Sulfonated and Carboxymethylated ß-Glucan Derivatives with Inhibitory Activity against Herpes and Dengue Viruses.

The infection of mammalian cells by enveloped viruses is triggered by the interaction of viral envelope glycoproteins with the glycosaminoglycan, heparan sulfate. By mimicking this carbohydrate, some anionic polysaccharides can block this interaction and inhibit viral entry and infection. As heparan sulfate carries both carboxyl and sulfate groups, this work focused on the derivatization of a (1→3)(1→6)-ß-D-glucan, botryosphaeran, with these negatively-charged groups in an attempt to improve its antiviral activity. Carboxyl and sulfonate groups were introduced by carboxymethylation and sulfonylation reactions, respectively. Three derivatives with the same degree of carboxymethylation (0.9) and different degrees of sulfonation (0.1; 0.2; 0.4) were obtained. All derivatives were chemically characterized and evaluated for their antiviral activity against herpes (HSV-1, strains KOS and AR) and dengue (DENV-2) viruses. Carboxymethylated botryosphaeran did not inhibit the viruses, while all sulfonated-carboxymethylated derivatives were able to inhibit HSV-1. DENV-2 was inhibited only by one of these derivatives with an intermediate degree of sulfonation (0.2), demonstrating that the dengue virus is more resistant to anionic ß-D-glucans than the Herpes simplex virus. By comparison with a previous study on the antiviral activity of sulfonated botryosphaerans, we conclude that the presence of carboxymethyl groups might have a detrimental effect on antiviral activity.

Botryosphaeran and sulfonated derivatives as novel antiviral agents for herpes simplex and dengue fever.

Sulfated polysaccharides are known to display activity against enveloped viruses, such as herpes and dengue. The aim of this work was to assess the antiviral activity of botryosphaeran, a fungal exocellular (1 → 3)(1 → 6)-ß-d-glucan devoid of sulfate groups, and its chemically sulfonated derivatives, against herpes simplex virus (HSV), dengue virus (DENV) and poliovirus (PV). The natural parent polysaccharide inhibited acyclovir-sensitive HSV (HSV-KOS) infection in Vero cells (IC50 of 39.3 µg mL-1), while the IC50 against acyclovir-resistant HSV (HSV-AR) was 47.5 µg mL-1. Botryosphaeran was derivatized by sulfonylation with chlorosulfonic acid to prepare two sulfonated derivatives, S1 and S2, with degrees of substitution (DS) of 0.4 and 1.1, respectively. Antiviral evaluation of S1 and S2 gave the IC50 of 3.0 and 2.4 µg mL-1 against HSV-KOS, and 7.3 and 2.7 µg mL-1 against HSV-AR, respectively. This study demonstrated for the first time that native botryosphaeran inhibited HSV infection, albeit moderately, while its sulfonated derivatives developed high activity against viral infection. DENV inhibition was weak for botryosphaeran, but remarkably stronger for S1 and S2. All compounds were inactive against PV, as it lacked a viral envelope. The presence of sulfate groups and the DS were confirmed to be important features for antiviral activity.