Abstract
Zika virus (ZIKV) is transmitted to people by bite of an infected mosquito and by sexual contact. ZIKV infects primary genital epithelial cells, the same cells targeted by herpes simplex virus 2 (HSV-2). HSV-2 seroprevalence is high in areas where ZIKV is endemic, but it is unknown whether HSV-2 increases the risk for ZIKV infection. Here, we found that pre-infecting female genital tract epithelial cells with HSV-2 leads to enhanced binding of ZIKV virions. This effect did not require active replication by HSV-2, implying that the effect results from the immune response to HSV-2 exposure or to viral genes expressed early in the HSV-2 lifecycle. Treating cells with toll-like receptor-3 ligand poly-I:C also lead to enhanced binding by ZIKV, which was inhibited by the JAK-STAT pathway inhibitor ruxolitinib. Blocking or knocking down the well-studied ZIKV receptor AXL did not prevent binding of ZIKV to epithelial cells, nor prevent enhanced binding in the presence of HSV-2 infection. Blocking the α5 integrin receptor did not prevent ZIKV binding to cells either. Overall, our results indicate that ZIKV binding to genital epithelial cells is not mediated entirely by a canonical receptor, but likely occurs through redundant pathways that may involve lectin receptors and glycosaminoglycans. Our studies may pave the way to new interventions that interrupt the synergism between herpes and Zika viruses.
Highlights
The presence of any sexually transmitted infection (STI) itself indicates risk for other STIs (Menezes et al, 2018)
Plotted as fold more Zika virus (ZIKV), across all experiments we observed an average of 2.85 more ZIKV genomes in herpes simplex virus 2 (HSV-2) infected cells at 24 h, with no evidence of a difference according to the anatomical origin of the cells (Figure 1B)
Sites of HSV-2 reactivation are surrounded by CD4+ and CD8+ tissue resident T cells and other immune cells which quickly respond to infection and prevent widespread cell death (Zhu et al, 2013)
Summary
The presence of any sexually transmitted infection (STI) itself indicates risk for other STIs (Menezes et al, 2018). It makes sense that a behavioral risk factor (unprotected sexual activity) increases risk for all STIs. there are well documented biological pathways whereby infection with one pathogen increases susceptibility for another Herpes Simplex Virus 2 (HSV-2) is a common STI with global prevalence estimated at 11.3% (Looker et al, 2015). The association between HSV-2 infection and HIV acquisition risk is well-studied, with meta-analysis indicating a two–fivefold increased risk of HIV in individuals with prevalent or incident HSV-2 infection. HSV-2 clearly has a profound impact on the genital tract, which may influence risk of infection with other STIs
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