Abstract
Transition metals such as iron, manganese, and zinc are essential micronutrients for bacteria. However, at high concentration, they can generate non-functional proteins or toxic compounds. Metal metabolism is therefore regulated to prevent shortage or overload, both of which can impair cell survival. In addition, equilibrium among these metals has to be tightly controlled to avoid molecular replacement in the active site of enzymes. Bacteria must actively maintain intracellular metal concentrations to meet physiological needs within the context of the local environment. When intracellular buffering capacity is reached, they rely primarily on membrane-localized exporters to maintain metal homeostasis. Recently, several groups have characterized new export systems and emphasized their importance in the virulence of several pathogens. This article discusses the role of export systems as general virulence determinants. Furthermore, it highlights the contribution of these exporters in pathogens emergence with emphasis on the human nasopharyngeal colonizer Neisseria meningitidis.
Highlights
CELLULAR AND INFECTION MICROBIOLOGYRole of transition metal exporters in virulence: the example of Neisseria meningitidis
It has been known that transition metals played a role in regulating host pathogen relationships (Weinberg, 1971; Finkelstein et al, 1983)
Five main classes of bacterial exporters (Figure 1) have been described: 1. The Resistance-Nodulation-Cell division (RND) type transporters are integral membrane proteins mediating the efflux of a broad variety of substrates with a subset exporting metals
Summary
Role of transition metal exporters in virulence: the example of Neisseria meningitidis. Département Infection et Epidémiologie, Institut Pasteur, Unité des Infections Bactériennes Invasives, Paris, France. Reviewed by: Caroline Genco, Boston University School of Medicine, USA Thomas Kehl-Fie, University of Illinois, USA. Transition metals such as iron, manganese, and zinc are essential micronutrients for bacteria. Bacteria must actively maintain intracellular metal concentrations to meet physiological needs within the context of the local environment. This article discusses the role of export systems as general virulence determinants. It highlights the contribution of these exporters in pathogens emergence with emphasis on the human nasopharyngeal colonizer Neisseria meningitidis
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