IFN-λ Inhibits MiR-122 Transcription through a Stat3-HNF4α Inflammatory Feedback Loop in an IFN-α Resistant HCV Cell Culture System

BACKGROUND: HCV replication in persistently infected cell culture remains resistant to IFN-α/RBV combination treatment, whereas IFN-λ1 induces viral clearance. The antiviral mechanisms by which IFN-λ1 induces sustained HCV clearance have not been determined. AIM: To investigate the mechanisms by whi...

Descripción completa

Detalles Bibliográficos
Autores principales: Aboulnasr, Fatma, Hazari, Sidhartha, Nayak, Satyam, Chandra, Partha K., Panigrahi, Rajesh, Ferraris, Pauline, Chava, Srinivas, Kurt, Ramazan, Song, Kyongsub, Dash, Asha, Balart, Luis A., Garry, Robert F., Wu, Tong, Dash, Srikanta
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2015
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4686105/
https://www.ncbi.nlm.nih.gov/pubmed/26657215
http://dx.doi.org/10.1371/journal.pone.0141655
_version_ 1782406408646426624
author Aboulnasr, Fatma
Hazari, Sidhartha
Nayak, Satyam
Chandra, Partha K.
Panigrahi, Rajesh
Ferraris, Pauline
Chava, Srinivas
Kurt, Ramazan
Song, Kyongsub
Dash, Asha
Balart, Luis A.
Garry, Robert F.
Wu, Tong
Dash, Srikanta
author_facet Aboulnasr, Fatma
Hazari, Sidhartha
Nayak, Satyam
Chandra, Partha K.
Panigrahi, Rajesh
Ferraris, Pauline
Chava, Srinivas
Kurt, Ramazan
Song, Kyongsub
Dash, Asha
Balart, Luis A.
Garry, Robert F.
Wu, Tong
Dash, Srikanta
author_sort Aboulnasr, Fatma
collection PubMed
description BACKGROUND: HCV replication in persistently infected cell culture remains resistant to IFN-α/RBV combination treatment, whereas IFN-λ1 induces viral clearance. The antiviral mechanisms by which IFN-λ1 induces sustained HCV clearance have not been determined. AIM: To investigate the mechanisms by which IFN-λ clears HCV replication in an HCV cell culture model. METHODS: IFN-α sensitive (S3-GFP) and resistant (R4-GFP) cells were treated with equivalent concentrations of either IFN-α or IFN-λ. The relative antiviral effects of IFN-α and IFN-λ1 were compared by measuring the HCV replication, quantification of HCV-GFP expression by flow cytometry, and viral RNA levels by real time RT-PCR. Activation of Jak-Stat signaling, interferon stimulated gene (ISG) expression, and miRNA-122 transcription in S3-GFP and R4-GFP cells were examined. RESULTS: We have shown that IFN-λ1 induces HCV clearance in IFN-α resistant and sensitive replicon cell lines in a dose dependent manner through Jak-Stat signaling, and induces STAT 1 and STAT 2 activation, ISRE-luciferase promoter activation and ISG expression. Stat 3 activation is also involved in IFN-λ1 induced antiviral activity in HCV cell culture. IFN-λ1 induced Stat 3 phosphorylation reduces the expression of hepatocyte nuclear factor 4 alpha (HNF4α) through miR-24 in R4-GFP cells. Reduced expression of HNF4α is associated with decreased expression of miR-122 resulting in an anti-HCV effect. Northern blot analysis confirms that IFN-λ1 reduces miR-122 levels in R4-GFP cells. Our results indicate that IFN-λ1 activates the Stat 3-HNF4α feedback inflammatory loop to inhibit miR-122 transcription in HCV cell culture. CONCLUSIONS: In addition to the classical Jak–Stat antiviral signaling pathway, IFN-λ1 inhibits HCV replication through the suppression of miRNA-122 transcription via an inflammatory Stat 3–HNF4α feedback loop. Inflammatory feedback circuits activated by IFNs during chronic inflammation expose non-responders to the risk of hepatocellular carcinoma.
format Online
Article
Text
id pubmed-4686105
institution National Center for Biotechnology Information
language English
publishDate 2015
publisher Public Library of Science
record_format MEDLINE/PubMed
spelling pubmed-46861052016-01-07 IFN-λ Inhibits MiR-122 Transcription through a Stat3-HNF4α Inflammatory Feedback Loop in an IFN-α Resistant HCV Cell Culture System Aboulnasr, Fatma Hazari, Sidhartha Nayak, Satyam Chandra, Partha K. Panigrahi, Rajesh Ferraris, Pauline Chava, Srinivas Kurt, Ramazan Song, Kyongsub Dash, Asha Balart, Luis A. Garry, Robert F. Wu, Tong Dash, Srikanta PLoS One Research Article BACKGROUND: HCV replication in persistently infected cell culture remains resistant to IFN-α/RBV combination treatment, whereas IFN-λ1 induces viral clearance. The antiviral mechanisms by which IFN-λ1 induces sustained HCV clearance have not been determined. AIM: To investigate the mechanisms by which IFN-λ clears HCV replication in an HCV cell culture model. METHODS: IFN-α sensitive (S3-GFP) and resistant (R4-GFP) cells were treated with equivalent concentrations of either IFN-α or IFN-λ. The relative antiviral effects of IFN-α and IFN-λ1 were compared by measuring the HCV replication, quantification of HCV-GFP expression by flow