Covalent modification of the Werner's syndrome gene product with the ubiquitin-related protein, SUMO-1

Abstract

Werner's syndrome is a potential model of accelerated human aging. The gene responsible for Werner's syndrome encodes a protein that has a helicase domain homologous to Escherichia coli RecQ. To identify binding partners that regulate the function in concert with Wrn, we screened for proteins using the yeast two hybrid system with mouse Wrn as bait and found three. One was a novel protein, and the other two were mouse Ubc9 and SUMO-1. Ubc9 also interacted with tire mouse homologue of the Bloom's syndrome gene product, another eukaryotic RecQ-type helicase, but not mouse DNA helicase Q1/RecQL (RecQL1). Deletion experiments indicated that both proteins interacted with the N-terminal segment of Wrn (amino acid 272-514). The interaction between Wrn and SUMO-1 was weaker than that between Wrn and Ubc9. Positive interaction was observed in the heterogeneous combination of Wrn and yeast Ubc9 (yUbc9), as well as yUbc9 and SUMO-1, in the two-hybrid system. The interaction between yUbc9 and SUMO-1 was abolished by deleting the C-terminal G1y residue of SUMO-1, which is reportedly required for the formation of Ubc9-SUMO-1 thloester linkage. The interaction of Wrn and SUMO-1 was also abolished by deleting the Gly residue, indicating that the interaction of Wrn and SUMO-1 is mediated by yUbc9 in the two-hybrid system. Finally, we confirmed by immunoblotting with an anti-SUMO-1 antibody that Wrn was covalently attached with SUMO-1.