Identification of Novel Cryptic Multifunctional Antimicrobial Peptides from the Human Stomach Enabled by a Computational-Experimental Platform

Overview

Journal ACS Synth Biol

Publisher American Chemical Society

Specialties Biotechnology
Molecular Biology

Date 2018 Aug 21

PMID 30124040

Citations 32

Authors

Katia Pane

Valeria Cafaro

Angela Avitabile

Marcelo Der Torossian Torres

Adriana Vollaro

Eliana De Gregorio

Maria Rosaria Catania

Antimo Di Maro

Andrea Bosso

Giovanni Gallo

Anna Zanfardino

Mario Varcamonti

Elio Pizzo

Alberto Di Donato

Timothy K Lu

Cesar de la Fuente-Nunez

Eugenio Notomista

Affiliations

Soon will be listed here.

Abstract

Novel approaches are needed to combat antibiotic resistance. Here, we describe a computational-experimental framework for the discovery of novel cryptic antimicrobial peptides (AMPs). The computational platform, based on previously validated antimicrobial scoring functions, indicated the activation peptide of pepsin A, the main human stomach protease, and its N- and C-terminal halves as antimicrobial peptides. The three peptides from pepsinogen A3 isoform were prepared in a recombinant form using a fusion carrier specifically developed to express toxic peptides in Escherichia coli. Recombinant pepsinogen A3-derived peptides proved to be wide-spectrum antimicrobial agents with MIC values in the range 1.56-50 μM (1.56-12.5 μM for the whole activation peptide). Moreover, the activation peptide was bactericidal at pH 3.5 for relevant foodborne pathogens, suggesting that this new class of previously unexplored AMPs may contribute to microbial surveillance within the human stomach. The peptides showed no toxicity toward human cells and exhibited anti-infective activity in vivo, reducing by up to 4 orders of magnitude the bacterial load in a mouse skin infection model. These peptides thus represent a promising new class of antibiotics. We envision that computationally guided data mining approaches such as the one described here will lead to the discovery of antibiotics from previously unexplored sources.

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