Preliminary Characterization of NP339, a Novel Polyarginine Peptide with Broad Antifungal Activity.

Vanessa Duncan,Laura Simpson,Shane Smith,Daniel Smith,Deborah O’Neil,Laura Katvars,Jennifer Robertson,Leon Berge,Emma Lovie,Derry Mercer,Carol Munro

doi:10.1128/aac.02345-20

Abstract

ABSTRACTFungi cause disease in nearly one billion individuals worldwide. Only three classes of antifungal agents are currently available in mainstream clinical use. Emerging and drug-resistant fungi, toxicity, and drug-drug interactions compromise their efficacy and applicability. Consequently, new and improved antifungal therapies are urgently needed. In response to that need, we have developed NP339, a 2-kDa polyarginine peptide that is active against pathogenic fungi from the genera Candida, Aspergillus, and Cryptococcus, as well as others. NP339 was designed based on endogenous cationic human defense peptides, which are constituents of the cornerstone of immune defense against pathogenic microbes. NP339 specifically targets the fungal cell membrane through a charge-charge-initiated membrane interaction and therefore possesses a differentiated safety and toxicity profile to existing antifungal classes. NP339 is rapidly fungicidal and does not elicit resistance in target fungi upon extensive passaging in vitro. Preliminary analyses in murine models indicate scope for therapeutic application of NP339 against a range of systemic and mucocutaneous fungal infections. Collectively, these data indicate that NP339 can be developed into a highly differentiated, first-in-class antifungal candidate for poorly served invasive and other serious fungal diseases.

Highlights

Fungi cause disease in nearly one billion individuals worldwide
These issues limit the efficacy of drugs against existing pathogens, and shift the epidemiology toward the emergence of new pathogens that are inherently resistant to currently available antifungal agents [19,20,21,22,23]
We present our preliminary characterization of NP339, a synthetic 2-kDa polyarginine peptide with broad antifungal activity

Summary

Introduction

Fungi cause disease in nearly one billion individuals worldwide. Only three classes of antifungal agents are currently available in mainstream clinical use. Fungal diseases remain a significant area of unmet medical need globally and affect close to one billion individuals worldwide They range from mucosal infections to serious life-threatening invasive fungal diseases (IFDs) and are mainly caused by fungi from the genera Candida, Aspergillus, Cryptococcus, Pneumocystis, and Histoplasma and mucormycetes (Mucorales). Agricultural and industrial fungicides that have a similar structure and/or mechanism of action to those of drugs used in the clinic can drive the evolution of resistance [15,16,17,18] These issues limit the efficacy of drugs against existing pathogens, and shift the epidemiology toward the emergence of new pathogens that are inherently resistant to currently available antifungal agents [19,20,21,22,23]. New antifungal molecules are urgently needed to combat drug resistance and emerging fungal pathogens

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