A polymorphic residue that attenuates the antiviral potential of interferon lambda 4 in hominid lineages.

A polymorphic residue that attenuates the antiviral potential of interferon lambda 4 in hominid lineages.

As antimicrobial signalling molecules, type III or lambda interferons (IFNλs) are critical for defence against infection by diverse pathogens, including bacteria, fungi and viruses. Counter-intuitively, expression of one member of the family, IFNλ4, is associated with decreased clearance of hepatiti...

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Main Authors: Connor G G Bamford, Elihu Aranday-Cortes, Ines Cordeiro Filipe, Swathi Sukumar, Daniel Mair, Ana da Silva Filipe, Juan L Mendoza, K Christopher Garcia, Shaohua Fan, Sarah A Tishkoff, John McLauchlan
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2018-10-01
Series:PLoS Pathogens
Online Access:http://europepmc.org/articles/PMC6181419?pdf=render
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spelling doaj-cf343b4a4c164812bd8a9eb06ac01eca2020-11-25T01:22:40ZengPublic Library of Science (PLoS)PLoS Pathogens1553-73661553-73742018-10-011410e100730710.1371/journal.ppat.1007307A polymorphic residue that attenuates the antiviral potential of interferon lambda 4 in hominid lineages.Connor G G BamfordElihu Aranday-CortesInes Cordeiro FilipeSwathi SukumarDaniel MairAna da Silva FilipeJuan L MendozaK Christopher GarciaShaohua FanSarah A TishkoffJohn McLauchlanAs antimicrobial signalling molecules, type III or lambda interferons (IFNλs) are critical for defence against infection by diverse pathogens, including bacteria, fungi and viruses. Counter-intuitively, expression of one member of the family, IFNλ4, is associated with decreased clearance of hepatitis C virus (HCV) in the human population; by contrast, a natural frameshift mutation that abrogates IFNλ4 production improves HCV clearance. To further understand how genetic variation between and within species affects IFNλ4 function, we screened a panel of all known extant coding variants of human IFNλ4 for their antiviral potential and identify three that substantially affect activity: P70S, L79F and K154E. The most notable variant was K154E, which was found in African Congo rainforest 'Pygmy' hunter-gatherers. K154E greatly enhanced in vitro activity in a range of antiviral (HCV, Zika virus, influenza virus and encephalomyocarditis virus) and gene expression assays. Remarkably, E154 is the ancestral residue in mammalian IFNλ4s and is extremely well conserved, yet K154 has been fixed throughout evolution of the hominid genus Homo, including Neanderthals. Compared to chimpanzee IFNλ4, the human orthologue had reduced activity due to amino acid K154. Comparison of published gene expression data from humans and chimpanzees showed that this difference in activity between K154 and E154 in IFNλ4 correlates with differences in antiviral gene expression in vivo during HCV infection. Mechanistically, our data show that the human-specific K154 negatively affects IFNλ4 activity through a novel means by reducing its secretion and potency. We thus demonstrate that attenuated activity of IFNλ4 is conserved among humans and postulate that differences in IFNλ4 activity between species contribute to distinct host-specific responses to-and outcomes of-infection, such as HCV infection. The driver of reduced IFNλ4 antiviral activity in humans remains unknown but likely arose between 6 million and 360,000 years ago in Africa.http://europepmc.org/articles/PMC6181419?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Connor G G Bamford
Elihu Aranday-Cortes
Ines Cordeiro Filipe
Swathi Sukumar
Daniel Mair
Ana da Silva Filipe
Juan L Mendoza
K Christopher Garcia
Shaohua Fan
Sarah A Tishkoff
John McLauchlan
spellingShingle Connor G G Bamford
Elihu Aranday-Cortes
Ines Cordeiro Filipe
Swathi Sukumar
Daniel Mair
Ana da Silva Filipe
Juan L Mendoza
K Christopher Garcia
Shaohua Fan
Sarah A Tishkoff
John McLauchlan
A polymorphic residue that attenuates the antiviral potential of interferon lambda 4 in hominid lineages.
PLoS Pathogens
author_facet Connor G G Bamford
Elihu Aranday-Cortes
Ines Cordeiro Filipe
Swathi Sukumar
Daniel Mair
Ana da Silva Filipe
Juan L Mendoza
K Christopher Garcia
Shaohua Fan
Sarah A Tishkoff
John McLauchlan
author_sort Connor G G Bamford
title A polymorphic residue that attenuates the antiviral potential of interferon lambda 4 in hominid lineages.
title_short A polymorphic residue that attenuates the antiviral potential of interferon lambda 4 in hominid lineages.
title_full A polymorphic residue that attenuates the antiviral potential of interferon lambda 4 in hominid lineages.
title_fullStr A polymorphic residue that attenuates the antiviral potential of interferon lambda 4 in hominid lineages.
title_full_unstemmed A polymorphic residue that attenuates the antiviral potential of interferon lambda 4 in hominid lineages.
title_sort polymorphic residue that attenuates the antiviral potential of interferon lambda 4 in hominid lineages.
publisher Public Library of Science (PLoS)
series PLoS Pathogens
issn 1553-7366
1553-7374
publishDate 2018-10-01
description As antimicrobial signalling molecules, type III or lambda interferons (IFNλs) are critical for defence against infection by diverse pathogens, including bacteria, fungi and viruses. Counter-intuitively, expression of one member of the family, IFNλ4, is associated with decreased clearance of hepatitis C virus (HCV) in the human population; by contrast, a natural frameshift mutation that abrogates IFNλ4 production improves HCV clearance. To further understand how genetic variation between and within species affects IFNλ4 function, we screened a panel of all known extant coding variants of human IFNλ4 for their antiviral potential and identify three that substantially affect activity: P70S, L79F and K154E. The most notable variant was K154E, which was found in African Congo rainforest 'Pygmy' hunter-gatherers. K154E greatly enhanced in vitro activity in a range of antiviral (HCV, Zika virus, influenza virus and encephalomyocarditis virus) and gene expression assays. Remarkably, E154 is the ancestral residue in mammalian IFNλ4s and is extremely well conserved, yet K154 has been fixed throughout evolution of the hominid genus Homo, including Neanderthals. Compared to chimpanzee IFNλ4, the human orthologue had reduced activity due to amino acid K154. Comparison of published gene expression data from humans and chimpanzees showed that this difference in activity between K154 and E154 in IFNλ4 correlates with differences in antiviral gene expression in vivo during HCV infection. Mechanistically, our data show that the human-specific K154 negatively affects IFNλ4 activity through a novel means by reducing its secretion and potency. We thus demonstrate that attenuated activity of IFNλ4 is conserved among humans and postulate that differences in IFNλ4 activity between species contribute to distinct host-specific responses to-and outcomes of-infection, such as HCV infection. The driver of reduced IFNλ4 antiviral activity in humans remains unknown but likely arose between 6 million and 360,000 years ago in Africa.
url http://europepmc.org/articles/PMC6181419?pdf=render
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