Litcius/Paper detail

Characteristics of the copper‐induced viable‐but‐non‐culturable state in bacteria

Laurens Maertens, Jean‐Yves Matroule, Rob Van Houdt

2021World Journal of Microbiology and Biotechnology21 citationsDOIOpen Access PDF

Abstract

The antimicrobial applications of copper (Cu) are exploited in several industries, such as agriculture and healthcare settings. While Cu is capable of efficiently killing microorganisms, sub-lethal doses can induce a viable-but-non-culturable (VBNC) state in bacteria of many distinct clades. VBNC cells cannot be detected by standard culture-based detection methods, and can become a threat to plants and animals as they often retain virulent traits upon resuscitation. Here we discuss the putative mechanisms of the Cu-induced VBNC state. Common observations in Cu-induced VBNC cells include a cellular response to reactive oxygen species, the exhaustion of energy reserves, and a reconfiguration of the proteome. While showing partial overlap with other VBNC state-inducing stressors, these changes seem to be part of an adaptive response to Cu toxicity. Furthermore, we argue that Cu resistance mechanisms such as P-type ATPases and multicopper oxidases may ward off entry into the VBNC state to some extent. The spread of these mechanisms across multi-species populations could increase population-level resistance to Cu antimicrobials. As Cu resistance mechanisms are often co-selected with antibiotic resistance mechanisms, this threat is exacerbated.

Topics & Concepts

BacteriaMicrobiologyBiologyPopulationVirulenceAntimicrobialCopper toxicityAntibiotic resistanceMicroorganismAntibioticsChemistryCopperBiochemistryGeneGeneticsMedicineOrganic chemistryEnvironmental healthVibrio bacteria research studiesBacterial biofilms and quorum sensingBacillus and Francisella bacterial research