The Coxiella burnetii Dot/Icm system delivers a unique repertoire of type IV effectors into host cells and is required for intracellular replication

The Coxiella burnetii Dot/Icm system delivers a unique repertoire of type IV effectors into host cells and is required for intracellular replication

Coxiella burnetii, the causative agent of human Q fever, is an intracellular pathogen that replicates in an acidified vacuole derived from the host lysosomal network. This pathogen encodes a Dot/Icm type IV secretion system that delivers bacterial proteins called effectors to the host cytosol. To id...

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Veröffentlicht in:PLoS pathogens 2011-05, Vol.7 (5), p.e1002056-e1002056
Hauptverfasser: Carey, Kimberly L, Newton, Hayley J, Lührmann, Anja, Roy, Craig R
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Bacterial Proteins - metabolism
Bacteriology
Biology
Cercopithecus aethiops
CHO Cells
Coxiella burnetii - genetics
Coxiella burnetii - metabolism
Cricetinae
Cricetulus
DNA, Bacterial - genetics
Female
Gene Expression Regulation, Bacterial
Genetic aspects
Genetic Testing
Genome, Bacterial
HEK293 Cells
HeLa Cells
Humans
Kidney - cytology
Kidney - microbiology
Medical research
Microbial Viability
Microbiology
Mutation
Ovary - cytology
Ovary - microbiology
Phenotype
Polymerase chain reaction
Proteins
Rickettsia
Uterine Cervical Neoplasms - microbiology
Uterine Cervical Neoplasms - pathology
Vero Cells
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Newton, Hayley J
Lührmann, Anja
Roy, Craig R
description Coxiella burnetii, the causative agent of human Q fever, is an intracellular pathogen that replicates in an acidified vacuole derived from the host lysosomal network. This pathogen encodes a Dot/Icm type IV secretion system that delivers bacterial proteins called effectors to the host cytosol. To identify new effector proteins, the functionally analogous Legionella pneumophila Dot/Icm system was used in a genetic screen to identify fragments of C. burnetii genomic DNA that when fused to an adenylate cyclase reporter were capable of directing Dot/Icm-dependent translocation of the fusion protein into mammalian host cells. This screen identified Dot/Icm effectors that were proteins unique to C. burnetii, having no overall sequence homology with L. pneumophila Dot/Icm effectors. A comparison of C. burnetii genome sequences from different isolates revealed diversity in the size and distribution of the genes encoding many of these effectors. Studies examining the localization and function of effectors in eukaryotic cells provided evidence that several of these proteins have an affinity for specific host organelles and can disrupt cellular functions. The identification of a transposon insertion mutation that disrupts the dot/icm locus was used to validate that this apparatus was essential for translocation of effectors. Importantly, this C. burnetii Dot/Icm-deficient mutant was found to be defective for intracellular replication. Thus, these data indicate that C. burnetii encodes a unique subset of bacterial effector proteins translocated into host cells by the Dot/Icm apparatus, and that the cumulative activities exerted by these effectors enables C. burnetii to successfully establish a niche inside mammalian cells that supports intracellular replication.
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This pathogen encodes a Dot/Icm type IV secretion system that delivers bacterial proteins called effectors to the host cytosol. To identify new effector proteins, the functionally analogous Legionella pneumophila Dot/Icm system was used in a genetic screen to identify fragments of C. burnetii genomic DNA that when fused to an adenylate cyclase reporter were capable of directing Dot/Icm-dependent translocation of the fusion protein into mammalian host cells. This screen identified Dot/Icm effectors that were proteins unique to C. burnetii, having no overall sequence homology with L. pneumophila Dot/Icm effectors. A comparison of C. burnetii genome sequences from different isolates revealed diversity in the size and distribution of the genes encoding many of these effectors. Studies examining the localization and function of effectors in eukaryotic cells provided evidence that several of these proteins have an affinity for specific host organelles and can disrupt cellular functions. The identification of a transposon insertion mutation that disrupts the dot/icm locus was used to validate that this apparatus was essential for translocation of effectors. Importantly, this C. burnetii Dot/Icm-deficient mutant was found to be defective for intracellular replication. Thus, these data indicate that C. burnetii encodes a unique subset of bacterial effector proteins translocated into host cells by the Dot/Icm apparatus, and that the cumulative activities exerted by these effectors enables C. burnetii to successfully establish a niche inside mammalian cells that supports intracellular replication.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>21637816</pmid><doi>10.1371/journal.ppat.1002056</doi><oa>free_for_read</oa></addata></record>
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subjects Animals
Bacterial Proteins - metabolism
Bacteriology
Biology
Cercopithecus aethiops
CHO Cells
Coxiella burnetii - genetics
Coxiella burnetii - metabolism
Cricetinae
Cricetulus
DNA, Bacterial - genetics
Female
Gene Expression Regulation, Bacterial
Genetic aspects
Genetic Testing
Genome, Bacterial
HEK293 Cells
HeLa Cells
Humans
Kidney - cytology
Kidney - microbiology
Medical research
Microbial Viability
Microbiology
Mutation
Ovary - cytology
Ovary - microbiology
Phenotype
Polymerase chain reaction
Proteins
Rickettsia
Uterine Cervical Neoplasms - microbiology
Uterine Cervical Neoplasms - pathology
Vero Cells
title The Coxiella burnetii Dot/Icm system delivers a unique repertoire of type IV effectors into host cells and is required for intracellular replication
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