Enhanced synergistic antiviral effects of thermally expanded graphite and copper oxide nanosheets in the form of a novel nanocomposite against herpes simplex virus type 1.

Microb Pathog

Department of Virology, School of Medicine, Iran University of Medical Sciences, Tehran, Iran; Research Center of Pediatric Infectious Diseases, Institute of Immunology and Infectious Diseases, Iran University of Medical Sciences, Tehran, Iran. Electronic address:

Published: October 2024

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Article Abstract

Herpes simplex virus type 1 (HSV-1) is responsible for a wide range of human infections, including skin and mucosal ulcers, encephalitis, and keratitis. The gold standard for treating HSV-1 infections is acyclovir. However, the use of this drug is associated with several limitations such as toxic reactions and the development of drug-resistant strains. So, there is an urgent need to discover and develop novel and effective agents against this virus. For the first time, this study aimed to investigate the antiviral effects of the Thermally Expanded Graphite (TEG)-copper oxide (CuO) nanocomposite against HSV-1 and compare results with its constituent components. After microwave (MW)-assisted synthesis of TEG and CuO nanosheets as well as MW-CuO/TEG nanocomposite and characterization of all these nanomaterials, an MTT assay was used to determine their cytotoxicity. The quantitative real-time PCR was then used to investigate the effects of these nanomaterials on viral load. Three-hour incubation of HSV-1 with TEG nanosheets (500 μg/mL), MW-CuO nanosheets (15 μg/mL), and MW-CuO/TEG nanocomposite (35 μg/mL) resulted in a decrease in viral load with an inhibition rate of 31.4 %, 49.2 %, and 74.4 %, respectively. The results from the post-treatment assay also showed that TEG nanosheets (600 μg/mL), MW-CuO nanosheets (15 μg/mL), and MW-CuO/TEG nanocomposite (10 μg/mL) led to a remarkable decrease in viral load with an inhibition rate of 56.9 %, 63 %, and 99.9 %, respectively. The combination of TEG and MW-CuO nanosheets together and the formation of a nanocomposite structure display strong synergy in their ability to inhibit HSV-1 infection. MW-CuO/TEG nanocomposites can be considered a suitable candidate for the treatment of HSV-1 infection.

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http://dx.doi.org/10.1016/j.micpath.2024.106846DOI Listing

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