ER-shaping atlastin proteins act as central hubs to promote flavivirus replication and virion assembly

Christopher J. Neufeldt; Mirko Cortese; Pietro Scaturro; Berati Cerikan; Jeremy G. Wideman; Keisuke Tabata; Thaís Moraes; Olga Oleksiuk; Andreas Pichlmair; Ralf Bartenschlager

doi:10.1038/s41564-019-0586-3

ER-shaping atlastin proteins act as central hubs to promote flavivirus replication and virion assembly

Christopher J. Neufeldt
, Mirko Cortese
, Pietro Scaturro
, Berati Cerikan
, Jeremy G. Wideman
, Keisuke Tabata
, Thaís Moraes
, Olga Oleksiuk
, Andreas Pichlmair
, Ralf Bartenschlager

Medicine and Health

Heidelberg University
Technical University of Munich
Dalhousie University, Faculty of Medicine
School of Life Sciences
German Center for Infection Research (DZIF)
Heidelberg Partner Site
German Cancer Research Center

Research output: Contribution to journal › Article › peer-review

70 Scopus citations

Abstract

Flaviviruses, including dengue virus and Zika virus, extensively remodel the cellular endomembrane network to generate replication organelles that promote viral genome replication and virus production. However, it remains unclear how these membranes and associated cellular proteins act during the virus cycle. Here, we show that atlastins (ATLs), a subset of ER resident proteins involved in neurodegenerative diseases, have dichotomous effects on flaviviruses—with ATL2 depletion leading to replication organelle defects, and ATL3 depletion to changes in virus production pathways. We characterized non-conserved functional domains in ATL paralogues and show that the ATL interactome is profoundly reprogrammed following dengue virus infection. Screen analysis confirmed non-redundant ATL functions and identified a specific role for ATL3, and its interactor ARF4, in vesicle trafficking and virion maturation. Our data identify ATLs as central hubs targeted by flaviviruses to establish their replication organelle and to achieve efficient virion maturation and secretion.

Original language	English
Pages (from-to)	2416-2429
Number of pages	14
Journal	Nature Microbiology
Volume	4
Issue number	12
DOIs	https://doi.org/10.1038/s41564-019-0586-3
State	Published - 1 Dec 2019

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title = "ER-shaping atlastin proteins act as central hubs to promote flavivirus replication and virion assembly",

abstract = "Flaviviruses, including dengue virus and Zika virus, extensively remodel the cellular endomembrane network to generate replication organelles that promote viral genome replication and virus production. However, it remains unclear how these membranes and associated cellular proteins act during the virus cycle. Here, we show that atlastins (ATLs), a subset of ER resident proteins involved in neurodegenerative diseases, have dichotomous effects on flaviviruses—with ATL2 depletion leading to replication organelle defects, and ATL3 depletion to changes in virus production pathways. We characterized non-conserved functional domains in ATL paralogues and show that the ATL interactome is profoundly reprogrammed following dengue virus infection. Screen analysis confirmed non-redundant ATL functions and identified a specific role for ATL3, and its interactor ARF4, in vesicle trafficking and virion maturation. Our data identify ATLs as central hubs targeted by flaviviruses to establish their replication organelle and to achieve efficient virion maturation and secretion.",

author = "Neufeldt, \{Christopher J.\} and Mirko Cortese and Pietro Scaturro and Berati Cerikan and Wideman, \{Jeremy G.\} and Keisuke Tabata and Tha{\'i}s Moraes and Olga Oleksiuk and Andreas Pichlmair and Ralf Bartenschlager",

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T1 - ER-shaping atlastin proteins act as central hubs to promote flavivirus replication and virion assembly

AU - Neufeldt, Christopher J.

AU - Cortese, Mirko

AU - Scaturro, Pietro

AU - Cerikan, Berati

AU - Wideman, Jeremy G.

AU - Tabata, Keisuke

AU - Moraes, Thaís

AU - Oleksiuk, Olga

AU - Pichlmair, Andreas

AU - Bartenschlager, Ralf

PY - 2019/12/1

Y1 - 2019/12/1

N2 - Flaviviruses, including dengue virus and Zika virus, extensively remodel the cellular endomembrane network to generate replication organelles that promote viral genome replication and virus production. However, it remains unclear how these membranes and associated cellular proteins act during the virus cycle. Here, we show that atlastins (ATLs), a subset of ER resident proteins involved in neurodegenerative diseases, have dichotomous effects on flaviviruses—with ATL2 depletion leading to replication organelle defects, and ATL3 depletion to changes in virus production pathways. We characterized non-conserved functional domains in ATL paralogues and show that the ATL interactome is profoundly reprogrammed following dengue virus infection. Screen analysis confirmed non-redundant ATL functions and identified a specific role for ATL3, and its interactor ARF4, in vesicle trafficking and virion maturation. Our data identify ATLs as central hubs targeted by flaviviruses to establish their replication organelle and to achieve efficient virion maturation and secretion.

AB - Flaviviruses, including dengue virus and Zika virus, extensively remodel the cellular endomembrane network to generate replication organelles that promote viral genome replication and virus production. However, it remains unclear how these membranes and associated cellular proteins act during the virus cycle. Here, we show that atlastins (ATLs), a subset of ER resident proteins involved in neurodegenerative diseases, have dichotomous effects on flaviviruses—with ATL2 depletion leading to replication organelle defects, and ATL3 depletion to changes in virus production pathways. We characterized non-conserved functional domains in ATL paralogues and show that the ATL interactome is profoundly reprogrammed following dengue virus infection. Screen analysis confirmed non-redundant ATL functions and identified a specific role for ATL3, and its interactor ARF4, in vesicle trafficking and virion maturation. Our data identify ATLs as central hubs targeted by flaviviruses to establish their replication organelle and to achieve efficient virion maturation and secretion.

UR - https://www.scopus.com/pages/publications/85074603907

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DO - 10.1038/s41564-019-0586-3

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SN - 2058-5276

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SP - 2416

EP - 2429

JO - Nature Microbiology

JF - Nature Microbiology

IS - 12

ER -

ER-shaping atlastin proteins act as central hubs to promote flavivirus replication and virion assembly

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