NS5A Promotes Constitutive Degradation of IP3R3 to Counteract Apoptosis Induced by Hepatitis C Virus

NS5A Promotes Constitutive Degradation of IP3R3 to Counteract Apoptosis Induced by Hepatitis C Virus

Summary: FBXL2 targets IP3R3 for ubiquitin-mediated degradation to limit Ca2+ flux to mitochondria and, consequently, apoptosis. Efficient replication of hepatitis C virus (HCV) requires geranylgeranylation of FBXL2. Here, we show that the viral protein NS5A forms a trimeric complex with IP3R3 and F...

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Main Authors: Shafi Kuchay, Mohsan Saeed, Carlotta Giorgi, Jie Li, Hans-Heinrich Hoffmann, Paolo Pinton, Charles M. Rice, Michele Pagano
Format: Article
Language:English
Published: Elsevier 2018-10-01
Series:Cell Reports
Online Access:http://www.sciencedirect.com/science/article/pii/S2211124718315596
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spelling doaj-da219c7ebe694db1a53793f1e479a96b2020-11-24T21:24:36ZengElsevierCell Reports2211-12472018-10-01254833840.e3NS5A Promotes Constitutive Degradation of IP3R3 to Counteract Apoptosis Induced by Hepatitis C VirusShafi Kuchay0Mohsan Saeed1Carlotta Giorgi2Jie Li3Hans-Heinrich Hoffmann4Paolo Pinton5Charles M. Rice6Michele Pagano7Department of Biochemistry and Molecular Pharmacology, Laura and Isaac Perlmutter NYU Cancer Center, New York University School of Medicine, 522 First Avenue, SRB 1107, New York, NY 10016, USA; Howard Hughes Medical Institute, 522 First Avenue, SRB 1107, New York, NY 10016, USA; Corresponding authorLaboratory of Virology and Infectious Disease, Center for the Study of Hepatitis C, The Rockefeller University, New York, NY 10065, USADepartment of Biochemistry and Molecular Pharmacology, Laura and Isaac Perlmutter NYU Cancer Center, New York University School of Medicine, 522 First Avenue, SRB 1107, New York, NY 10016, USA; Department of Morphology, Surgery and Experimental Medicine, Section of Pathology, Oncology and Experimental Biology, Laboratory for Technologies of Advanced Therapies (LTTA), University of Ferrara, Ferrara, ItalyDepartment of Biochemistry and Molecular Pharmacology, Laura and Isaac Perlmutter NYU Cancer Center, New York University School of Medicine, 522 First Avenue, SRB 1107, New York, NY 10016, USALaboratory of Virology and Infectious Disease, Center for the Study of Hepatitis C, The Rockefeller University, New York, NY 10065, USADepartment of Morphology, Surgery and Experimental Medicine, Section of Pathology, Oncology and Experimental Biology, Laboratory for Technologies of Advanced Therapies (LTTA), University of Ferrara, Ferrara, ItalyLaboratory of Virology and Infectious Disease, Center for the Study of Hepatitis C, The Rockefeller University, New York, NY 10065, USA; Corresponding authorDepartment of Biochemistry and Molecular Pharmacology, Laura and Isaac Perlmutter NYU Cancer Center, New York University School of Medicine, 522 First Avenue, SRB 1107, New York, NY 10016, USA; Howard Hughes Medical Institute, 522 First Avenue, SRB 1107, New York, NY 10016, USA; Corresponding authorSummary: FBXL2 targets IP3R3 for ubiquitin-mediated degradation to limit Ca2+ flux to mitochondria and, consequently, apoptosis. Efficient replication of hepatitis C virus (HCV) requires geranylgeranylation of FBXL2. Here, we show that the viral protein NS5A forms a trimeric complex with IP3R3 and FBXL2, unmasking IP3R3’s degron in the absence of inositol 1,4,5-trisphosphate (IP3) stimulation. FBXL2 knockdown or expression of a stable IP3R3 mutant causes persistent Ca2+ flux and sensitizes cells to apoptosis, resulting in the inhibition of viral replication. Importantly, the effect of FBXL2 silencing is rescued by depleting IP3R3, but not p85β, another established FBXL2 substrate, indicating that the anti-HCV effect of FBXL2 knockdown is largely due to IP3R3 stabilization. Finally, disruption of the FBXL2-NS5A-IP3R3 complex