Ubc9
Ubc9 is
an E2-conjugating enzyme required for sumoylation and
has been implicated in regulating several critical cellular pathways. We have
shown previously that Ubc9 is important for sumoylation
and nucleolar delocalization of topoisomerase
(topo) I in response to topo
I inhibitors such as topotecan. However, the role for
Ubc9 in tumor drug responsiveness is not clear. In this study, we found that
although MCF7 cells expressing a Ubc9 dominant-negative mutant (Ubc9-DN)
display decreased activity of topo I, these cells are
more sensitive to the topo I inhibitor topotecan and other anticancer agents such as VM-26 and cisplatin. In addition, we found that alteration of Ubc9
expression correlates with drug responsiveness in tumor cell lines. To understand
possible mechanisms of Ubc9-associated drug responsiveness, we examined several
proteins that have been shown to interact with Ubc9 and that may be involved in
drug responsiveness. One such protein is Daxx, which
is a Fas-associated protein that plays a role in Fas-mediated apoptosis by participating in a caspase-independent pathway through activation of apoptosis
signal-regulating kinase 1 and c-Jun NH(2)-terminal kinase. We found that cells expressing Ubc9-DN accumulate
more cytoplasmic Daxx than
the control cells. Because cytoplasmic Daxx is believed to participate in cellular apoptosis, we
suggest that the interaction of Ubc9 with Daxx and
subsequent alteration in the subcellular localization
of Daxx may contribute to the increased sensitivity
to anticancer drugs in the cells expressing Ubc9-DN. Finally, we found that overexpression of Daxx sensitizes
cells to anticancer drugs possibly in part through alterations of the ratio of cytoplasmic and nuclear Daxx.
Together, our results suggest a role for Ubc9 in tumor drug responsiveness.
The small ubiquitin-like modifier SUMO-1 is covalently attached to
lysine residues on target proteins by a specific conjugation pathway involving
the E1 enzyme SAE1/SAE2 and the E2 enzyme Ubc9. In an ATP-dependent manner, the
C-terminus of SUMO-1 forms consecutive thiolester
bonds with cysteine residues in the SAE2 subunit and
Ubc9, before the Ubc9.SUMO-1 thiolester complex
catalyzes the formation of an isopeptide bond between
SUMO-1 and the epsilon-amino group of the target lysine residue on the protein
substrate. The SUMO-1 conjugation pathway bears many similarities with that of ubiquitin and other ubiquitin-like
protein modifiers (Ubls), and because of its
production of a singly conjugated substrate and the lack of absolute
requirement in vitro for E3 enzymes, the SUMO-1/Ubc9 system is a good model for
the analysis of protein conjugation pathways that share this basic chemistry.
Here we describe methods of both steady-state and half-reaction kinetic
analysis of Ubc9, and use these techniques to determine the role of two
residues, Asp(100) and
PMID: 12641448 [PubMed - indexed for MEDLINE]