• Title of article

    Enterovirus 71 3C Protease Does Not Disrupt Interferon Type I Signaling Pathway

  • Author/Authors

    rasti, mojtaba Infectious and Tropical Diseases Research Center - Health Research Institute - Ahvaz Jundishapur University of Medical Sciences , makvandi, manoochehr Infectious and Tropical Diseases Research Center - Health Research Institute - Ahvaz Jundishapur University of Medical Sciences , teimoori, ali Department of Virology - Faculty of Medicine - Hamadan University of Medical Sciences , ghanbari, maryam Islamic Azad University, Medical Branch of Tehran

  • Pages
    7
  • From page
    1
  • To page
    7
  • Abstract
    background: the 3c protease is one of the most important proteases in enteroviruses which is responsible for several cleavages on viral polyproteins and maturation processes. some reports indicated that this protease disrupts the interferon (ifn) signaling pathway; however, another report shows that 3c protease does not have such inhibitory effects on ifn signaling. objectives: in this study, a construction was designed consisting of 3c protease to test its effects on interferon type i signaling pathway. methods: the designed construction containing 3c protease was transfected to rhabdomyosarcoma (rd) cells for evaluation of its effects on interferon signaling pathway. rhabdomyosarcoma cells were treated with interferon β for 4 hours and then the expression of two isgs including mxa and oas were analyzed by realtime pcr. all the proteins in interferon type i signaling pathway were also evaluated by western blot analysis. results: the results showed that 3c protease does not affect isg expression after ifn induction. western blot analysis also indicated that there is no difference in ifn pathway protein level between 3c protease treated and control groups. conclusions: this report suggests that 3c protease alone does not have a significant effect on ifn pathway, in contrast to any of the previous reports.
  • Keywords
    3C Protease , IFN Signaling Pathway , Enterovirus 71
  • Journal title
    Jundishapur Journal of Microbiology (JJM)
  • Serial Year
    2019
  • Record number

    2500310