铜
联合囊肿
分泌物
细菌
细胞外
铜毒性
生物化学
生物
生物物理学
流出
细胞内
细胞生物学
化学
微生物学
作者
Steeve Lima,Jorge Matinha-Cardoso,Joaquín Giner-Lamia,Narciso Couto,Catarina C. Pacheco,Francisco J. Florencio,Phillip C. Wright,Paula Tamagnini,Paulo J. Oliveira
标识
DOI:10.1016/j.jhazmat.2022.128594
摘要
Metal homeostasis is fundamental for optimal performance of cell metabolic pathways. Over the course of evolution, several systems emerged to warrant an intracellular metal equilibrium. When exposed to growth-challenging copper concentrations, Gram-negative bacteria quickly activate copper-detoxification mechanisms, dependent on transmembrane-protein complexes and metallochaperones that mediate metal efflux. Here, we show that vesiculation is also a common bacterial response mechanism to high copper concentrations, and that extracellular vesicles (EVs) play a role in transporting copper. We present evidence that bacteria from different ecological niches release copious amounts of EVs when exposed to copper. Along with the activation of the classical detoxification systems, we demonstrate that copper-stressed cells of the cyanobacterium Synechocystis sp. PCC6803 release EVs loaded with the copper-binding metallochaperone CopM. Under standard growth conditions, CopM-loaded EVs could also be isolated from a Synechocystis strain lacking a functional TolC-protein, which we characterize here as exhibiting a copper-sensitive phenotype. Analyses of Synechocystis tolC -mutant’s EVs isolated from cells cultivated under standard conditions indicated the presence of copper therein, in significantly higher levels as compared to those from the wild-type. Altogether, these results suggest that release of EVs in bacteria represent a novel copper-secretion mechanism, shedding light into alternative mechanisms of bacterial metal resistance. • Extracellular vesicles (EVs): overlooked metal resistance mechanism in bacteria. • Vesiculation is a common response mechanism to copper-induced stressful conditions. • Cyanobacterial EVs are packaged with metal binding proteins. • Cyanobacterial EVs work as copper-secreting nanocapsules.
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