Mitoxantrone Targets Human Ubiquitin-Specific Peptidase 11 (USP11) and Is a Potent Inhibitor of Pancreatic Cancer Cell Survival

Burkhart, Richard A.; Peng, Yu; Norris, Zoë A.; Tholey, Renee; Talbott, Vanessa A.; Qin, Liang; Ai, Yongxing; Miller, Kathy D.; Lal, Shruti; Cozzitorto, Joseph A.; Witkiewicz, Agnes; Yeo, Charles J.; Gehrmann, Matthew; Napper, Andrew D.; Winter, Jordan M.; Sawicki, Janet A.; Zhuang, Zhihao; Brody, Jonathan R.

doi:10.1158/1541-7786.mcr-12-0699

Cited by 93 publications

(69 citation statements)

References 52 publications

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“…We observed a K m of 0.55 μM which is consistent with K m values reported ranging from 0.12–0.77 μM. 1,16 Comparison of FL-USP11 to the construct lacking the catalytic domain UBL2 containing insert, FLΔUBL2, showed that these constructs display similar kinetic parameters as summarized in Figure 4C. Furthermore, the kinetic parameters for FLΔUBL2 and a construct additionally missing the N-terminal DU domains, CatΔUBL2, were comparable (Figure 4C).…”

Section: Resultssupporting

confidence: 91%

“…12,13 Importantly, USP11 has been shown to exhibit altered expression levels in several types of cancers such as lung and breast cancer, 14,15 and the enzymatic activity of USP11 is inhibited by mitoxantrone which affects pancreatic cancer cell survival. 16 There is currently no structure for USP11 domains or information on how its catalytic activity is regulated and substrate is recognized.…”

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confidence: 99%

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Structure and Catalytic Regulatory Function of Ubiquitin Specific Protease 11 N-Terminal and Ubiquitin-like Domains

et al. 2014

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The ubiquitin specific protease 11 (USP11) is implicated in DNA repair, viral RNA replication, and TGFβ signaling. We report the first characterization of the USP11 domain architecture and its role in regulating the enzymatic activity. USP11 consists of an N-terminal “domain present in USPs” (DUSP) and “ubiquitin-like” (UBL) domain, together referred to as DU domains, and the catalytic domain harboring a second UBL domain. Crystal structures of the DU domains show a tandem arrangement with a shortened β-hairpin at the two-domain interface and altered surface characteristics compared to the homologues USP4 and USP15. A conserved VEVY motif is a signature feature at the two-domain interface that shapes a potential protein interaction site. Small angle X-ray scattering and gel filtration experiments are consistent with the USP11DU domains and full-length USP11 being monomeric. Unexpectedly, we reveal, through kinetic assays of a series of deletion mutants, that the catalytic activity of USP11 is not regulated through intramolecular autoinhibition or activation by the N-terminal DU or UBL domains. Moreover, ubiquitin chain cleavage assays with all eight linkages reveal a preference for Lys63-, Lys6-, Lys33-, and Lys11-linked chains over Lys27-, Lys29-, and Lys48-linked and linear chains consistent with USP11’s function in DNA repair pathways that is mediated by the protease domain. Our data support a model whereby USP11 domains outside the catalytic core domain serve as protein interaction or trafficking modules rather than a direct regulatory function of the proteolytic activity. This highlights the diversity of USPs in substrate recognition and regulation of ubiquitin deconjugation.

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Section: Resultssupporting

confidence: 91%

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confidence: 99%

Structure and Catalytic Regulatory Function of Ubiquitin Specific Protease 11 N-Terminal and Ubiquitin-like Domains

et al. 2014

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“…Recently, mitoxantrone was identified as a USP11 inhibitor. 34 Consistently, USP11 inhibition by mitoxantrone induced cIAP2 destabilization, which was reversed with MG132 treatment (Figures 4h-i). USP11 depletion by siRNA abrogated mitoxantrone-induced cIAP2 degradation, suggesting that mitoxantrone regulates cIAP2 degradation via USP11 inhibition (Figure 4j).…”

Section: Resultssupporting

confidence: 64%

USP11-dependent selective cIAP2 deubiquitylation and stabilization determine sensitivity to Smac mimetics

Seong

Seo

et al. 2015

Cell Death Differ

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Given their crucial role in apoptosis suppression, inhibitor of apoptosis proteins (IAPs) have recently become attractive targets for cancer therapy. Here, we report that cellular IAP2 (cIAP2) is specifically stabilized in several cancer cell lines, leading to resistance to Smac mimetics, such as BV6 and birinapant. In particular, our results showed that cIAP2 depletion, but not cIAP1 depletion, sensitized cancer cells to Smac mimetic-induced apoptosis. Ubiquitin-specific protease 11 (USP11) is a deubiquitylase that directly stabilizes cIAP2. USP11 overexpression is frequently found in colorectal cancer and melanoma and is correlated with poor survival. In our study, cancer cell lines expressing high levels of USP11 exhibited strong resistance to Smac mimetic-induced cIAP2 degradation. Furthermore, USP11 downregulation sensitized these cells to apoptosis induced by TRAIL and BV6 and suppressed tumor growth in a xenograft model. Finally, the TNFα/JNK pathway induced USP11 expression and maintained cIAP2 stability, suggesting an alternative TNFα-dependent cell survival pathway. Collectively, our data suggest that USP11-stabilized cIAP2 may serve as a barrier against IAP-targeted clinical approaches.

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“…USP1, USP1-UAF1, USP46-UAF1 and USP11 were generated as previously described 21,48 . Ub-PCNA was prepared as previously reported 49 .…”

Section: Methodsmentioning

confidence: 99%

A selective USP1–UAF1 inhibitor links deubiquitination to DNA damage responses

et al. 2014

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Protein ubiquitination and deubiquitination are central to the control of a large number of cellular pathways and signaling networks in eukaryotes. Although the essential roles of ubiquitination have been established in the eukaryotic DNA damage response, the deubiquitination process remains poorly defined. Chemical probes that perturb the activity of deubiquitinases (DUBs) are needed to characterize the cellular function of deubiquitination. Here we report ML323 (2), a highly potent inhibitor of the USP1-UAF1 deubiquitinase complex with excellent selectivity against human DUBs, deSUMOylase, deneddylase and unrelated proteases. Using ML323, we interrogated deubiquitination in the cellular response to UV- and cisplatin-induced DNA damage and revealed new insights into the requirement of deubiquitination in the DNA translesion synthesis and Fanconi anemia pathways. Moreover, ML323 potentiates cisplatin cytotoxicity in non-small cell lung cancer and osteosarcoma cells. Our findings point to USP1-UAF1 as a key regulator of the DNA damage response and a target for overcoming resistance to the platinum-based anticancer drugs.

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Mitoxantrone Targets Human Ubiquitin-Specific Peptidase 11 (USP11) and Is a Potent Inhibitor of Pancreatic Cancer Cell Survival

Cited by 93 publications

References 52 publications

Structure and Catalytic Regulatory Function of Ubiquitin Specific Protease 11 N-Terminal and Ubiquitin-like Domains

Structure and Catalytic Regulatory Function of Ubiquitin Specific Protease 11 N-Terminal and Ubiquitin-like Domains

USP11-dependent selective cIAP2 deubiquitylation and stabilization determine sensitivity to Smac mimetics

A selective USP1–UAF1 inhibitor links deubiquitination to DNA damage responses

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