Abstract
Chikungunya virus (CHIKV), an alphavirus of the Togaviridae family, is the causative agent of the human disease chikungunya fever (CHIKF), which is characterized by debilitating acute and chronic arthralgia. No licensed vaccines or antivirals exist for CHIKV. Preventing the attachment of viral particles to host cells is an attractive intervention strategy. Viral entry of enveloped viruses from diverse families including Filoviridae and Flaviviridae is mediated or enhanced by phosphatidylserine receptors (PSRs). PSRs facilitate the attachment of enveloped viruses to cells by binding to exposed phosphatidylserine (PS) in the viral lipid membrane - a process termed viral apoptotic mimicry. To investigate the role of viral apoptotic mimicry during CHIKV infection, we produced viral particles with discrete amounts of exposed PS on the virion envelope by exploiting the cellular distribution of phospholipids at the plasma membrane. We found that CHIKV particles containing high outer leaflet PS (produced in cells lacking flippase activity) were more infectious in Vero cells than particles containing low levels of outer leaflet PS (produced in cells lacking scramblase activity). However, the same viral particles were similarly infectious in NIH3T3 and HAP1 cells, suggesting PS levels can influence infectivity only in cells with high levels of PSRs. Interestingly, PS-dependent CHIKV entry was observed in mosquito Aag2 cells, but not C6/36 cells. These data demonstrate that CHIKV entry via viral apoptotic mimicry is cell-type dependent. Furthermore, viral apoptotic mimicry has a mechanistic basis to influence viral dynamics in vivo in both the human and mosquito host.
Importance Outbreaks of Chikungunya virus (CHIKV) have occurred throughout Africa, Asia, and Europe. Climate change permits the expansion of Aedes mosquito vectors into more temperate regions, broadening the geographic range and increasing the frequency of future human outbreaks. The molecular basis underlying the broad host and cellular tropism of CHIKV remains unresolved. While several host molecules have been implicated in CHIKV viral attachment and entry, the role of lipid-mediated attachment (viral apoptotic mimicry) is unclear. We observed that higher levels of externalized phosphatidylserine (PS) in the viral lipid bilayer correlated with enhanced CHIKV infectivity in mammalian cells abundant with PS receptors and lacking alternative attachment factors. Interestingly, CHIKV infection in mosquito Aag2 cells was also affected by viral PS accessibility. This study further delineates the role of virus-cell attachment molecules in CHIKV infection. Viral apoptotic mimicry has potential to influence CHIKV dynamics in vivo in both the human and mosquito host.
