Caspase-1 cleavage of the TLR adaptor TRIF inhibits autophagy and β-interferon production during pseudomonas aeruginosa infection

Majid Sakhi Jabir; Neil D. Ritchie; Dong Li; Hannah K. Bayes; Panagiotis Tourlomousis; Daniel Puleston; Alison Lupton; Lee Hopkins; Anna Katharina Simon; Clare Bryant; Thomas J. Evans

doi:10.1016/j.chom.2014.01.010

Caspase-1 cleavage of the TLR adaptor TRIF inhibits autophagy and β-interferon production during pseudomonas aeruginosa infection

Majid Sakhi Jabir, Neil D. Ritchie, Dong Li, Hannah K. Bayes, Panagiotis Tourlomousis, Daniel Puleston, Alison Lupton, Lee Hopkins, Anna Katharina Simon, Clare Bryant, Thomas J. Evans

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

91 Scopus citations

Abstract

Bacterial infection can trigger autophagy and inflammasome activation, but the effects of inflammasome activation on autophagy are unknown. We examined this in the context of Pseudomonas aeruginosa macrophage infection, which triggers NLRC4 inflammasome activation. P. aeruginosa induced autophagy via TLR4 and its adaptor TRIF. NLRC4 and caspase-1 activation following infection attenuated autophagy. Caspase-1 directly cleaved TRIF to diminish TRIF-mediated signaling, resulting in inhibition of autophagy and in reduced type I interferon production. Expression of a caspase-1 resistant TRIF mutant enhanced autophagy and type I interferon production following infection. Preventing TRIF cleavage by caspase-1 in an in vivo model of P. aeruginosa infection resulted in enhanced bacterial autophagy, attenuated IL-1β production, and increased bacterial clearance. Additionally, TRIF cleavage by caspase-1 diminished NLRP3 inflammasome activation. Thus, caspase-1 mediated TRIF cleavage is a key event in controlling autophagy, type I interferon production, and inflammasome activation with important functional consequences.

Original language	English
Pages (from-to)	214-227
Number of pages	14
Journal	Cell Host and Microbe
Volume	15
Issue number	2
DOIs	https://doi.org/10.1016/j.chom.2014.01.010
State	Published - 12 Feb 2014
Externally published	Yes

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Jabir, M. S., Ritchie, N. D., Li, D., Bayes, H. K., Tourlomousis, P., Puleston, D., Lupton, A., Hopkins, L., Simon, A. K., Bryant, C., & Evans, T. J. (2014). Caspase-1 cleavage of the TLR adaptor TRIF inhibits autophagy and β-interferon production during pseudomonas aeruginosa infection. Cell Host and Microbe, 15(2), 214-227. https://doi.org/10.1016/j.chom.2014.01.010

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title = "Caspase-1 cleavage of the TLR adaptor TRIF inhibits autophagy and β-interferon production during pseudomonas aeruginosa infection",

abstract = "Bacterial infection can trigger autophagy and inflammasome activation, but the effects of inflammasome activation on autophagy are unknown. We examined this in the context of Pseudomonas aeruginosa macrophage infection, which triggers NLRC4 inflammasome activation. P. aeruginosa induced autophagy via TLR4 and its adaptor TRIF. NLRC4 and caspase-1 activation following infection attenuated autophagy. Caspase-1 directly cleaved TRIF to diminish TRIF-mediated signaling, resulting in inhibition of autophagy and in reduced type I interferon production. Expression of a caspase-1 resistant TRIF mutant enhanced autophagy and type I interferon production following infection. Preventing TRIF cleavage by caspase-1 in an in vivo model of P. aeruginosa infection resulted in enhanced bacterial autophagy, attenuated IL-1β production, and increased bacterial clearance. Additionally, TRIF cleavage by caspase-1 diminished NLRP3 inflammasome activation. Thus, caspase-1 mediated TRIF cleavage is a key event in controlling autophagy, type I interferon production, and inflammasome activation with important functional consequences.",

