Department of Veterinary Medicine Theses and Dissertations

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    ZIKA VIRUS RECRUITS CELLULAR PROTEINS TO SUPPORT ITS REPLICATION
    (2024) Chang, Peixi; Zhang, Yanjin YJ; Veterinary Medical Science; Digital Repository at the University of Maryland; University of Maryland (College Park, Md.)
    Zika virus (ZIKV) is a mosquito-borne pathogen with a massive impact on global public health due to its association with severe neurological complications, including microcephaly in newborns and Guillain-Barré syndrome in adults. The ZIKV epidemic in the Americas in 2015-2016 and its continuing spread in tropical regions have highlighted the urgent need to understand the molecular mechanisms of viral replication to develop effective antiviral strategies. However, many aspects of how ZIKV interacts with host cells remain unclear. This study identifies and characterizes host factors contributing to ZIKV replication. First, karyopherin alpha 6 (KPNA6) contributes to ZIKV replication by interacting with the ZIKV non-structural protein NS2B. Characterization and mutational analyses identified two essential amino acid residues within NS2B that are critical for interacting with KPNA6. The substitution of these two residues of NS2B in an infectious ZIKV cDNA clone resulted in a significant reduction in viral replication, suggesting that the NS2B-KPNA6 interaction plays a vital role in the viral life cycle. Further studies found that KPNA6 contributes to ZIKV RNA synthesis. Mass spectrometry analysis of the KPNA6 interactome showed that KPNA6 interacts with proteins involved in RNA synthesis, suggesting that ZIKV recruits these factors by promoting KPNA6-binding. Second, this study developed an effective method to isolate the ZIKV replication complex, a membranous structure where viral RNA is synthesized. Proteomic analysis of the isolated complex led to identifying numerous host proteins associated with the viral replication machinery. Among these proteins, human replication factor C subunit 2 (RFC2), an accessory factor involved in DNA replication and repair, was discovered to facilitate ZIKV replication, making it a potential target for therapeutic interventions. In conclusion, this study reveals crucial host factors essential for ZIKV infection and replication and provides insights into the ZIKV-cell interactions. These findings offer new possibilities for developing novel antiviral strategies for controlling future viral outbreaks.