Viral Insulin/IGF-like Peptides Inhibit IGF-1 Receptor Signaling to Enhance Viral Replication
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ABSTRACT: The insulin/IGF system plays a central role in regulating metabolism and growth. We identified viral insulin/IGF1-like peptides (VILPs) in Iridoviridae and investigated their role in host-virus interactions. Using Grouper Iridovirus (GIV) on grouper and zebrafish cells, we show that VILPs are early viral genes and are secreted during infection. VILPs activate insulin receptor (IR) and IGF-1 receptor (IGF1R) phosphorylation and stimulate the PI3K pathway. Supernatants from infected cells trigger dose and time-dependent signaling with GIV-VILP selectively interacts with IGF1R. Functionally, IR inhibition suppresses GIV replication, whereas IGF1R inhibition enhances it, and IGF-1 stimulation reduces replication. During infection, GIV-VILP competes with IGF-1, attenuating IGF1R signaling and reducing proliferation. Transcriptome analysis confirms negative regulation of cell cycle pathways. Using a zebrafish infection model, we demonstrate VILP expression and IGF-1 signaling inhibition. Our findings reveal a viral mimicry mechanism that modulates host IGF-1 signaling to promote viral replication.
ORGANISM(S): Epinephelus coioides
PROVIDER: GSE301660 | GEO | 2025/07/08
REPOSITORIES: GEO
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