Functional conservation of suppressors of cytokine signaling proteins between teleosts and mammals: Atlantic salmon SOCS1 binds to JAK/STAT family members and suppresses type I and II IFN signaling

•The full-length cDNA sequences of Atlantic salmon SOCS1, two SOCS2-isoforms and CISH were cloned.•SOCS1 demonstrated strong negative regulatory activity on type I and II IFN signalling.•A direct interaction between SOCS1 and STAT1 and SOCS1 and Tyk2 were detected.•SOCS1 also inhibited STAT1 nuclear...

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Veröffentlicht in:Developmental and comparative immunology 2014-07, Vol.45 (1), p.177-189
Hauptverfasser: Skjesol, Astrid, Liebe, Theresa, Iliev, Dimitar B., Thomassen, Ernst I.S., Tollersrud, Linn Greiner, Sobhkhez, Mehrdad, Lindenskov Joensen, Lisbeth, Secombes, Christopher J., Jørgensen, Jorunn B.
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Sprache:eng
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Zusammenfassung:•The full-length cDNA sequences of Atlantic salmon SOCS1, two SOCS2-isoforms and CISH were cloned.•SOCS1 demonstrated strong negative regulatory activity on type I and II IFN signalling.•A direct interaction between SOCS1 and STAT1 and SOCS1 and Tyk2 were detected.•SOCS1 also inhibited STAT1 nuclear localization upon IFNγ-treatment. Suppressor of cytokine signaling (SOCS) proteins are crucially involved in the control of inflammatory responses through their impact on various signaling pathways including the JAK/STAT pathway. Although all SOCS protein family members are identified in teleost fish, their functional properties in non-mammalian vertebrates have not been extensively studied. To gain further insight into SOCS functions in bony fish, we have identified and characterized the Atlantic salmon (Salmo salar) SOCS1, SOCS2 and CISH genes. These genes exhibited sequence conservation with their mammalian counterparts and they were ubiquitously expressed. SOCS1 in mammalian species has been recognized as a key negative regulator of interferon (IFN) signaling and recent data for the two model fish Tetraodon (Tetraodon nigroviridis) and zebrafish (Danio rerio) suggest that these functions are conserved from teleost to mammals. In agreement with this we here demonstrate a strong negative regulatory activity of salmon SOCS1 on type I and type II IFN signaling, while SOCS2a and b and CISH only moderately affected IFN responses. SOCS1 also inhibited IFNγ-induced nuclear localization of STAT1 and a direct interaction between SOCS1 and STAT1 and between SOCS1 and the Tyk2 kinase was found. Using SOCS1 mutants lacking either the KIR domain or the ESS, SH2 and SOCS box domains showed that all domains affected the ability of SOCS1 to inhibit IFN-mediated signaling. These results are the first to demonstrate that SOCS1 is a potent inhibitor of IFN-mediated JAK-STAT signaling in teleost fish.
ISSN:0145-305X
1879-0089
DOI:10.1016/j.dci.2014.02.009