d-Alanine Modification of a Protease-Susceptible Outer Membrane Component by the Bordetella pertussis dra Locus Promotes Resistance to Antimicrobial Peptides and Polymorphonuclear Leukocyte-Mediated Killing

Bordetella pertussis is the causative agent of pertussis, a highly contagious disease of the human respiratory tract. Despite very high vaccine coverage, pertussis has reemerged as a serious threat in the United States and many developing countries. Thus, it is important to pursue research to discov...

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Veröffentlicht in:	Journal of Bacteriology 2013-11, Vol.195 (22), p.5102-5111
Hauptverfasser:	Taneja, Neetu Kumra, Ganguly, Tridib, Bakaletz, Lauren O, Nelson, Kimberly J, Dubey, Purnima, Poole, Leslie B, Deora, Rajendar
Format:	Artikel
Sprache:	eng
Schlagworte:	adenosine monophosphate antibiotic resistance Antimicrobial Cationic Peptides - metabolism antimicrobial peptides Bacterial Outer Membrane Proteins - genetics Bacterial Outer Membrane Proteins - metabolism Bacteriology Bordetella pertussis Bordetella pertussis - genetics Bordetella pertussis - immunology Bordetella pertussis - metabolism Cells, Cultured developing countries Drug Resistance, Bacterial Endopeptidase K - metabolism Genetic Loci Gram-positive bacteria human diseases Humans Leukocytes loci Membranes mutants Neutrophils - immunology operon pathogens peptidase K Peptides phagocytes Proteases Proteins Proteolysis respiratory system United States vaccines Whooping cough
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container_title	Journal of Bacteriology
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creator	Taneja, Neetu Kumra Ganguly, Tridib Bakaletz, Lauren O Nelson, Kimberly J Dubey, Purnima Poole, Leslie B Deora, Rajendar
description	Bordetella pertussis is the causative agent of pertussis, a highly contagious disease of the human respiratory tract. Despite very high vaccine coverage, pertussis has reemerged as a serious threat in the United States and many developing countries. Thus, it is important to pursue research to discover unknown pathogenic mechanisms of B. pertussis. We have investigated a previously uncharacterized locus in B. pertussis, the dra locus, which is homologous to the dlt operons of Gram-positive bacteria. The absence of the dra locus resulted in increased sensitivity to the killing action of antimicrobial peptides (AMPs) and human phagocytes. Compared to the wild-type cells, the mutant cells bound higher levels of cationic proteins and peptides, suggesting that dra contributes to AMP resistance by decreasing the electronegativity of the cell surface. The presence of dra led to the incorporation of d-alanine into an outer membrane component that is susceptible to proteinase K cleavage. We conclude that dra encodes a virulence-associated determinant and contributes to the immune resistance of B. pertussis. With these findings, we have identified a new mechanism of surface modification in B. pertussis which may also be relevant in other Gram-negative pathogens.
