T. V. Vineethkumar scite author profile

Although vaccines confer protection against influenza A viruses, antiviral treatment becomes the first line of defense during pandemics because there is insufficient time to produce vaccines. Current antiviral drugs are susceptible to drug resistance, and developing new antivirals is essential. We studied host defense peptides from the skin of the South Indian frog and demonstrated that one of these, which we named "urumin," is virucidal for H1 hemagglutinin-bearing human influenza A viruses. This peptide specifically targeted the conserved stalk region of H1 hemagglutinin and was effective against drug-resistant H1 influenza viruses. Using electron microscopy, we showed that this peptide physically destroyed influenza virions. It also protected naive mice from lethal influenza infection. Urumin represents a unique class of anti-influenza virucide that specifically targets the hemagglutinin stalk region, similar to targeting of antibodies induced by universal influenza vaccines. Urumin therefore has the potential to contribute to first-line anti-viral treatments during influenza outbreaks.

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A mini review on the antimicrobial peptides isolated from the genus Hylarana (Amphibia: Anura) with a proposed nomenclature for amphibian skin peptides

Thomas

Vineethkumar

Reshmy

et al. 2012

Mol Biol Rep

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Hylarana is a well established frog genus coming under the family Ranidae. An increasing number of antimicrobial peptides have been isolated and characterized from the skin of frogs of this genus. This review covers the antimicrobial peptides reported so far from the frogs of Hylarana genus and to propose a consistent system of nomenclature for amphibian skin peptides. Multiple sequence alignment of the skin peptides from Hylarana genus has grouped them into six peptide families, and three bioactive peptides. Existing nomenclature of amphibian antimicrobial peptides is species centered with no implication to the genus which can lead to disparities, when frogs with same species name belonging to different genus have to be named. As per the proposed system the peptide should have the parent peptide name (e.g. Brevinin-1) followed by two uppercase letter of the genus, if two genera begin with the same letter-first letter should be the same followed by an appropriate second letter (e.g. HU for Huia and HM for Humenerana). This is succeeded by species name in lower case-orthologous peptides from different species may be characterized by the initial letter of that species, when two species begin with the same initial letter, second letter should be used appropriately (e.g. HLat for Hylarana aurata and HLan for Hylarana aurantiaca). Paralogs belonging to the same peptide family are assigned by numbers.

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A Review of the Mechanism of Action of Amphibian Antimicrobial Peptides Focusing on Peptide-Membrane Interaction and Membrane Curvature

Vineethkumar

George

2017

CPPS

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Research interests on amphibian antimicrobial peptides (AMPs) are currently increasing because of their capability to combat microorganisms from both terrestrial and aquatic environments, which are the warehouses of human pathogens. The most remarkable feature of AMPs are their mechanism of action, primarily targeted to anionic membranes. Researchers have postulated many models to describe peptide- membrane interaction, which leads to membrane permeation/intracellular targeting. Despite these models information regarding the relationship between membrane curvature and peptidemembrane interaction is scarce. This relationship could be clearly depicted using the two-state model and interfacial activity model. In the review, we discuss in detail the two state and interfacial activity models and explain the influence of membrane curvature on peptide binding and the membrane interaction of curvature-sensitive peptides. In addition, the models proposed to explain the mechanism of action of membrane lytic and non-lytic AMPs are also reviewed.

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Host Defense Peptides from Asian Frogs as Potential Clinical Therapies

et al. 2015

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Host defense peptides (HDPs) are currently major focal points of medical research as infectious microbes are gaining resistance to existing drugs. They are effective against multi-drug resistant pathogens due to their unique primary target, biological membranes, and their peculiar mode of action. Even though HDPs from 60 Asian frog species belonging to 15 genera have been characterized, research into these peptides is at a very early stage. The purpose of this review is to showcase the status of peptide research in Asia. Here we provide a summary of HDPs from Asian frogs.

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Functional characterization of two novel peptides and their analogs identified from the skin secretion of Indosylvirana aurantiaca, an endemic frog species of Western Ghats, India

et al. 2019

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T. V. Vineethkumar

An Amphibian Host Defense Peptide Is Virucidal for Human H1 Hemagglutinin-Bearing Influenza Viruses

A mini review on the antimicrobial peptides isolated from the genus Hylarana (Amphibia: Anura) with a proposed nomenclature for amphibian skin peptides

A Review of the Mechanism of Action of Amphibian Antimicrobial Peptides Focusing on Peptide-Membrane Interaction and Membrane Curvature

Host Defense Peptides from Asian Frogs as Potential Clinical Therapies

Functional characterization of two novel peptides and their analogs identified from the skin secretion of Indosylvirana aurantiaca, an endemic frog species of Western Ghats, India

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