A sensor histidine kinase from a plant-endosymbiont bacterium restores the virulence of a mammalian intracellular pathogen

Esteban Chaves-Olarte, Jazmín Meza-Torres, Fabiola Herrera-Rodríguez, Esteban Lizano-González, Marcela Suárez-Esquivel, Kate S. Baker, Olga Rivas-Solano, Nazareth Ruiz-Villalobos, Fabián Villalta-Romero, Hai Ping Cheng, Graham C. Walker, Axel Cloeckaert, Nicholas R. Thomson, Teresa Frisan, Edgardo Moreno, Caterina Guzmán-Verri

Producción científica: Contribución a una revistaArtículorevisión exhaustiva

Resumen

Alphaproteobacteria include organisms living in close association with plants or animals. This interaction relies partly on orthologous two-component regulatory systems (TCS), with sensor and regulator proteins modulating the expression of conserved genes related to symbiosis/virulence. We assessed the ability of the exoS+Sm gene, encoding a sensor protein from the plant endosymbiont Sinorhizobium meliloti to substitute its orthologous bvrS in the related animal/human pathogen Brucella abortus. ExoS phosphorylated the B. abortus regulator BvrR in vitro and in cultured bacteria, showing conserved biological function. Production of ExoS in a B. abortus bvrS mutant reestablished replication in host cells and the capacity to infect mice. Bacterial outer membrane properties, the production of the type IV secretion system VirB, and its transcriptional regulators VjbR and BvrR were restored as compared to parental B. abortus. These results indicate that conserved traits of orthologous TCS from bacteria living in and sensing different environments are sufficient to achieve phenotypic plasticity and support bacterial survival. The knowledge of bacterial genetic networks regulating host interactions allows for an understanding of the subtle differences between symbiosis and parasitism. Rewiring these networks could provide new alternatives to control and prevent bacterial infection.

Idioma originalInglés
Número de artículo106442
PublicaciónMicrobial Pathogenesis
Volumen185
DOI
EstadoPublicada - dic 2023

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