Nature-inspired Novel Drug Design Paradigm Using Nanosilver: Efficacy on Multi-Drug-Resistant Clinical Isolates of Tuberculosis

Seth, Dipankar; Roy Choudhury, Samrat; Pradhan, Saheli; Gupta, Siddhartha; Palit, Debjani; Das, Sumistha; Debnath, Nitai; Goswami, Arunava

Nature-inspired Novel Drug Design Paradigm Using Nanosilver: Efficacy on Multi-Drug-Resistant Clinical Isolates of Tuberculosis

2011

Despite discovery of the pathogen more than 100 years ago, tuberculosis (TB) continues to be a major killer disease worldwide. Currently a third of world population is infected and multiple-drug-resistant (mdr) TB registers maximum mortality by a single pathogen. Nanomedicine provides enormous opportunity for developing novel drugs. We have recently demonstrated surface-modified-lipophilic-nanosilica as drug to combat malaria and 100% lethal virus, BmNPV. Nanosilver possesses inherent antibacterial properties, but toxicity is a major concern. We hypothesized that capping with nature-inspired biomolecules, bovine serum albumin (BSA) and Poly-n-vinyl-pyrrolidone (PVP) used as blood volume extender, might insure biosafety. BSA-nano-Ag was found to be more stable than PVP-nano-Ag at physiological pH. In this first ever study on clinical isolates collected from TB endemic areas, we report, BSA-nano-Ag act as potent anti-TB drug. Further study with (human serum albumin)-nano-Ag and core–shell-nano-Ag could increase the biocompatibility of oral TB drug formulations without compromising on the efficacy of the drug.

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Palabras clave de AGROVOC

antibacterial properties blood volume developing countries drug resistance drugs humans malaria microbiology mortality mycobacterium tuberculosis nanomedicine nanoparticles pathogens ph pharmacology silver toxicity tuberculosis tuberculosis viruses

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Publicado en

Current microbiology

Volumen 62 Edición 3 Paginación 715 - 726 ISSN 0343-8651

Editorial

Springer-Verlag

Otras materias

Hydrogen-ion concentration; Drug effects; Bovine serum albumin; Multidrug-resistant; Nanosilver; Bacterial; Multiple; Biocompatibility; Antitubercular agents; Drug stability; Isolation & purification; Drug formulations

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Inglés

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Journal Article; Text

En AGRIS desde: 2024-02-28

Formato: MODS

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DOI DOI http://dx.doi.org/10.1007/s00284-010-9770-7

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Nature-inspired Novel Drug Design Paradigm Using Nanosilver: Efficacy on Multi-Drug-Resistant Clinical Isolates of Tuberculosis

2011

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