E2∼Ub conjugates regulate the kinase activity of Shigella effector OspG during pathogenesis

Jonathan N. Pruneda; F. Donelson Smith; Angela Daurie; Danielle L. Swaney; Judit Villén; John D. Scott; Andrew W. Stadnyk; Isolde Le Trong; Ronald E. Stenkamp; Rachel E. Klevit; John R. Rohde; Peter S. Brzovic

doi:10.1002/embj.201386386

E2∼Ub conjugates regulate the kinase activity of Shigella effector OspG during pathogenesis

Jonathan N. Pruneda, F. Donelson Smith, Angela Daurie, Danielle L. Swaney, Judit Villén, John D. Scott, Andrew W. Stadnyk, Isolde Le Trong, Ronald E. Stenkamp, Rachel E. Klevit, John R. Rohde, Peter S. Brzovic

Medicine

Medicine

Résultat de recherche: Article › examen par les pairs

62 Citations (Scopus)

Résumé

Pathogenic bacteria introduce effector proteins directly into the cytosol of eukaryotic cells to promote invasion and colonization. OspG, a Shigella spp. effector kinase, plays a role in this process by helping to suppress the host inflammatory response. OspG has been reported to bind host E2 ubiquitin-conjugating enzymes activated with ubiquitin (E2∼Ub), a key enzyme complex in ubiquitin transfer pathways. A co-crystal structure of the OspG/UbcH5c∼Ub complex reveals that complex formation has important ramifications for the activity of both OspG and the UbcH5c∼Ub conjugate. OspG is a minimal kinase domain containing only essential elements required for catalysis. UbcH5c∼Ub binding stabilizes an active conformation of the kinase, greatly enhancing OspG kinase activity. In contrast, interaction with OspG stabilizes an extended, less reactive form of UbcH5c∼Ub. Recognizing conserved E2 features, OspG can interact with at least ten distinct human E2s∼Ub. Mouse oral infection studies indicate that E2∼Ub conjugates act as novel regulators of OspG effector kinase function in eukaryotic host cells.

Langue d'origine	English
Pages (de-à)	437-449
Nombre de pages	13
Journal	EMBO Journal
Volume	33
Numéro de publication	5
DOI	https://doi.org/10.1002/embj.201386386
Statut de publication	Published - mars 3 2014

ASJC Scopus Subject Areas

General Neuroscience
Molecular Biology
General Biochemistry,Genetics and Molecular Biology
General Immunology and Microbiology

PubMed: MeSH publication types

Journal Article
Research Support, N.I.H., Extramural
Research Support, Non-U.S. Gov't
Research Support, U.S. Gov't, Non-P.H.S.

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10.1002/embj.201386386

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title = "E2∼Ub conjugates regulate the kinase activity of Shigella effector OspG during pathogenesis",

abstract = "Pathogenic bacteria introduce effector proteins directly into the cytosol of eukaryotic cells to promote invasion and colonization. OspG, a Shigella spp. effector kinase, plays a role in this process by helping to suppress the host inflammatory response. OspG has been reported to bind host E2 ubiquitin-conjugating enzymes activated with ubiquitin (E2∼Ub), a key enzyme complex in ubiquitin transfer pathways. A co-crystal structure of the OspG/UbcH5c∼Ub complex reveals that complex formation has important ramifications for the activity of both OspG and the UbcH5c∼Ub conjugate. OspG is a minimal kinase domain containing only essential elements required for catalysis. UbcH5c∼Ub binding stabilizes an active conformation of the kinase, greatly enhancing OspG kinase activity. In contrast, interaction with OspG stabilizes an extended, less reactive form of UbcH5c∼Ub. Recognizing conserved E2 features, OspG can interact with at least ten distinct human E2s∼Ub. Mouse oral infection studies indicate that E2∼Ub conjugates act as novel regulators of OspG effector kinase function in eukaryotic host cells.",

author = "Pruneda, {Jonathan N.} and Smith, {F. Donelson} and Angela Daurie and Swaney, {Danielle L.} and Judit Vill{\'e}n and Scott, {John D.} and Stadnyk, {Andrew W.} and {Le Trong}, Isolde and Stenkamp, {Ronald E.} and Klevit, {Rachel E.} and Rohde, {John R.} and Brzovic, {Peter S.}",

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AU - Pruneda, Jonathan N.

AU - Smith, F. Donelson

AU - Daurie, Angela

AU - Swaney, Danielle L.

AU - Villén, Judit

AU - Scott, John D.

AU - Stadnyk, Andrew W.

AU - Le Trong, Isolde

AU - Stenkamp, Ronald E.

AU - Klevit, Rachel E.

AU - Rohde, John R.

AU - Brzovic, Peter S.

PY - 2014/3/3

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AB - Pathogenic bacteria introduce effector proteins directly into the cytosol of eukaryotic cells to promote invasion and colonization. OspG, a Shigella spp. effector kinase, plays a role in this process by helping to suppress the host inflammatory response. OspG has been reported to bind host E2 ubiquitin-conjugating enzymes activated with ubiquitin (E2∼Ub), a key enzyme complex in ubiquitin transfer pathways. A co-crystal structure of the OspG/UbcH5c∼Ub complex reveals that complex formation has important ramifications for the activity of both OspG and the UbcH5c∼Ub conjugate. OspG is a minimal kinase domain containing only essential elements required for catalysis. UbcH5c∼Ub binding stabilizes an active conformation of the kinase, greatly enhancing OspG kinase activity. In contrast, interaction with OspG stabilizes an extended, less reactive form of UbcH5c∼Ub. Recognizing conserved E2 features, OspG can interact with at least ten distinct human E2s∼Ub. Mouse oral infection studies indicate that E2∼Ub conjugates act as novel regulators of OspG effector kinase function in eukaryotic host cells.

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E2∼Ub conjugates regulate the kinase activity of Shigella effector OspG during pathogenesis

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ASJC Scopus Subject Areas

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