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Broad-Spectrum Antiviral Entry Inhibition by Interfacially Active Peptides

Andrew R. Hoffmann, Shantanu Guha, Eric Wu, Jenisha Ghimire, Yilin Wang, Jing He, Robert F. Garry, William C. Wimley

2020Journal of Virology32 citationsDOIOpen Access PDF

Abstract

New classes of antiviral drugs are needed to treat the ever-changing viral disease landscape. Current antiviral drugs treat only a small number of viral diseases, leaving many patients with established or emerging infections to be treated solely with supportive care. Recent antiviral peptide research has produced numerous membrane-interacting peptides that inhibit diverse enveloped viruses in vitro and in vivo . Peptide therapeutics are becoming more common, with over 60 FDA-approved peptides for clinical use. Included in this class of therapeutics is enfuvirtide, a 36-residue peptide drug that inhibits HIV entry/fusion. Due to their broad-spectrum mechanism of action and enormous potential sequence diversity, peptides that inhibit virus entry could potentially fulfill the need for new antiviral therapeutics; however, a better understanding of their mechanism is needed for the optimization or evolution of sequence design to combat the wide landscape of viral disease.

Topics & Concepts

EnfuvirtideBiologyAntiviral drugPeptideViral envelopeViral entryVirologyBroad spectrumDrugEntry inhibitorLipid bilayer fusionComputational biologyVirusPharmacologyGp41Viral replicationImmunologyBiochemistryChemistryAntibodyEpitopeCombinatorial chemistryAntimicrobial Peptides and ActivitiesHIV Research and TreatmentVirology and Viral Diseases
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