Literature DB >> 29133371

Turnip Mosaic Virus Counteracts Selective Autophagy of the Viral Silencing Suppressor HCpro.

Anders Hafrén1, Suayib Üstün1, Anton Hochmuth1, Steingrim Svenning2, Terje Johansen2, Daniel Hofius3.   

Abstract

Autophagy is a conserved intracellular degradation pathway and has emerged as a key mechanism of antiviral immunity in metazoans, including the selective elimination of viral components. In turn, some animal viruses are able to escape and modulate autophagy for enhanced pathogenicity. Whether host autophagic responses and viral countermeasures play similar roles in plant-virus interactions is not well understood. Here, we have identified selective autophagy as antiviral pathway during plant infection with turnip mosaic virus (TuMV), a positive-stranded RNA potyvirus. We show that the autophagy cargo receptor NBR1 suppresses viral accumulation by targeting the viral RNA silencing suppressor helper-component proteinase (HCpro), presumably in association with virus-induced RNA granules. Intriguingly, TuMV seems to antagonize NBR1-dependent autophagy during infection by the activity of distinct viral proteins, thereby limiting its antiviral capacity. We also found that NBR1-independent bulk autophagy prevents premature plant death, thus extending the lifespan of virus reservoirs and particle production. Together, our study highlights a conserved role of selective autophagy in antiviral immunity and suggests the evolvement of viral protein functions to inhibit autophagy processes, despite a potential trade-off in host survival.
© 2018 American Society of Plant Biologists. All Rights Reserved.

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Year:  2017        PMID: 29133371      PMCID: PMC5761789          DOI: 10.1104/pp.17.01198

Source DB:  PubMed          Journal:  Plant Physiol        ISSN: 0032-0889            Impact factor:   8.340


  60 in total

1.  Potyviral VPg enhances viral RNA Translation and inhibits reporter mRNA translation in planta.

Authors:  Katri Eskelin; Anders Hafrén; Kimmo I Rantalainen; Kristiina Mäkinen
Journal:  J Virol       Date:  2011-06-22       Impact factor: 5.103

2.  Processing of ATG8s, ubiquitin-like proteins, and their deconjugation by ATG4s are essential for plant autophagy.

Authors:  Kohki Yoshimoto; Hideki Hanaoka; Shusei Sato; Tomohiko Kato; Satoshi Tabata; Takeshi Noda; Yoshinori Ohsumi
Journal:  Plant Cell       Date:  2004-10-19       Impact factor: 11.277

3.  Cytoplasmic RNA Granules and Viral Infection.

Authors:  Wei-Chih Tsai; Richard E Lloyd
Journal:  Annu Rev Virol       Date:  2014-11       Impact factor: 10.431

4.  Autophagy is an essential component of Drosophila immunity against vesicular stomatitis virus.

Authors:  Spencer Shelly; Nina Lukinova; Shelly Bambina; Allison Berman; Sara Cherry
Journal:  Immunity       Date:  2009-04-09       Impact factor: 31.745

5.  Development of series of gateway binary vectors, pGWBs, for realizing efficient construction of fusion genes for plant transformation.

Authors:  Tsuyoshi Nakagawa; Takayuki Kurose; Takeshi Hino; Katsunori Tanaka; Makoto Kawamukai; Yasuo Niwa; Kiminori Toyooka; Ken Matsuoka; Tetsuro Jinbo; Tetsuya Kimura
Journal:  J Biosci Bioeng       Date:  2007-07       Impact factor: 2.894

6.  Evolution of plant eukaryotic initiation factor 4E (eIF4E) and potyvirus genome-linked protein (VPg): a game of mirrors impacting resistance spectrum and durability.

Authors:  B Moury; C Charron; B Janzac; V Simon; J L Gallois; A Palloix; C Caranta
Journal:  Infect Genet Evol       Date:  2013-12-03       Impact factor: 3.342

7.  Cell death control: the interplay of apoptosis and autophagy in the pathogenicity of Sclerotinia sclerotiorum.

Authors:  Mehdi Kabbage; Brett Williams; Martin B Dickman
Journal:  PLoS Pathog       Date:  2013-04-11       Impact factor: 6.823

8.  NBR1-mediated selective autophagy targets insoluble ubiquitinated protein aggregates in plant stress responses.

Authors:  Jie Zhou; Jian Wang; Yuan Cheng; Ying-Jun Chi; Baofang Fan; Jing-Quan Yu; Zhixiang Chen
Journal:  PLoS Genet       Date:  2013-01-17       Impact factor: 5.917

9.  Inhibition of autophagy, lysosome and VCP function impairs stress granule assembly.

Authors:  S J Seguin; F F Morelli; J Vinet; D Amore; S De Biasi; A Poletti; D C Rubinsztein; S Carra
Journal:  Cell Death Differ       Date:  2014-07-18       Impact factor: 15.828

10.  An effector of the Irish potato famine pathogen antagonizes a host autophagy cargo receptor.

Authors:  Yasin F Dagdas; Khaoula Belhaj; Abbas Maqbool; Angela Chaparro-Garcia; Pooja Pandey; Benjamin Petre; Nadra Tabassum; Neftaly Cruz-Mireles; Richard K Hughes; Jan Sklenar; Joe Win; Frank Menke; Kim Findlay; Mark J Banfield; Sophien Kamoun; Tolga O Bozkurt
Journal:  Elife       Date:  2016-01-14       Impact factor: 8.140
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  54 in total

1.  Barley stripe mosaic virus γb Protein Subverts Autophagy to Promote Viral Infection by Disrupting the ATG7-ATG8 Interaction.

