Effector triggered immunity activation of innate immunity in metazoans by bacterial effectors

Rajmohan Rajamuthiah; Eleftherios Mylonakis

doi:10.4161/viru.29091

Effector triggered immunity activation of innate immunity in metazoans by bacterial effectors

Rajmohan Rajamuthiah, Eleftherios Mylonakis

Houston Methodist

Research output: Contribution to journal › Review article › peer-review

54 Scopus citations

Abstract

Pathogenic bacteria produce virulence factors called effectors, which are important components of the infection process. Effectors aid in pathogenesis by facilitating bacterial attachment, pathogen entry into or exit from the host cell, immunoevasion, and immunosuppression. Effectors also have the ability to subvert host cellular processes, such as hijacking cytoskeletal machinery or blocking protein translation. However, host cells possess an evolutionarily conserved innate immune response that can sense the pathogen through the activity of its effectors and mount a robust immune response. This “effector triggered immunity” (ETI) was first discovered in plants but recent evidence suggest that the process is also well conserved in metazoans. We will discuss salient points of the mechanism of ETI in metazoans from recent studies done in mammalian cells and invertebrate model hosts.

Original language	English (US)
Pages (from-to)	697-702
Number of pages	6
Journal	Virulence
Volume	5
Issue number	7
DOIs	https://doi.org/10.4161/viru.29091
State	Published - 2014

Keywords

Actin cytoskeleton
Animal cells
DAMP
Innate immunity
MAMP
Metazoans
PAMP
PRR
Pore forming toxin
Translation inhibition

ASJC Scopus subject areas

Parasitology
Microbiology
Immunology
Microbiology (medical)
Infectious Diseases

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10.4161/viru.29091

Cite this

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title = "Effector triggered immunity activation of innate immunity in metazoans by bacterial effectors",

abstract = "Pathogenic bacteria produce virulence factors called effectors, which are important components of the infection process. Effectors aid in pathogenesis by facilitating bacterial attachment, pathogen entry into or exit from the host cell, immunoevasion, and immunosuppression. Effectors also have the ability to subvert host cellular processes, such as hijacking cytoskeletal machinery or blocking protein translation. However, host cells possess an evolutionarily conserved innate immune response that can sense the pathogen through the activity of its effectors and mount a robust immune response. This “effector triggered immunity” (ETI) was first discovered in plants but recent evidence suggest that the process is also well conserved in metazoans. We will discuss salient points of the mechanism of ETI in metazoans from recent studies done in mammalian cells and invertebrate model hosts.",

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AU - Rajamuthiah, Rajmohan

AU - Mylonakis, Eleftherios

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N2 - Pathogenic bacteria produce virulence factors called effectors, which are important components of the infection process. Effectors aid in pathogenesis by facilitating bacterial attachment, pathogen entry into or exit from the host cell, immunoevasion, and immunosuppression. Effectors also have the ability to subvert host cellular processes, such as hijacking cytoskeletal machinery or blocking protein translation. However, host cells possess an evolutionarily conserved innate immune response that can sense the pathogen through the activity of its effectors and mount a robust immune response. This “effector triggered immunity” (ETI) was first discovered in plants but recent evidence suggest that the process is also well conserved in metazoans. We will discuss salient points of the mechanism of ETI in metazoans from recent studies done in mammalian cells and invertebrate model hosts.

AB - Pathogenic bacteria produce virulence factors called effectors, which are important components of the infection process. Effectors aid in pathogenesis by facilitating bacterial attachment, pathogen entry into or exit from the host cell, immunoevasion, and immunosuppression. Effectors also have the ability to subvert host cellular processes, such as hijacking cytoskeletal machinery or blocking protein translation. However, host cells possess an evolutionarily conserved innate immune response that can sense the pathogen through the activity of its effectors and mount a robust immune response. This “effector triggered immunity” (ETI) was first discovered in plants but recent evidence suggest that the process is also well conserved in metazoans. We will discuss salient points of the mechanism of ETI in metazoans from recent studies done in mammalian cells and invertebrate model hosts.

KW - Actin cytoskeleton

KW - Animal cells

KW - DAMP

KW - Innate immunity

KW - MAMP

KW - Metazoans

KW - PAMP

KW - PRR

KW - Pore forming toxin

KW - Translation inhibition

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Effector triggered immunity activation of innate immunity in metazoans by bacterial effectors

Abstract

Keywords

ASJC Scopus subject areas

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