期刊
JOURNAL OF BIOLOGICAL CHEMISTRY
卷 298, 期 12, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.jbc.2022.102698
关键词
-
资金
- NIH
- [R01HL096376]
- [R01HL097376]
- [R01HL098174]
- [R01HL081784]
- [P01HL114453]
This study revealed that IFNLR1 protein is rapidly degraded after influenza infection, and FBXO45 mediates the polyubiquitination and degradation of IFNLR1 protein. Additionally, the expression and silencing of FBXO45 differentially regulate the stability of IFNLR1 protein and the expression of interferon-stimulated genes.
Influenza remains a major public health challenge, as the viral infection activates multiple biological networks linked to altered host innate immunity. Following infection, IFN-lambda, a ligand crucial for the resolution of viral infections, is known to bind to its cognate receptor, IFNLR1, in lung epithelia. How -ever, little is known regarding the molecular expression and regulation of IFNLR1. Here, we show that IFNLR1 is a labile protein in human airway epithelia that is rapidly degraded after influenza infection. Using an unbiased proximal ligation biotin screen, we first identified that the Skp-Cullin-F box E3 ligase subunit, FBXO45, binds to IFNLR1. We demonstrate that FBXO45, induced in response to influenza infection, mediates IFNLR1 protein polyubiquitination and degradation through the ubiquitin-proteasome system by docking with its intracel-lular receptor domain. Furthermore, we found ectopically expressed FBXO45 and its silencing in cells differentially regulated both IFNLR1 protein stability and interferon-stimulated gene expression. Mutagenesis studies also indi-cated that expression of a K319R/K320R IFNLR1 variant in cells exhibited reduced polyubiquitination, yet greater stability and proteolytic resistance to FBXO45 and influenza-mediated receptor degradation. These results indicate that the IFN-lambda- IFNLR1 receptor axis is tightly regulated by the Skp-Cullin-F box ubiquitin machinery, a pathway that may be exploited by influenza infection as a means to limit antiviral responses.
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