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https://dora.health.qld.gov.au/qldresearchjspui/handle/1/4580| Title: | Severe viral respiratory infections in children with IFIH1 loss-of-function mutations | Authors: | Anchisi, S. Hammer, C. Bartha, I. Junier, T. Mottet-Osman, G. Posfay-Barbe, K. M. Longchamp, D. Stocker, M. Cordey, S. Kaiser, L. Riedel, T. Kenna, T. Long, D. Schibler, A. Telenti, A. Tapparel, C. McLaren, P. J. Garcin, D. Fellay, J. Asgari, S. Schlapbach, L. J. |
Issue Date: | 2017 | Source: | 114, (31), 2017, p. 8342-8347 | Pages: | 8342-8347 | Journal: | Proceedings of the National Academy of Sciences of the United States of America | Abstract: | Viral respiratory infections are usually mild and self-limiting; still they exceptionally result in life-threatening infections in previously healthy children. To investigate a potential genetic cause, we recruited 120 previously healthy children requiring support in intensive care because of a severe illness caused by a respiratory virus. Using exome and transcriptome sequencing, we identified and characterized three rare loss-of-function variants in IFIH1, which encodes an RIG-I-like receptor involved in the sensing of viral RNA. Functional testing of the variants IFIH1 alleles demonstrated that the resulting proteins are unable to induce IFN-ß, are intrinsically less stable than wild-type IFIH1, and lack ATPase activity. In vitro assays showed that IFIH1 effectively restricts replication of human respiratory syncytial virus and rhinoviruses. We conclude that IFIH1 deficiency causes a primary immunodeficiency manifested in extreme susceptibility to common respiratory RNA viruses.L6175935562017-08-10 | DOI: | 10.1073/pnas.1704259114 | Resources: | https://www.embase.com/search/results?subaction=viewrecord&id=L617593556&from=exporthttp://dx.doi.org/10.1073/pnas.1704259114 | | Keywords: | RNA sequence;stop codon;viral respiratory tract infection;whole exome sequencing;virus replication;adenosine triphosphatasebeta interferon;DNA;interferon induced helicase C domain containing protein 1;transcriptome;antigen recognition;article;bronchiolitis;child;childhood disease;controlled study;disease severity;enzyme activity;female;frameshift mutation;gene frequency;gene identification;gene sequence;gene targeting;human;Human respiratory syncytial virus;immune deficiency;in vitro study;infant;intensive care;loss of function mutation;major clinical study;male;nonhuman;pediatric intensive care unit;peripheral blood mononuclear cell;priority journal;protein stability;respiratory syncytial virus infection | Type: | Article |
| Appears in Sites: | Children's Health Queensland Publications |
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