Small Ubiquitin-like Modifier Modification Regulates the DNA Binding Activity of Glial Cell Missing Drosophila Homolog a

Liang-Fu Chen,Chingwen Chang,Chih-Chine Chou,Jyung-Hurng Liu,Chwan-Deng Hsiao,Hungwen Chen

doi:10.1074/jbc.m700351200

Abstract

Glial cell missing Drosophila homolog a (GCMa) is an essential transcription factor for placental development, which controls the differentiation of the syncytiotrophoblast layer. Although the activity of GCMa can be post-translationally regulated by protein phosphorylation, ubiquitination, and acetylation, it is unknown whether GCMa activity can be regulated by sumoylation. In this report, we investigated the role of sumoylation in the regulation of GCMa activity. We demonstrated that Ubc9, the E2 component of the sumoylation machinery, specifically interacts with the N-terminal domain of GCMa and promotes GCMa sumoylation on lysine 156. Moreover, GCMa-mediated transcriptional activation was repressed by sumoylation but was enhanced in the presence of the SUMO-specific protease, SENP1. The repressive effect of sumoylation on GCMa transcriptional activity was attributed to decreased DNA binding activity of GCMa. Furthermore, structural analysis revealed a steric clash between the SUMO1 moiety of sumoylated GCMa and the DNA-binding surfaces of GCMa, which may destabilize the interaction between GCMa and its cognate DNA sequence. Our study demonstrates that GCMa is a new sumoylation substrate and its activity is down-regulated by sumoylation.

Highlights

The multinucleated syncytiotrophoblasts covering placental villi are essential for maternal-fetal exchange of gas and nutrients
We investigated the role of sumoylation in the regulation of glial cell missing Drosophila homolog a (GCMa) activity
Unlike ubiquitination, a consensus sequence for small ubiquitin-like modifier (SUMO) modification has been identified as ⌿KXE, where ⌿ is a large hydrophobic amino acid and K is the site of SUMO conjugation (5, 6)

Summary

Introduction

The multinucleated syncytiotrophoblasts covering placental villi are essential for maternal-fetal exchange of gas and nutrients. The sumoylated domain was detected by immunoprecipitation and immunoblotting with FLAG mAb. The sumoylation acceptor site was further identified in HeLa cells transfected with pEGFP-SUMO1 and wild type pGal4GCMa-FLAG-(1–300) or its site-specific lysine or glutamic acid mutants, including K149R, K156R, K160R, K3R, and E158A.

Results

Conclusion