Small Ubiquitin-like Modifier (SUMO) Modification Mediates Function of the Inhibitory Domains of Developmental Regulators FOXC1 and FOXC2*

Background: Transcription factors FOXC1 and FOXC2 are involved in development and physiology, but their mode of regulation is poorly understood. Results: SUMO modification at two conserved synergy control motifs inhibits transactivation of both factors. Conclusion: SUMOylation is responsible for the function of key inhibitory domains in FOXC1/C2. Significance: SUMOylation regulates the function of FOXC1/FOXC2 and may contribute to developmental malformations. FOXC1 and FOXC2 are forkhead transcription factors that play essential roles during development and physiology. Despite their critical role, the mechanisms that regulate the function of these factors remain poorly understood. We have identified conserved motifs within a previously defined N-terminal negative regulatory region of FOXC1/C2 that conforms to the definition of synergy control or SC motifs. Because such motifs inhibit the activity of transcription factors by serving as sites of post-translational modification by small ubiquitin-like modifier (SUMO), we have examined whether FOXC1/C2 are targets of SUMOylation and probed the functional significance of this modification. We find that endogenous FOXC1 forms modified by SUMO2/3 can be detected. Moreover, in cell culture, all three SUMO isoforms are readily conjugated to FOXC1 and FOXC2. The modification can be reconstituted in vitro with purified components and can be reversed in vitro by treatment with the SUMO protease SENP2. SUMOylation of FOXC1 and FOXC2 occurs primarily on one consensus synergy control motif with minor contributions of a second, more degenerate site. Notably, although FOXC1 is also phosphorylated at multiple sites, disruption of sites immediately downstream of the SC motifs does not influence SUMOylation. Consistent with a negative functional role, SUMOylation-deficient mutants displayed higher transcriptional activity when compared with wild type forms despite comparable protein levels and subcellular localization. Thus, the findings demonstrate that SC motifs mediate the inhibitory function of this region by serving as sites for SUMOylation and reveal a novel mechanism for acute and reversible regulation of FOXC1/C2 function.

• Publication year

  2012

• Venue

  Journal of Biological Chemistry

• Publication date

  2012-04-05

• Fields of study

  Biology, Medicine

• Identifiers
  DOI 10.1074/jbc.M112.339424PMID 22493429PMCID PMC3365760
• External record

  Open on Semantic Scholar

• Source metadata

  Semantic Scholar, PubMed

• No claims are published for this paper.

• No concepts are published for this paper.

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