doi_str_mv	10.1128/JB.00510-13
format	Article
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Despite very high vaccine coverage, pertussis has reemerged as a serious threat in the United States and many developing countries. Thus, it is important to pursue research to discover unknown pathogenic mechanisms of B. pertussis. We have investigated a previously uncharacterized locus in B. pertussis, the dra locus, which is homologous to the dlt operons of Gram-positive bacteria. The absence of the dra locus resulted in increased sensitivity to the killing action of antimicrobial peptides (AMPs) and human phagocytes. Compared to the wild-type cells, the mutant cells bound higher levels of cationic proteins and peptides, suggesting that dra contributes to AMP resistance by decreasing the electronegativity of the cell surface. The presence of dra led to the incorporation of d-alanine into an outer membrane component that is susceptible to proteinase K cleavage. We conclude that dra encodes a virulence-associated determinant and contributes to the immune resistance of B. pertussis. With these findings, we have identified a new mechanism of surface modification in B. pertussis which may also be relevant in other Gram-negative pathogens.</description><identifier>ISSN: 0021-9193</identifier><identifier>EISSN: 1098-5530</identifier><identifier>EISSN: 1067-8832</identifier><identifier>DOI: 10.1128/JB.00510-13</identifier><identifier>PMID: 24013634</identifier><identifier>CODEN: JOBAAY</identifier><language>eng</language><publisher>United States: American Society for Microbiology</publisher><subject>adenosine monophosphate ; antibiotic resistance ; Antimicrobial Cationic Peptides - metabolism ; antimicrobial peptides ; Bacterial Outer Membrane Proteins - genetics ; Bacterial Outer Membrane Proteins - metabolism ; Bacteriology ; Bordetella pertussis ; Bordetella pertussis - genetics ; Bordetella pertussis - immunology ; Bordetella pertussis - metabolism ; Cells, Cultured ; developing countries ; Drug Resistance, Bacterial ; Endopeptidase K - metabolism ; Genetic Loci ; Gram-positive bacteria ; human diseases ; Humans ; Leukocytes ; loci ; Membranes ; mutants ; Neutrophils - immunology ; operon ; pathogens ; peptidase K ; Peptides ; phagocytes ; Proteases ; Proteins ; Proteolysis ; respiratory system ; United States ; vaccines ; Whooping cough</subject><ispartof>Journal of Bacteriology, 2013-11, Vol.195 (22), p.5102-5111</ispartof><rights>Copyright American Society for Microbiology Nov 2013</rights><rights>Copyright © 2013, American Society for Microbiology. 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Despite very high vaccine coverage, pertussis has reemerged as a serious threat in the United States and many developing countries. Thus, it is important to pursue research to discover unknown pathogenic mechanisms of B. pertussis. We have investigated a previously uncharacterized locus in B. pertussis, the dra locus, which is homologous to the dlt operons of Gram-positive bacteria. The absence of the dra locus resulted in increased sensitivity to the killing action of antimicrobial peptides (AMPs) and human phagocytes. Compared to the wild-type cells, the mutant cells bound higher levels of cationic proteins and peptides, suggesting that dra contributes to AMP resistance by decreasing the electronegativity of the cell surface. The presence of dra led to the incorporation of d-alanine into an outer membrane component that is susceptible to proteinase K cleavage. We conclude that dra encodes a virulence-associated determinant and contributes to the immune resistance of B. pertussis. 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Despite very high vaccine coverage, pertussis has reemerged as a serious threat in the United States and many developing countries. Thus, it is important to pursue research to discover unknown pathogenic mechanisms of B. pertussis. We have investigated a previously uncharacterized locus in B. pertussis, the dra locus, which is homologous to the dlt operons of Gram-positive bacteria. The absence of the dra locus resulted in increased sensitivity to the killing action of antimicrobial peptides (AMPs) and human phagocytes. Compared to the wild-type cells, the mutant cells bound higher levels of cationic proteins and peptides, suggesting that dra contributes to AMP resistance by decreasing the electronegativity of the cell surface. The presence of dra led to the incorporation of d-alanine into an outer membrane component that is susceptible to proteinase K cleavage. We conclude that dra encodes a virulence-associated determinant and contributes to the immune resistance of B. pertussis. 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subjects	adenosine monophosphate antibiotic resistance Antimicrobial Cationic Peptides - metabolism antimicrobial peptides Bacterial Outer Membrane Proteins - genetics Bacterial Outer Membrane Proteins - metabolism Bacteriology Bordetella pertussis Bordetella pertussis - genetics Bordetella pertussis - immunology Bordetella pertussis - metabolism Cells, Cultured developing countries Drug Resistance, Bacterial Endopeptidase K - metabolism Genetic Loci Gram-positive bacteria human diseases Humans Leukocytes loci Membranes mutants Neutrophils - immunology operon pathogens peptidase K Peptides phagocytes Proteases Proteins Proteolysis respiratory system United States vaccines Whooping cough
title	d-Alanine Modification of a Protease-Susceptible Outer Membrane Component by the Bordetella pertussis dra Locus Promotes Resistance to Antimicrobial Peptides and Polymorphonuclear Leukocyte-Mediated Killing
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