Characterization of a proteolytically stable D-peptide that suppresses herpes simplex virus 1 infection: implications for the development of entry-based antiviral therapy.

Jaishankar, D.; Yakoub, A.M.; Bogdanov, A.; Valyi-Nagy, T.; Shukla, D.

Characterization of a proteolytically stable D-peptide that suppresses herpes simplex virus 1 infection: implications for the development of entry-based antiviral therapy.

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posted on 2016-01-06, 00:00 authored by D. Jaishankar, A.M. Yakoub, A. Bogdanov, T. Valyi-Nagy, D. Shukla

Uncontrolled herpes simplex virus 1 (HSV-1) infection can advance to serious conditions, including corneal blindness or fatal encephalitis. Here, we describe a highly potent anti-HSV-1 peptide (DG2) that inhibits HSV-1 entry into host cells and blocks all aspects of infection. Importantly, DG2 is highly resistant to proteases and shows minimal toxicity, paving the way for prophylactic or therapeutic application of the peptide in vivo.

Funding

This work was supported by NIH award AI105573 (to D.S.), a core grant award (EY001792), and a UIC CCTS TR000050 subaward (to T.V.-N.). Unrestricted support from Research to Prevent Blindness to the Department of Ophthalmology is also acknowledged

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American Society for Microbiology

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0022-538X

Issue date

2015-02-01

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Characterization of a proteolytically stable D-peptide that suppresses herpes simplex virus 1 infection: implications for the development of entry-based antiviral therapy.

Funding

This work was supported by NIH award AI105573 (to D.S.), a core grant award (EY001792), and a UIC CCTS TR000050 subaward (to T.V.-N.). Unrestricted support from Research to Prevent Blindness to the Department of Ophthalmology is also acknowledged

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