Abstract
SOCS proteins play a major role in the regulation of cytokine signaling. They are recruited to activated receptors and can suppress signaling by different mechanisms including targeting of the receptor complex for proteasomal degradation. The activity of SOCS proteins is regulated at different levels including transcriptional control and posttranslational modification. We describe here a novel regulatory mechanism for CIS, one of the members of this protein family. A CIS mutant deficient in recruitment of the Elongin B/C complex completely failed to suppress STAT5 activation. This deficiency was not caused by altered turnover of CIS but by loss of cytokine receptor interaction. Intriguingly, no such effect was seen for binding to MyD88. The interaction between CIS and the Elongin B/C complex, which depends on the levels of uncomplexed Elongin B/C, was easily disrupted. This regulatory mechanism may be unique for CIS, as similar mutations in SOCS1, -2, -3, -6, and -7 had no functional impact. Our findings indicate that the SOCS box not only plays a role in the formation of E3 ligase complexes but, at least for CIS, can also regulate the binding modus of SOCS box-containing proteins.
Highlights
SOCS proteins are induced by a broad range of extracellular ligands and function in a negative feedback loop to modulate signal transduction by multiple cytokine and growth factor receptors [12,13,14]
It is assumed that Elongin B and C (B/C) binding has a double-edged effect on SOCS proteins: a degrading role by the link with the E3 ubiquitin ligase complex and a protective function by prevention of proteasomal turnover of the SOCS molecules themselves
We previously demonstrated that this mutation completely abrogated functional interaction with most cytokine receptor
Summary
CDNA of HEK293-T (human) pMG2-mCIS pMG2-CISdCul pMG2-Elongin B pMG2-Elongin C pMG2-Cullin pMG2-SOCS6dB/C pMET7-FLAG-mCISdCul cDNA of N38 (mouse) cDNA of N38 (mouse) pMET7-FLAG-mCullin pMG2-mSOCS6. PMET7-FLAG-Elongin B pMET7-FLAG-Elongin C pMET7-E-APOBEC3G cDNA of 3T3-F442A (mouse) pMG2-mElongin B pMG2-mElongin C pMG2-APOBEC3G
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