Authors:  Meng Yang; Yongliang Zhang; Xialin Xie; Ning Yue; Jinlin Li; Xian-Bing Wang; Chenggui Han; Jialin Yu; Yule Liu; Dawei Li
Journal:  Plant Cell       Date:  2018-05-30       Impact factor: 11.277

Review 2.  Combating stress: the interplay between hormone signaling and autophagy in plants.

Authors:  Ching-Yi Liao; Diane C Bassham
Journal:  J Exp Bot       Date:  2020-03-12       Impact factor: 6.992

3.  Cotton leaf curl Multan virus βC1 Protein Induces Autophagy by Disrupting the Interaction of Autophagy-Related Protein 3 with Glyceraldehyde-3-Phosphate Dehydrogenases.

Authors:  Asigul Ismayil; Meng Yang; Yakupjan Haxim; Yunjing Wang; Jinlin Li; Lu Han; Yan Wang; Xiyin Zheng; Xiang Wei; Ugrappa Nagalakshmi; Yiguo Hong; Linda Hanley-Bowdoin; Yule Liu
Journal:  Plant Cell       Date:  2020-02-12       Impact factor: 11.277

4.  Bacteria Exploit Autophagy for Proteasome Degradation and Enhanced Virulence in Plants.

Authors:  Suayib Üstün; Anders Hafrén; Qinsong Liu; Richard S Marshall; Elena A Minina; Peter V Bozhkov; Richard D Vierstra; Daniel Hofius
Journal:  Plant Cell       Date:  2018-03-01       Impact factor: 11.277

5.  A viral protein disrupts vacuolar acidification to facilitate virus infection in plants.

Authors:  Meng Yang; Asigul Ismayil; Zhihao Jiang; Yan Wang; Xiyin Zheng; Liming Yan; Yiguo Hong; Dawei Li; Yule Liu
Journal:  EMBO J       Date:  2021-12-09       Impact factor: 11.598

6.  Interaction of ToLCNDV TrAP with SlATG8f marks it susceptible to degradation by autophagy.

Authors:  Ashish Prasad; Manoj Prasad
Journal:  Cell Mol Life Sci       Date:  2022-04-15       Impact factor: 9.261

7.  An oomycete effector subverts host vesicle trafficking to channel starvation-induced autophagy to the pathogen interface.

Authors:  Pooja Pandey; Alexandre Y Leary; Yasin Tumtas; Zachary Savage; Bayantes Dagvadorj; Cian Duggan; Enoch Lh Yuen; Nattapong Sanguankiattichai; Emily Tan; Virendrasinh Khandare; Amber J Connerton; Temur Yunusov; Mathias Madalinski; Federico Gabriel Mirkin; Sebastian Schornack; Yasin Dagdas; Sophien Kamoun; Tolga O Bozkurt
Journal:  Elife       Date:  2021-08-23       Impact factor: 8.140

Review 8.  Regulatory roles of selective autophagy through targeting of native proteins in plant adaptive responses.

Authors:  Yan Zhang; Gengshou Xia; Li Sheng; Mingjue Chen; Chenyang Hu; Yule Ye; Xiaoyan Yue; Shaocong Chen; Wenwu OuYang; Zhenkai Xia
Journal:  Plant Cell Rep       Date:  2022-08-03       Impact factor: 4.964

9.  A bacterial effector counteracts host autophagy by promoting degradation of an autophagy component.

Authors:  Jia Xuan Leong; Margot Raffeiner; Daniela Spinti; Gautier Langin; Mirita Franz-Wachtel; Andrew R Guzman; Jung-Gun Kim; Pooja Pandey; Alyona E Minina; Boris Macek; Anders Hafrén; Tolga O Bozkurt; Mary Beth Mudgett; Frederik Börnke; Daniel Hofius; Suayib Üstün
Journal:  EMBO J       Date:  2022-05-27       Impact factor: 14.012

Review 10.  Bacterial effectors mimicking ubiquitin-proteasome pathway tweak plant immunity.

Authors:  Priyadharshini Ramachandran; Beslin Joshi J; Julie A Maupin-Furlow; Sivakumar Uthandi
Journal:  Microbiol Res       Date:  2021-06-30       Impact factor: 5.070
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