentially infectious microorganisms
On reducing SDStricine Polyacrylamide gel electrophoresis (PAGE), peaks A and B contained the,12 kDa band (Fig. 2C) and both were detected with anti-His6 antibody confirming the presence of His6-proHNP1 (Fig. 2D)
On AU-PAGE, His6proHNP1 present in peak A migrated more rapidly than that contained in peak B, suggesting that proHNP1A and proHNP1B are differently folded forms of the recombinant protein

Summary

Introduction

Antimicrobial peptides (AMPs) produced by animal cells provide a first line of defense against potentially infectious microorganisms. Defensins and cathelicidins are the primary AMPs expressed in professional phagocytes such as neutrophils and macrophages [1]. Mammalian defensins comprise three structural subfamilies termed a-, b- and h-defensins. H-defensins, which are approximately half the size of a- and b-defensins, are macrocyclic molecules which have only been isolated from leukocytes of Old World monkeys (reviewed in [2,3]). Certain a-, b-, and h-defensins function as regulators of adaptive immune cells and function to modulate inflammation [11,12,13] and bridge innate and adaptive immunity [14]

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