Your search keyword '"Llewellyn, Anna C."' showing total 5 results

1. Francisella FlmX broadly affects lipopolysaccharide modification and virulence

Author

Chin, Chui-Yoke, Zhao, Jinshi, Llewellyn, Anna C., Golovliov, Igor, Sjöstedt, Anders, Zhou, Pei, Weiss, David S., Chin, Chui-Yoke, Zhao, Jinshi, Llewellyn, Anna C., Golovliov, Igor, Sjöstedt, Anders, Zhou, Pei, and Weiss, David S.

Abstract

The outer membrane protects Gram-negative bacteria from the host environment. Lipopolysaccharide (LPS), a major outer membrane constituent, has distinct components (lipid A, core, O-antigen) generated by specialized pathways. In this study, we describe the surprising convergence of these pathways through FlmX, an uncharacterized protein in the intracellular pathogen Francisella. FlmX is in the flippase family, which includes proteins that traffic lipid-linked envelope components across membranes. flmX deficiency causes defects in lipid A modification, core remodeling, and O-antigen addition. We find that an F. tularensis mutant lacking flmX is >1,000,000-fold attenuated. Furthermore, FlmX is required to resist the innate antimicrobial LL-37 and the antibiotic polymyxin. Given FlmX's central role in LPS modification and its conservation in intracellular pathogens Brucella, Coxiella, and Legionella, FlmX may represent a novel drug target whose inhibition could cripple bacterial virulence and sensitize bacteria to innate antimicrobials and antibiotics.

Published

2021

2. Francisella FlmX broadly affects lipopolysaccharide modification and virulence

Author

Chin, Chui-Yoke, Zhao, Jinshi, Llewellyn, Anna C., Golovliov, Igor, Sjöstedt, Anders, Zhou, Pei, Weiss, David S., Chin, Chui-Yoke, Zhao, Jinshi, Llewellyn, Anna C., Golovliov, Igor, Sjöstedt, Anders, Zhou, Pei, and Weiss, David S.

Abstract

The outer membrane protects Gram-negative bacteria from the host environment. Lipopolysaccharide (LPS), a major outer membrane constituent, has distinct components (lipid A, core, O-antigen) generated by specialized pathways. In this study, we describe the surprising convergence of these pathways through FlmX, an uncharacterized protein in the intracellular pathogen Francisella. FlmX is in the flippase family, which includes proteins that traffic lipid-linked envelope components across membranes. flmX deficiency causes defects in lipid A modification, core remodeling, and O-antigen addition. We find that an F. tularensis mutant lacking flmX is >1,000,000-fold attenuated. Furthermore, FlmX is required to resist the innate antimicrobial LL-37 and the antibiotic polymyxin. Given FlmX's central role in LPS modification and its conservation in intracellular pathogens Brucella, Coxiella, and Legionella, FlmX may represent a novel drug target whose inhibition could cripple bacterial virulence and sensitize bacteria to innate antimicrobials and antibiotics.

Published

2021

3. Francisella FlmX broadly affects lipopolysaccharide modification and virulence

Author

Chin, Chui-Yoke, Zhao, Jinshi, Llewellyn, Anna C., Golovliov, Igor, Sjöstedt, Anders, Zhou, Pei, Weiss, David S., Chin, Chui-Yoke, Zhao, Jinshi, Llewellyn, Anna C., Golovliov, Igor, Sjöstedt, Anders, Zhou, Pei, and Weiss, David S.

Abstract

The outer membrane protects Gram-negative bacteria from the host environment. Lipopolysaccharide (LPS), a major outer membrane constituent, has distinct components (lipid A, core, O-antigen) generated by specialized pathways. In this study, we describe the surprising convergence of these pathways through FlmX, an uncharacterized protein in the intracellular pathogen Francisella. FlmX is in the flippase family, which includes proteins that traffic lipid-linked envelope components across membranes. flmX deficiency causes defects in lipid A modification, core remodeling, and O-antigen addition. We find that an F. tularensis mutant lacking flmX is >1,000,000-fold attenuated. Furthermore, FlmX is required to resist the innate antimicrobial LL-37 and the antibiotic polymyxin. Given FlmX's central role in LPS modification and its conservation in intracellular pathogens Brucella, Coxiella, and Legionella, FlmX may represent a novel drug target whose inhibition could cripple bacterial virulence and sensitize bacteria to innate antimicrobials and antibiotics.

Published

2021

4. Francisella FlmX broadly affects lipopolysaccharide modification and virulence

Author

Chin, Chui-Yoke, Zhao, Jinshi, Llewellyn, Anna C., Golovliov, Igor, Sjöstedt, Anders, Zhou, Pei, Weiss, David S., Chin, Chui-Yoke, Zhao, Jinshi, Llewellyn, Anna C., Golovliov, Igor, Sjöstedt, Anders, Zhou, Pei, and Weiss, David S.

Abstract

The outer membrane protects Gram-negative bacteria from the host environment. Lipopolysaccharide (LPS), a major outer membrane constituent, has distinct components (lipid A, core, O-antigen) generated by specialized pathways. In this study, we describe the surprising convergence of these pathways through FlmX, an uncharacterized protein in the intracellular pathogen Francisella. FlmX is in the flippase family, which includes proteins that traffic lipid-linked envelope components across membranes. flmX deficiency causes defects in lipid A modification, core remodeling, and O-antigen addition. We find that an F. tularensis mutant lacking flmX is >1,000,000-fold attenuated. Furthermore, FlmX is required to resist the innate antimicrobial LL-37 and the antibiotic polymyxin. Given FlmX's central role in LPS modification and its conservation in intracellular pathogens Brucella, Coxiella, and Legionella, FlmX may represent a novel drug target whose inhibition could cripple bacterial virulence and sensitize bacteria to innate antimicrobials and antibiotics.

Published

2021

5. Francisella FlmX broadly affects lipopolysaccharide modification and virulence

Author

Chin, Chui-Yoke, Zhao, Jinshi, Llewellyn, Anna C., Golovliov, Igor, Sjöstedt, Anders, Zhou, Pei, Weiss, David S., Chin, Chui-Yoke, Zhao, Jinshi, Llewellyn, Anna C., Golovliov, Igor, Sjöstedt, Anders, Zhou, Pei, and Weiss, David S.

Abstract

The outer membrane protects Gram-negative bacteria from the host environment. Lipopolysaccharide (LPS), a major outer membrane constituent, has distinct components (lipid A, core, O-antigen) generated by specialized pathways. In this study, we describe the surprising convergence of these pathways through FlmX, an uncharacterized protein in the intracellular pathogen Francisella. FlmX is in the flippase family, which includes proteins that traffic lipid-linked envelope components across membranes. flmX deficiency causes defects in lipid A modification, core remodeling, and O-antigen addition. We find that an F. tularensis mutant lacking flmX is >1,000,000-fold attenuated. Furthermore, FlmX is required to resist the innate antimicrobial LL-37 and the antibiotic polymyxin. Given FlmX's central role in LPS modification and its conservation in intracellular pathogens Brucella, Coxiella, and Legionella, FlmX may represent a novel drug target whose inhibition could cripple bacterial virulence and sensitize bacteria to innate antimicrobials and antibiotics.

Published

2021