cytometry, and viral RNA levels by real time RT-PCR. Activation of Jak-Stat signaling, interferon stimulated gene (ISG) expression, and miRNA-122 transcription in S3-GFP and R4-GFP cells were examined. RESULTS: We have shown that IFN-λ1 induces HCV clearance in IFN-α resistant and sensitive replicon cell lines in a dose dependent manner through Jak-Stat signaling, and induces STAT 1 and STAT 2 activation, ISRE-luciferase promoter activation and ISG expression. Stat 3 activation is also involved in IFN-λ1 induced antiviral activity in HCV cell culture. IFN-λ1 induced Stat 3 phosphorylation reduces the expression of hepatocyte nuclear factor 4 alpha (HNF4α) through miR-24 in R4-GFP cells. Reduced expression of HNF4α is associated with decreased expression of miR-122 resulting in an anti-HCV effect. Northern blot analysis confirms that IFN-λ1 reduces miR-122 levels in R4-GFP cells. Our results indicate that IFN-λ1 activates the Stat 3-HNF4α feedback inflammatory loop to inhibit miR-122 transcription in HCV cell culture. CONCLUSIONS: In addition to the classical Jak–Stat antiviral signaling pathway, IFN-λ1 inhibits HCV replication through the suppression of miRNA-122 transcription via an inflammatory Stat 3–HNF4α feedback loop. Inflammatory feedback circuits activated by IFNs during chronic inflammation expose non-responders to the risk of hepatocellular carcinoma. Public Library of Science 2015-12-11 /pmc/articles/PMC4686105/ /pubmed/26657215 http://dx.doi.org/10.1371/journal.pone.0141655 Text en © 2015 Aboulnasr et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Aboulnasr, Fatma
Hazari, Sidhartha
Nayak, Satyam
Chandra, Partha K.
Panigrahi, Rajesh
Ferraris, Pauline
Chava, Srinivas
Kurt, Ramazan
Song, Kyongsub
Dash, Asha
Balart, Luis A.
Garry, Robert F.
Wu, Tong
Dash, Srikanta
IFN-λ Inhibits MiR-122 Transcription through a Stat3-HNF4α Inflammatory Feedback Loop in an IFN-α Resistant HCV Cell Culture System
title IFN-λ Inhibits MiR-122 Transcription through a Stat3-HNF4α Inflammatory Feedback Loop in an IFN-α Resistant HCV Cell Culture System
title_full IFN-λ Inhibits MiR-122 Transcription through a Stat3-HNF4α Inflammatory Feedback Loop in an IFN-α Resistant HCV Cell Culture System
title_fullStr IFN-λ Inhibits MiR-122 Transcription through a Stat3-HNF4α Inflammatory Feedback Loop in an IFN-α Resistant HCV Cell Culture System
title_full_unstemmed IFN-λ Inhibits MiR-122 Transcription through a Stat3-HNF4α Inflammatory Feedback Loop in an IFN-α Resistant HCV Cell Culture System
title_short IFN-λ Inhibits MiR-122 Transcription through a Stat3-HNF4α Inflammatory Feedback Loop in an IFN-α Resistant HCV Cell Culture System
title_sort ifn-λ inhibits mir-122 transcription through a stat3-hnf4α inflammatory feedback loop in an ifn-α resistant hcv cell culture system
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4686105/
https://www.ncbi.nlm.nih.gov/pubmed/26657215
http://dx.doi.org/10.1371/journal.pone.0141655
work_keys_str_mv AT aboulnasrfatma ifnlinhibitsmir122transcriptionthroughastat3hnf4ainflammatoryfeedbackloopinanifnaresistanthcvcellculturesystem
AT hazarisidhartha ifnlinhibitsmir122transcriptionthroughastat3hnf4ainflammatoryfeedbackloopinanifnaresistanthcvcellculturesystem
AT nayaksatyam ifnlinhibitsmir122transcriptionthroughastat3hnf4ainflammatoryfeedbackloopinanifnaresistanthcvcellculturesystem
AT chandraparthak ifnlinhibitsmir122transcriptionthroughastat3hnf4ainflammatoryfeedbackloopinanifnaresistanthcvcellculturesystem
AT panigrahirajesh ifnlinhibitsmir122transcriptionthroughastat3hnf4ainflammatoryfeedbackloopinanifnaresistanthcvcellculturesystem
AT ferrarispauline ifnlinhibitsmir122transcriptionthroughastat3hnf4ainflammatoryfeedbackloopinanifnaresistanthcvcellculturesystem
AT chavasrinivas ifnlinhibitsmir122transcriptionthroughastat3hnf4ainflammatoryfeedbackloopinanifnaresistanthcvcellculturesystem
AT kurtramazan ifnlinhibitsmir122transcriptionthroughastat3hnf4ainflammatoryfeedbackloopinanifnaresistanthcvcellculturesystem
AT songkyongsub ifnlinhibitsmir122transcriptionthroughastat3hnf4ainflammatoryfeedbackloopinanifnaresistanthcvcellculturesystem
AT dashasha ifnlinhibitsmir122transcriptionthroughastat3hnf4ainflammatoryfeedbackloopinanifnaresistanthcvcellculturesystem
AT balartluisa ifnlinhibitsmir122transcriptionthroughastat3hnf4ainflammatoryfeedbackloopinanifnaresistanthcvcellculturesystem
AT garryrobertf ifnlinhibitsmir122transcriptionthroughastat3hnf4ainflammatoryfeedbackloopinanifnaresistanthcvcellculturesystem
AT wutong ifnlinhibitsmir122transcriptionthroughastat3hnf4ainflammatoryfeedbackloopinanifnaresistanthcvcellculturesystem
AT dashsrikanta ifnlinhibitsmir122transcriptionthroughastat3hnf4ainflammatoryfeedbackloopinanifnaresistanthcvcellculturesystem

Ejemplares similares