Buschmann T, Lerner D, Lee C G, Ronai Z
Ruttenberg Cancer Center, Mount Sinai School of Medicine, New York, New York 10029, USA.
J Biol Chem. 2001 Nov 2;276(44):40389-95. doi: 10.1074/jbc.M103786200. Epub 2001 May 30.
Covalent attachment of SUMO-1 to Mdm2 requires the activation of a heterodimeric Aos1-Uba2 enzyme (ubiquitin-activating enzyme (E1)) followed by the conjugation of Sumo-1 to Mdm2 by Ubc9, a protein with a strong sequence similarity to ubiquitin carrier proteins (E2s). Upon Sumo-1 conjugation, Mdm2 is protected from self-ubiquitination and elicits greater ubiquitin-protein isopeptide ligase (E3) activity toward p53, thereby increasing its oncogenic potential. Because of the biological implication of Mdm2 sumoylation, we mapped Ubc9 binding on Mdm2. Here we demonstrate that Ubc9 can associate with Mdm2 only if amino acids 40-59 within the N terminus of Mdm2 are present. Mdm2 from which amino acids 40-59 have been deleted can no longer be sumoylated. Furthermore, addition of a peptide that corresponds to amino acids 40-59 on Mdm2 to a sumoylation reaction efficiently inhibits Mdm2 sumoylation in vitro and in vivo. In UV-treated cells Mdm2 exhibits reduced association with Ubc9, which coincides with decreased Mdm2 sumoylation. Our findings regarding the association of Ubc9 with Mdm2, and the effect of UV-irradiation on Ubc9 binding, point to an additional level in the regulation of Mdm2 sumoylation under normal growth conditions as well as in response to stress conditions.
SUMO-1与Mdm2的共价连接需要激活异源二聚体Aos1-Uba2酶(泛素激活酶(E1)),随后Ubc9将SUMO-1与Mdm2结合,Ubc9是一种与泛素载体蛋白(E2)具有高度序列相似性的蛋白质。SUMO-1结合后,Mdm2免受自身泛素化作用,并对p53引发更强的泛素-蛋白质异肽连接酶(E3)活性,从而增加其致癌潜力。由于Mdm2的SUMO化具有生物学意义,我们绘制了Ubc9在Mdm2上的结合位点。在这里,我们证明只有当Mdm2的N端存在40-59位氨基酸时,Ubc9才能与Mdm2结合。缺失40-59位氨基酸的Mdm2不再能够被SUMO化。此外,将与Mdm2上40-59位氨基酸对应的肽添加到SUMO化反应中,可在体外和体内有效抑制Mdm2的SUMO化。在紫外线处理的细胞中,Mdm2与Ubc9的结合减少,这与Mdm2的SUMO化减少相一致。我们关于Ubc9与Mdm2结合以及紫外线照射对Ubc9结合影响的研究结果表明,在正常生长条件下以及应对应激条件时,Mdm2的SUMO化调控存在额外的层面。
