HSV-2 ΔgD elicits FcγR-effector antibodies that protect against clinical isolates
Christopher D. Petro, Brian Weinrick, Nazanin Khajoueinejad, Clare Burn, Rani Sellers, William R. Jacobs Jr, Betsy C. Herold
Christopher D. Petro, Brian Weinrick, Nazanin Khajoueinejad, Clare Burn, Rani Sellers, William R. Jacobs Jr, Betsy C. Herold
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Research Article Vaccines Virology

HSV-2 ΔgD elicits FcγR-effector antibodies that protect against clinical isolates

Abstract

A single-cycle herpes simplex virus (HSV) deleted in glycoprotein D (ΔgD-2) elicited high titer HSV-specific antibodies (Abs) that (i) were rapidly transported into the vaginal mucosa; (ii) elicited antibody-dependent cell-mediated cytotoxicity but little neutralization; (iii) provided complete protection against lethal intravaginal challenge; and (iv) prevented establishment of latency in mice. However, clinical isolates may differ antigenically and impact vaccine efficacy. To determine the breadth and further define mechanisms of protection of this vaccine candidate, we tested ΔgD-2 against a panel of clinical isolates in a murine skin challenge model. The isolates were genetically diverse, as evidenced by genomic sequencing and in vivo virulence. Prime and boost immunization (s.c.) with live but not heat- or UV-inactivated ΔgD-2 completely protected mice from challenge with the most virulent HSV-1 and HSV-2 isolates. Furthermore, mice were completely protected against 100 times the lethal dose that typically kills 90% of animals (LD90) of a South African isolate (SD90), and no latent virus was detected in dorsal root ganglia. Immunization was associated with rapid recruitment of HSV-specific FcγRIII- and FcγRIV-activating IgG2 Abs into the skin, resolution of local cytokine and cellular inflammatory responses, and viral clearance by day 5 after challenge. Rapid clearance and the absence of latent virus suggest that ΔgD-2 elicits sterilizing immunity.

Authors

Christopher D. Petro, Brian Weinrick, Nazanin Khajoueinejad, Clare Burn, Rani Sellers, William R. Jacobs Jr, Betsy C. Herold

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Figure 2

Clinical HSV-1 and HSV-2 isolates are genotypically and phenotypically diverse.

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Clinical HSV-1 and HSV-2 isolates are genotypically and phenotypically d...
(A) Herpes simplex virus type-1 (HSV-1) and (B) HSV-2 phylogenic trees were constructed from whole genome alignments of de novo–assembled HSV clinical isolate and lab strain sequences by the UPGMA method in MEGA6. The branches are labeled with genetic distance in nucleotide substitutions/kilobase. All branches in HSV-1 tree showed 100% confidence; those on the HSV-2 tree were also 100% except the branches at the level of 4674, which were 92%, and the branch bearing B3 × 2.3, which was 99%. Published data for Chimpanzee α-1 herpesvirus (ChHV), HSV-1(F), or HSV-2(HG52) were used as outgroups for each analysis. (C) In vivo virulence was assessed by challenging BALB/C mice with 1 × 105 PFU/mouse of HSV-1 (D) or 5 × 104 PFU/mouse of HSV-2 by skin scarification. Survival curves are shown for each isolate; open symbols represent clinical isolates, and closed symbols represent laboratory strains.