Abstract
As obligate intracellular parasites, viruses are exclusively and intimately dependent upon their host cells for replication. During replication viruses induce profound changes within cells, including: induction of signaling pathways, morphological changes, and cell death. Many such cellular perturbations have been analyzed at the transcriptomic level by gene arrays and recent efforts have begun to analyze cellular proteomic responses. We recently described comparative stable isotopic (SILAC) analyses of reovirus, strain type 3 Dearing (T3D)-infected HeLa cells. For the present study we employed the complementary labeling strategy of iTRAQ (isobaric tags for relative and absolute quantitation) to examine HeLa cell changes induced by T3D, another reovirus strain, type 1 Lang, and UV-inactivated T3D (UV-T3D). Triplicate replicates of cytosolic and nuclear fractions identified a total of 2375 proteins, of which 50, 57, and 46 were significantly up-regulated, and 37, 26, and 44 were significantly down-regulated by T1L, T3D, and UV-T3D, respectively. Several pathways, most notably the Interferon signaling pathway and the EIF2 and ILK signaling pathways, were induced by virus infection. Western blots confirmed that cells were more strongly activated by live T3D as demonstrated by elevated levels of key proteins like STAT-1, ISG-15, IFIT-1, IFIT-3, and Mx1. This study expands our understanding of reovirus-induced host responses.
Highlights
The mammalian orthoreoviruses (MRV) are non-enveloped viruses that contain a genome comprising 10 segments of double-strandedRNA
Protein Regulation Titration of the gradient-purified virions and comparisons to optically-determined particle counts indicated that the particleto-PFU ratios of the various virus samples were: type 1 Lang (T1L): 191; type 3 Dearing (T3D): 327; and UV-treated T3D: >3.5 × 108, respectively
Recent work by us and by others has begun to detect and measure quantitative differences in host mRNA and proteins induced by MRV infection
Summary
The mammalian orthoreoviruses (MRV) are non-enveloped viruses that contain a genome comprising 10 segments of double-stranded (ds)RNA. See Danthi et al (2010), Coombs (2011b), and Dermody et al (2013). MRV are the prototype members of the family Reoviridae, genus Orthoreovirus. The Ortheoreoviruses include fusogenic avian reovirus and non-fusogenic MRV and the Reoviridae family contains rotaviruses (Estes and Kapikian, 2007), orbiviruses (Roy, 2007), and at least 10 other genera, divided into two sub-families based upon particle morphology (Mertens et al, 2005; Coombs, 2011b; Dermody et al, 2013). MRV infections are generally mild in humans but most other family members are highly pathogenic
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