Covalent inhibition of Ubc13 affects ubiquitin signaling and reveals active site elements important for targeting

Curtis D. Hodge; Ross A. Edwards; Craig Markin; Darin McDonald; Mary Pulvino; Michael SY Huen; Jiyong Zhao; Leo Spyracopoulos; Michael J. Hendzel; JN Mark Glover

doi:10.1021/acschembio.5b00222

Covalent inhibition of Ubc13 affects ubiquitin signaling and reveals active site elements important for targeting

Curtis D. Hodge, Ross A. Edwards, Craig Markin, Darin McDonald, Mary Pulvino, Michael SY Huen, Jiyong Zhao, Leo Spyracopoulos, Michael J. Hendzel, JN Mark Glover

Division of Molecular & Cellular Function (L5)

Research output: Contribution to journal › Article › peer-review

Abstract

Ubc13 is an E2 ubiquitin conjugating enzyme that functions in nuclear DNA damage signaling and cytoplasmic NF-κB signaling. Here, we present the structures of complexes of Ubc13 with two inhibitors, NSC697923 and BAY 11-7082, which inhibit DNA damage and NF-κB signaling in human cells. NSC697923 and BAY 11-7082 both inhibit Ubc13 by covalent adduct formation through a Michael addition at the Ubc13 active site cysteine. The resulting adducts of both compounds exploit a binding groove unique to Ubc13. We developed a Ubc13 mutant which resists NSC697923 inhibition and, using this mutant, we show that the inhibition of cellular DNA damage and NF-κB signaling by NSC697923 is largely due to specific Ubc13 inhibition. We propose that unique structural features near the Ubc13 active site could provide a basis for the rational development and design of specific Ubc13 inhibitors.

Original language	English
Pages (from-to)	1718-1728
Number of pages	11
Journal	ACS chemical biology
Volume	10
Issue number	7
Early online date	1 May 2015
DOIs	https://doi.org/10.1021/acschembio.5b00222
Publication status	Published - 17 Jul 2015

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10.1021/acschembio.5b00222

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title = "Covalent inhibition of Ubc13 affects ubiquitin signaling and reveals active site elements important for targeting",

abstract = "Ubc13 is an E2 ubiquitin conjugating enzyme that functions in nuclear DNA damage signaling and cytoplasmic NF-κB signaling. Here, we present the structures of complexes of Ubc13 with two inhibitors, NSC697923 and BAY 11-7082, which inhibit DNA damage and NF-κB signaling in human cells. NSC697923 and BAY 11-7082 both inhibit Ubc13 by covalent adduct formation through a Michael addition at the Ubc13 active site cysteine. The resulting adducts of both compounds exploit a binding groove unique to Ubc13. We developed a Ubc13 mutant which resists NSC697923 inhibition and, using this mutant, we show that the inhibition of cellular DNA damage and NF-κB signaling by NSC697923 is largely due to specific Ubc13 inhibition. We propose that unique structural features near the Ubc13 active site could provide a basis for the rational development and design of specific Ubc13 inhibitors.",

author = "Hodge, {Curtis D.} and Edwards, {Ross A.} and Craig Markin and Darin McDonald and Mary Pulvino and Huen, {Michael SY} and Jiyong Zhao and Leo Spyracopoulos and Hendzel, {Michael J.} and Glover, {JN Mark}",

year = "2015",

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doi = "10.1021/acschembio.5b00222",

language = "English",

volume = "10",

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journal = "ACS chemical biology",

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T1 - Covalent inhibition of Ubc13 affects ubiquitin signaling and reveals active site elements important for targeting

AU - Hodge, Curtis D.

AU - Edwards, Ross A.

AU - Markin, Craig

AU - McDonald, Darin

AU - Pulvino, Mary

AU - Huen, Michael SY

AU - Zhao, Jiyong

AU - Spyracopoulos, Leo

AU - Hendzel, Michael J.

AU - Glover, JN Mark

PY - 2015/7/17

Y1 - 2015/7/17

N2 - Ubc13 is an E2 ubiquitin conjugating enzyme that functions in nuclear DNA damage signaling and cytoplasmic NF-κB signaling. Here, we present the structures of complexes of Ubc13 with two inhibitors, NSC697923 and BAY 11-7082, which inhibit DNA damage and NF-κB signaling in human cells. NSC697923 and BAY 11-7082 both inhibit Ubc13 by covalent adduct formation through a Michael addition at the Ubc13 active site cysteine. The resulting adducts of both compounds exploit a binding groove unique to Ubc13. We developed a Ubc13 mutant which resists NSC697923 inhibition and, using this mutant, we show that the inhibition of cellular DNA damage and NF-κB signaling by NSC697923 is largely due to specific Ubc13 inhibition. We propose that unique structural features near the Ubc13 active site could provide a basis for the rational development and design of specific Ubc13 inhibitors.

AB - Ubc13 is an E2 ubiquitin conjugating enzyme that functions in nuclear DNA damage signaling and cytoplasmic NF-κB signaling. Here, we present the structures of complexes of Ubc13 with two inhibitors, NSC697923 and BAY 11-7082, which inhibit DNA damage and NF-κB signaling in human cells. NSC697923 and BAY 11-7082 both inhibit Ubc13 by covalent adduct formation through a Michael addition at the Ubc13 active site cysteine. The resulting adducts of both compounds exploit a binding groove unique to Ubc13. We developed a Ubc13 mutant which resists NSC697923 inhibition and, using this mutant, we show that the inhibition of cellular DNA damage and NF-κB signaling by NSC697923 is largely due to specific Ubc13 inhibition. We propose that unique structural features near the Ubc13 active site could provide a basis for the rational development and design of specific Ubc13 inhibitors.

U2 - 10.1021/acschembio.5b00222

DO - 10.1021/acschembio.5b00222

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VL - 10

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EP - 1728

JO - ACS chemical biology

JF - ACS chemical biology

IS - 7

ER -

Covalent inhibition of Ubc13 affects ubiquitin signaling and reveals active site elements important for targeting

Abstract

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