Lianying Jiao, Songying Ouyang, Neil Shaw, Gaojie Song, Yingang Feng, Fengfeng Niu, Weicheng Qiu, Hongtao Zhu, Li-Wei Hung, Xiaobing Zuo, V. Eleonora Shtykova, Ping Zhu, Yu-Hui Dong, Ruxiang Xu, Zhi-Jie Liu. Mechanism of the Rpn13-induced activation of Uch37[J]. Protein&Cell, 2014, 5(8): 616-630. doi: 10.1007/s13238-014-0046-z
Citation: Lianying Jiao, Songying Ouyang, Neil Shaw, Gaojie Song, Yingang Feng, Fengfeng Niu, Weicheng Qiu, Hongtao Zhu, Li-Wei Hung, Xiaobing Zuo, V. Eleonora Shtykova, Ping Zhu, Yu-Hui Dong, Ruxiang Xu, Zhi-Jie Liu. Mechanism of the Rpn13-induced activation of Uch37[J]. Protein&Cell, 2014, 5(8): 616-630. doi: 10.1007/s13238-014-0046-z
  • Uch37 is a de-ubiquitinating enzyme that is activated by Rpn13 and involved in the proteasomal degradation of proteins. The full-length Uch37 was shown to exhibit low iso-peptidase activity and is thought to be auto-inhibited. Structural comparisons revealed that within a homodimer of Uch37, each of the catalytic domains was blocking the other's ubiquitin (Ub)-binding site. This blockage likely prevented Ub from entering the active site of Uch37 and might form the basis of auto-inhibition. To understand the mode of auto-inhibition clearly and shed light on the activation mechanism of Uch37 by Rpn13, we investigated the Uch37-Rpn13 complex using a combination of mutagenesis, biochemical, NMR, and smallangle X-ray scattering (SAXS) techniques. Our results also proved that Uch37 oligomerized in solution and had very low activity against the fluorogenic substrate ubiquitin-7-amino-4-methylcoumarin (Ub-AMC) of de-ubiquitinating enzymes. Uch37ΔHb,Hc,KEKE, a truncation removal of the C-terminal extension region (residues 256-329) converted oligomeric Uch37 into a monomeric form that exhibited iso-peptidase activity comparable to that of a truncation-containing the Uch37 catalytic domain only. We also demonstrated that Rpn13C (Rpn13 residues 270-407) could disrupt the oligomerization of Uch37 by sequestering Uch37 and forming a Uch37-Rpn13 complex. Uch37 was activated in such a complex, exhibiting 12-fold-higher activity than Uch37 alone. Time-resolved SAXS (TR-SAXS) and FRET experiments supported the proposed mode of auto-inhibition and the activation mechanism of Uch37 by Rpn13. Rpn13 activated Uch37 by forming a 1:1 stoichiometric complex in which the active site of Uch37 was accessible to Ub.
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