using somatic cell genetics or pharmacologic inhibition results in IP3R3 stabilization and suppression of HCV replication. This study reveals an IP3-independent molecular mechanism through which HCV promotes IP3R3 degradation, thereby inhibiting virus-induced apoptosis and establishing chronic infection. : Kuchay et al. show that the HCV NS5A protein forms a complex with IP3R3 and FBXL2 and promotes constitutive FBXL2-mediated degradation of IP3R3. IP3R3 degradation inhibits calcium flux, mitochondrial calcium overload, and apoptosis. Thus, NS5A contributes to a cellular environment that is permissive for chronic HCV infection. Keywords: ubiquitin, ubiquitin ligase, FBXL2, hepatitis C virus, calcium overload, IP3R3, HCV-NS5A, apoptosis, proteasomal degradationhttp://www.sciencedirect.com/science/article/pii/S2211124718315596
collection DOAJ
language English
format Article
sources DOAJ
author Shafi Kuchay
Mohsan Saeed
Carlotta Giorgi
Jie Li
Hans-Heinrich Hoffmann
Paolo Pinton
Charles M. Rice
Michele Pagano
spellingShingle Shafi Kuchay
Mohsan Saeed
Carlotta Giorgi
Jie Li
Hans-Heinrich Hoffmann
Paolo Pinton
Charles M. Rice
Michele Pagano
NS5A Promotes Constitutive Degradation of IP3R3 to Counteract Apoptosis Induced by Hepatitis C Virus
Cell Reports
author_facet Shafi Kuchay
Mohsan Saeed
Carlotta Giorgi
Jie Li
Hans-Heinrich Hoffmann
Paolo Pinton
Charles M. Rice
Michele Pagano
author_sort Shafi Kuchay
title NS5A Promotes Constitutive Degradation of IP3R3 to Counteract Apoptosis Induced by Hepatitis C Virus
title_short NS5A Promotes Constitutive Degradation of IP3R3 to Counteract Apoptosis Induced by Hepatitis C Virus
title_full NS5A Promotes Constitutive Degradation of IP3R3 to Counteract Apoptosis Induced by Hepatitis C Virus
title_fullStr NS5A Promotes Constitutive Degradation of IP3R3 to Counteract Apoptosis Induced by Hepatitis C Virus
title_full_unstemmed NS5A Promotes Constitutive Degradation of IP3R3 to Counteract Apoptosis Induced by Hepatitis C Virus
title_sort ns5a promotes constitutive degradation of ip3r3 to counteract apoptosis induced by hepatitis c virus
publisher Elsevier
series Cell Reports
issn 2211-1247
publishDate 2018-10-01
description Summary: FBXL2 targets IP3R3 for ubiquitin-mediated degradation to limit Ca2+ flux to mitochondria and, consequently, apoptosis. Efficient replication of hepatitis C virus (HCV) requires geranylgeranylation of FBXL2. Here, we show that the viral protein NS5A forms a trimeric complex with IP3R3 and FBXL2, unmasking IP3R3’s degron in the absence of inositol 1,4,5-trisphosphate (IP3) stimulation. FBXL2 knockdown or expression of a stable IP3R3 mutant causes persistent Ca2+ flux and sensitizes cells to apoptosis, resulting in the inhibition of viral replication. Importantly, the effect of FBXL2 silencing is rescued by depleting IP3R3, but not p85β, another established FBXL2 substrate, indicating that the anti-HCV effect of FBXL2 knockdown is largely due to IP3R3 stabilization. Finally, disruption of the FBXL2-NS5A-IP3R3 complex using somatic cell genetics or pharmacologic inhibition results in IP3R3 stabilization and suppression of HCV replication. This study reveals an IP3-independent molecular mechanism through which HCV promotes IP3R3 degradation, thereby inhibiting virus-induced apoptosis and establishing chronic infection. : Kuchay et al. show that the HCV NS5A protein forms a complex with IP3R3 and FBXL2 and promotes constitutive FBXL2-mediated degradation of IP3R3. IP3R3 degradation inhibits calcium flux, mitochondrial calcium overload, and apoptosis. Thus, NS5A contributes to a cellular environment that is permissive for chronic HCV infection. Keywords: ubiquitin, ubiquitin ligase, FBXL2, hepatitis C virus, calcium overload, IP3R3, HCV-NS5A, apoptosis, proteasomal degradation
url http://www.sciencedirect.com/science/article/pii/S2211124718315596
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