author = "Jabir, {Majid Sakhi} and Ritchie, {Neil D.} and Dong Li and Bayes, {Hannah K.} and Panagiotis Tourlomousis and Daniel Puleston and Alison Lupton and Lee Hopkins and Simon, {Anna Katharina} and Clare Bryant and Evans, {Thomas J.}",

note = "Funding Information: The study was supported by the Ministry of Higher Education and Scientific Research, Iraqi Cultural Attach{\'e}, London. M.S.J is a visiting scholar from the University of Technology, Applied Science School, Biotechnology Department, Baghdad, Iraq. ",

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doi = "10.1016/j.chom.2014.01.010",

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T1 - Caspase-1 cleavage of the TLR adaptor TRIF inhibits autophagy and β-interferon production during pseudomonas aeruginosa infection

AU - Jabir, Majid Sakhi

AU - Ritchie, Neil D.

AU - Li, Dong

AU - Bayes, Hannah K.

AU - Tourlomousis, Panagiotis

AU - Puleston, Daniel

AU - Lupton, Alison

AU - Hopkins, Lee

AU - Simon, Anna Katharina

AU - Bryant, Clare

AU - Evans, Thomas J.

N1 - Funding Information: The study was supported by the Ministry of Higher Education and Scientific Research, Iraqi Cultural Attaché, London. M.S.J is a visiting scholar from the University of Technology, Applied Science School, Biotechnology Department, Baghdad, Iraq.

PY - 2014/2/12

Y1 - 2014/2/12

N2 - Bacterial infection can trigger autophagy and inflammasome activation, but the effects of inflammasome activation on autophagy are unknown. We examined this in the context of Pseudomonas aeruginosa macrophage infection, which triggers NLRC4 inflammasome activation. P. aeruginosa induced autophagy via TLR4 and its adaptor TRIF. NLRC4 and caspase-1 activation following infection attenuated autophagy. Caspase-1 directly cleaved TRIF to diminish TRIF-mediated signaling, resulting in inhibition of autophagy and in reduced type I interferon production. Expression of a caspase-1 resistant TRIF mutant enhanced autophagy and type I interferon production following infection. Preventing TRIF cleavage by caspase-1 in an in vivo model of P. aeruginosa infection resulted in enhanced bacterial autophagy, attenuated IL-1β production, and increased bacterial clearance. Additionally, TRIF cleavage by caspase-1 diminished NLRP3 inflammasome activation. Thus, caspase-1 mediated TRIF cleavage is a key event in controlling autophagy, type I interferon production, and inflammasome activation with important functional consequences.

AB - Bacterial infection can trigger autophagy and inflammasome activation, but the effects of inflammasome activation on autophagy are unknown. We examined this in the context of Pseudomonas aeruginosa macrophage infection, which triggers NLRC4 inflammasome activation. P. aeruginosa induced autophagy via TLR4 and its adaptor TRIF. NLRC4 and caspase-1 activation following infection attenuated autophagy. Caspase-1 directly cleaved TRIF to diminish TRIF-mediated signaling, resulting in inhibition of autophagy and in reduced type I interferon production. Expression of a caspase-1 resistant TRIF mutant enhanced autophagy and type I interferon production following infection. Preventing TRIF cleavage by caspase-1 in an in vivo model of P. aeruginosa infection resulted in enhanced bacterial autophagy, attenuated IL-1β production, and increased bacterial clearance. Additionally, TRIF cleavage by caspase-1 diminished NLRP3 inflammasome activation. Thus, caspase-1 mediated TRIF cleavage is a key event in controlling autophagy, type I interferon production, and inflammasome activation with important functional consequences.

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Caspase-1 cleavage of the TLR adaptor TRIF inhibits autophagy and β-interferon production during pseudomonas aeruginosa infection

Abstract

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