Griffithsin protects mice from genital herpes by preventing cell-to-cell spread

B Nixon, M Stefanidou, PMM Mesquita… - Journal of …, 2013 - Am Soc Microbiol
B Nixon, M Stefanidou, PMM Mesquita, E Fakioglu, T Segarra, L Rohan, W Halford…
Journal of virology, 2013Am Soc Microbiol
Griffithsin, which binds N-linked glycans on gp120 to prevent HIV entry, has the most potent
HIV-1 inhibitory activity described for any antiviral lectin and is being developed for topical
preexposure prophylaxis. The current studies were designed to further assess its potential
by exploring its activity against herpes simplex virus 2 (HSV-2), a cofactor for HIV
acquisition, in vitro and in a murine model. Safety was evaluated by examining its impact on
epithelial barrier integrity in polarized cultures and testing whether repeated intravaginal …
Abstract
Griffithsin, which binds N-linked glycans on gp120 to prevent HIV entry, has the most potent HIV-1 inhibitory activity described for any antiviral lectin and is being developed for topical preexposure prophylaxis. The current studies were designed to further assess its potential by exploring its activity against herpes simplex virus 2 (HSV-2), a cofactor for HIV acquisition, in vitro and in a murine model. Safety was evaluated by examining its impact on epithelial barrier integrity in polarized cultures and testing whether repeated intravaginal dosing potentiates the susceptibility of mice to genital herpes. Griffithsin displayed modest inhibitory activity against HSV-2 if present during viral entry but completely blocked plaque formation if present postentry, reduced plaque size, and prevented cell-to-cell spread. These in vitro findings translated to significant protection against genital herpes in mice treated with 0.1% griffithsin gel. Griffithsin, but not placebo gel, prevented viral spread (visualized with a luciferase-expressing virus), significantly reduced disease scores, and resulted in greater survival (P < 0.05, log rank test). Protection persisted when HSV-2 was introduced in seminal plasma. Although griffithsin triggered a small decline in transepithelial electrical resistance in polarized cultures, this did not translate to any significant increase in the ability of HIV to migrate from the apical to the basolateral chamber nor to an increase in susceptibility to HSV-2 in mice treated with griffithsin gel for 7 days. These findings demonstrate that griffithsin inhibits HSV-2 by a unique mechanism of blocking cell-to-cell spread and support its further development for HIV and HSV-2 prevention.
American Society for Microbiology