2019
DOI: 10.1101/619932
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Rotavirus NSP1 localizes in the nucleus to disrupt PML nuclear bodies during infection

Abstract: word count: 211 14 Importance word count: 131 15 Text word count: 6,050 16 17 ABSTRACT 20The rotavirus nonstructural protein 1 (NSP1) antagonizes interferon (IFN) induction in 21 infected host cells. The primary function of NSP1 is thought to be degradation of interferon 22 regulatory factors (IRFs) and beta-transducin repeat-containing protein (β-TrCP) in the 23 cytoplasm to inhibit IFN induction. Here, we report that NSP1 localizes to the cytoplasm and 24 nucleus and disrupts promyelocytic (PML) nuclear bodi… Show more

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Cited by 5 publications
(5 citation statements)
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“…The size of gs5 ∗ -HA-EGFP ∗ was too large to detect the edited segment by dsRNA gel migration ( Figure S6 A), but by Sanger sequencing decomposition ( Brinkman et al., 2014 ), the total editing efficiency was 9.6% and the only significant editing event was the in-frame Δ36 deletion ( Figure S6 B). Cytofluorimetric analysis ( Figure 4 B) and confocal fluorescence images ( Figures 4 C and 4D; Figure S6 C) of NSP1-EGFP spots ( Murphy and Arnold, 2019 ) showed 15% of EGFP-positive cells in rRV-infected MA-NSP5-Csy4 at 12 hpi. EGFP was detected only in cells sustaining viral replication (anti-NSP2) ( Figure 4 C) and was compromised upon inhibition of viroplasm formation by the proteasome inhibitor MG132 ( Contin et al., 2011 ; Figures 4 E and 4F; Figure S6 E).…”
Section: Resultsmentioning
confidence: 99%
“…The size of gs5 ∗ -HA-EGFP ∗ was too large to detect the edited segment by dsRNA gel migration ( Figure S6 A), but by Sanger sequencing decomposition ( Brinkman et al., 2014 ), the total editing efficiency was 9.6% and the only significant editing event was the in-frame Δ36 deletion ( Figure S6 B). Cytofluorimetric analysis ( Figure 4 B) and confocal fluorescence images ( Figures 4 C and 4D; Figure S6 C) of NSP1-EGFP spots ( Murphy and Arnold, 2019 ) showed 15% of EGFP-positive cells in rRV-infected MA-NSP5-Csy4 at 12 hpi. EGFP was detected only in cells sustaining viral replication (anti-NSP2) ( Figure 4 C) and was compromised upon inhibition of viroplasm formation by the proteasome inhibitor MG132 ( Contin et al., 2011 ; Figures 4 E and 4F; Figure S6 E).…”
Section: Resultsmentioning
confidence: 99%
“…Our data suggest that NSP1 likely facilitates virus replication independently of the IFN and inflammasome signaling and beyond one replication cycle. Interestingly, NSP1 has been shown to be localized to the nucleus during viral infection, and this relocalization disrupted the function of promyelocytic nuclear bodies, which was related to host stress responses ( 29 ). More recently, NSP1 has been linked to the inhibition of the transcription ( 30 ) but not the translation ( 14 ) of IRF1.…”
Section: Discussionmentioning
confidence: 99%
“…In vivo attenuation could not be fully rescued in STAT1 knockout mice, suggesting a previously unknown role for NSP1 in IFN-independent signaling. NSP1 also seems to localize to the nucleus and disrupt promyelocytic nuclear bodies ( 211 ). Dissecting the complex activities and associated domains of the multifunctional NSP1 will be challenging, but key to a complete picture of RV innate immune evasion.…”
Section: Rv Studies In the Era Of Reverse Geneticsmentioning
confidence: 99%