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Zika virus (ZIKV) is a member of the Flaviviridae family that received public attention and scientific interest after the outbreak in French Polynesia (2013-2014) and the epidemic in the Americas (2015-2016). Even though only 20% of infected people exhibit clinical manifestations and they are predominantly flu-like symptoms, these events unveiled neurological complications associated with ZIKV infection, such as the Guillain-Barré syndrome in adults and microcephaly in newborns. Lacking a preventive vaccine and a specific antiviral therapy against ZIKV allied to the fact that this pathogen is a re-emerging virus, uncovering and comprehending novel virus-host interactions is crucial to the identification of new antiviral targets and the development of innovative antiviral approaches. Previous research work uncovered that the Chinese hamster ovary (CHO) cells do not support ZIKV infection.459 As this cell line does not express endogenous epidermal growth factor receptor (EGFR), this study aimed to investigate whether EGFR and EGFR-dependent signaling are relevant for the ZIKV life cycle in vitro.
In the first part of the study, viral infection was investigated in CHO cells and compared to A549 cells, a highly ZIKV permissive cell line. After performing binding and entry assays, ZIKV entry, but not the attachment, was significantly decreased in CHO cells in comparison to A549 cells. Additionally, in A549-EGFR KO cells, ZIKV entry was diminished relatively to the off-target control. These results show the clear impact that the absence of EGFR has on viral entry, implicating EGFR during this process. Even though EGFR overexpression in CHO cells could not render these cells permissive to ZIKV infection, as demonstrated by the lack of viral infection after electroporation with in vitro transcribed capped ZIKV-Renilla luciferase RNA, it was possible to rescue ZIKV entry. These findings suggest that there are additional elements, which are not expressed in CHO cells, required for viral replication.
Furthermore, the impact of ZIKV infection on EGFR mRNA and protein levels as well as on the EGFR subcellular localization and distribution was evaluated. The relative number of EGFR specific transcripts continuously increased with ZIKV infection, whereas the EGFR protein level diminished at later times of infection. Moreover, changes in the subcellular localization of EGFR and its colocalization with the early endosomal marker EEA1 in ZIKV-infected cells revealed that ZIKV triggers EGFR internalization. The relevance of EGFR in the ZIKV entry process was further corroborated by the observation of EGFR internalization at 30 min post-infection (mpi) and to less extent at 60 mpi, which concurs with the expected time of ZIKV entry into the host cells.
In the remaining part of the study, the influence of ZIKV infection in EGFR-dependent signaling as well as the contribution of EGFR and EGFR signaling for viral infection were studied. Activation of EGFR and the MAPK/ERK signaling cascade was detected as early as 5 mpi and ceased within 30 mpi in ZIKV-infected cells. Taking into account that EGFR internalization was observed at 30 mpi in infected cells, the activation of EGFR and ERK and subsequent dephosphorylation within this period go along with this previous observation. Vice-versa, inhibition of the activation of EGFR and the MAPK/ERK pathway declines ZIKV infection. On the one hand, inhibition of EGFR activation by Erlotinib affected ZIKV entry, as a consequence of impaired EGFR internalization. On the other hand, Raf and MEK inhibitors reduced ZIKV infection without disturbing viral replication or viral entry. These data suggest that the activation of the MAPK/ERK signaling cascade is necessary for a step of the viral life cycle before the onset of genome replication and morphogenesis and after viral entry. The importance of EGFR signaling was additionally investigated by the determination of EGFR half-life in ZIKV-infected cells upon EGF stimulation. While the EGFR half-life was similar in uninfected and Uganda-infected cells, a delay in EGFR degradation was observed in French Polynesia-infected cells. This observation might indicate an extended usurpation of the EGFR signaling since EGFR seems to still be active in the endosomes. Moreover, disruption of lipid rafts by MβCD, a cholesterol-depleting agent, hampered ZIKV entry. In uninfected cells, MβCD treatment led to the activation of EGFR, but at the same time prevented EGFR internalization, indicating that EGFR activation exclusively is not sufficient for an efficient ZIKV entry and further supporting the importance of EGFR internalization during the ZIKV entry process.
Taken together, this study uncovers EGFR as a relevant host factor in the early stages of ZIKV infection, providing novel insights into the ZIKV entry process. Since numerous monoclonal antibodies and substances that target EGFR are licensed, repurposing these compounds might be a helpful tool for the establishment of an antiviral therapy in case of ZIKV re-emergence.