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1.
Mol Cell Proteomics ; 14(4): 870-81, 2015 Apr.
Artigo em Inglês | MEDLINE | ID: mdl-25616868

RESUMO

Upon entry into mammalian host cells, the pathogenic bacterium Francisella must import host cell arginine to multiply actively in the host cytoplasm. We identified and functionally characterized an arginine transporter (hereafter designated ArgP) whose inactivation considerably delayed bacterial phagosomal escape and intracellular multiplication. Intramacrophagic growth of the ΔargP mutant was fully restored upon supplementation of the growth medium with excess arginine, in both F. tularensis subsp. novicida and F. tularensis subsp. holarctica LVS, demonstrating the importance of arginine acquisition in these two subspecies. High-resolution mass spectrometry revealed that arginine limitation reduced the amount of most of the ribosomal proteins in the ΔargP mutant. In response to stresses such as nutritional limitation, repression of ribosomal protein synthesis has been observed in all kingdoms of life. Arginine availability may thus contribute to the sensing of the intracellular stage of the pathogen and to trigger phagosomal egress. All MS data have been deposited in the ProteomeXchange database with identifier PXD001584 (http://proteomecentral.proteomexchange.org/dataset/PXD001584).


Assuntos
Arginina/metabolismo , Francisella/metabolismo , Interações Hospedeiro-Patógeno , Fagossomos/microbiologia , Proteínas Ribossômicas/metabolismo , Animais , Autofagia , Proteínas de Bactérias/metabolismo , Vacinas Bacterianas/imunologia , Análise por Conglomerados , Citosol/metabolismo , Feminino , Francisella/patogenicidade , Macrófagos/metabolismo , Macrófagos/microbiologia , Macrófagos/ultraestrutura , Proteínas de Membrana Transportadoras/metabolismo , Camundongos Endogâmicos BALB C , Viabilidade Microbiana , Modelos Biológicos , Mutação/genética , Fagossomos/metabolismo , Fagossomos/ultraestrutura , Transporte Proteico , Proteoma/metabolismo , Estresse Fisiológico , Frações Subcelulares/metabolismo , Virulência
2.
Cell Microbiol ; 16(3): 434-49, 2014 Mar.
Artigo em Inglês | MEDLINE | ID: mdl-24134488

RESUMO

In order to develop a successful infectious cycle, intracellular bacterial pathogens must be able to adapt their metabolism to optimally utilize the nutrients available in the cellular compartments and tissues where they reside. Francisella tularensis, the agent of the zoonotic disease tularaemia, is a highly infectious bacterium for a large number of animal species. This bacterium replicates in its mammalian hosts mainly in the cytosol of infected macrophages. We report here the identification of a novel amino acid transporter of the major facilitator superfamily of secondary transporters that is required for bacterial intracellular multiplication and systemic dissemination. We show that inactivation of this transporter does not affect phagosomal escape but prevents multiplication in the cytosol of all cell types tested. Remarkably, the intracellular growth defect of the mutant was fully and specifically reversed by addition of asparagine or asparagine-containing dipeptides as well as by simultaneous addition of aspartic acid and ammonium. Importantly, bacterial virulence was also restored in vivo, in the mouse model, by asparagine supplementation. This work unravels thus, for the first time, the importance of asparagine for cytosolicmultiplication of Francisella. Amino acid transporters are likely to constitute underappreciated players in bacterial intracellular parasitism.


Assuntos
Sistemas de Transporte de Aminoácidos/genética , Asparagina/metabolismo , Proteínas de Bactérias/genética , Francisella tularensis/crescimento & desenvolvimento , Compostos de Amônio/farmacologia , Animais , Asparagina/farmacologia , Ácido Aspártico/metabolismo , Ácido Aspártico/farmacologia , Proteínas de Bactérias/farmacocinética , Linhagem Celular Tumoral , Francisella tularensis/metabolismo , Francisella tularensis/patogenicidade , Células Hep G2 , Humanos , Macrófagos/microbiologia , Camundongos , Camundongos Endogâmicos BALB C , Fagossomos/microbiologia , Tularemia/microbiologia
3.
PLoS One ; 5(1): e8966, 2010 Jan 29.
Artigo em Inglês | MEDLINE | ID: mdl-20126460

RESUMO

Francisella tularensis is a highly infectious bacterium causing the zoonotic disease tularaemia. During its infectious cycle, F. tularensis is not only exposed to the intracellular environment of macrophages but also resides transiently in extracellular compartments, in particular during its systemic dissemination. The screening of a bank of F. tularensis LVS transposon insertion mutants on chemically defined medium (CDM) led us to identify a gene, designated trkH, encoding a homolog of the potassium uptake permease TrkH. Inactivation of trkH impaired bacterial growth in CDM. Normal growth of the mutant was only restored when CDM was supplemented with potassium at high concentration. Strikingly, although not required for intracellular survival in cell culture models, TrkH appeared to be essential for bacterial virulence in the mouse. In vivo kinetics of bacterial dissemination revealed a severe defect of multiplication of the trkH mutant in the blood of infected animals. The trkH mutant also showed impaired growth in blood ex vivo. Genome sequence analyses suggest that the Trk system constitutes the unique functional active potassium transporter in both tularensis and holarctica subspecies. Hence, the impaired survival of the trkH mutant in vivo is likely to be due to its inability to survive in the low potassium environment (1-5 mM range) of the blood. This work unravels thus the importance of potassium acquisition in the extracellular phase of the F. tularensis infectious cycle. More generally, potassium could constitute an important mineral nutrient involved in other diseases linked to systemic dissemination of bacterial pathogens.


Assuntos
Proteínas de Bactérias/fisiologia , Francisella tularensis/patogenicidade , Potássio/metabolismo , Sequência de Aminoácidos , Animais , Proteínas de Bactérias/química , Proteínas de Bactérias/genética , Proteínas de Bactérias/metabolismo , Genes Bacterianos , Camundongos , Dados de Sequência Molecular , Mutação , Homologia de Sequência de Aminoácidos
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