The CD97-PPM1G axis dampens antiviral immunity by dephosphorylating IRF7 in type I interferon pathway
Huasong Chang, Wenjing Qi, Rukun Yang, Peili Hou, Ran Kang, Xiaoyu Liu, Yingying Li, Hongmei Wang, Hongbin He, Emily Hemann, Emily Hemann, Emily Hemann

TL;DR
The study reveals how CD97 and PPM1G work together to weaken the body's antiviral defenses, offering new targets for antiviral therapies.
Contribution
The paper identifies the CD97-PPM1G axis as a novel regulator of antiviral immunity through IRF7 dephosphorylation.
Findings
CD97 recruits PPM1G to dephosphorylate IRF7, inhibiting the IFN-I response.
Mice lacking CD97 show increased resistance to viral infections.
Sanguinarine reduces CD97 expression and viral replication.
Abstract
The activation of type I interferon (IFN-I) signaling is crucial for defending host cells against viral infections. A comprehensive IFN-I response necessitates the activation of several cellular factors, among them Interferon Regulator Factor 7 (IRF7). Nonetheless, the mechanisms governing IRF7 inactivation in response to viral infection remain largely unknown. Here, we illustrate that Cluster of differentiation 97 (CD97), a G protein-coupled receptor, interacts with PPM1G via intracellular Arg-819 and Arg-822 residues. PPM1G then recruits and dephosphorylates IRF7, leading to its inhibition. CD97-mediated inactivation of IRF7 impedes its translocation into the nucleus and subsequent activation of IFN-I, ultimately promoting the viral replication. Moreover, mice lacking CD97 display heightened resistance to viral infection. The compound sanguinarine (SANG) hinders viral replication by…
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Taxonomy
Topicsinterferon and immune responses · Receptor Mechanisms and Signaling · RNA and protein synthesis mechanisms
