Due to its favorable chemical properties, zinc is used as a structural or catalytic cofactor in a very large number of proteins. Despite the apparent abundance of this metal in all cell types, the intracellular pool of loosely bound zinc ions available for biological exchanges is in the picomolar range and nearly all zinc is tightly bound to proteins. In addition, to limit bacterial growth, some zinc-sequestering proteins are produced by eukaryotic hosts in response to infections. Therefore, to grow and multiply in the infected host, bacterial pathogens must produce high affinity zinc importers, such as the ZnuABC transporter which is present in most Gram-negative bacteria. Studies carried in different bacterial species have established that disruption of ZnuABC is usually associated with a remarkable loss of pathogenicity. The critical involvement of zinc in a plethora of metabolic and virulence pathways and the presence of very low number of zinc importers in most bacterial species mark zinc homeostasis as a very promising target for the development of novel antimicrobial strategies.

Cerasi, M., Ammendola, S., Battistoni, A. (2013). Competition for zinc binding in the host-pathogen interaction. FRONTIERS IN CELLULAR AND INFECTION MICROBIOLOGY, 3(108) [10.3389/fcimb.2013.00108].

Competition for zinc binding in the host-pathogen interaction

Cerasi M;Ammendola S;Battistoni A
2013-12-01

Abstract

Due to its favorable chemical properties, zinc is used as a structural or catalytic cofactor in a very large number of proteins. Despite the apparent abundance of this metal in all cell types, the intracellular pool of loosely bound zinc ions available for biological exchanges is in the picomolar range and nearly all zinc is tightly bound to proteins. In addition, to limit bacterial growth, some zinc-sequestering proteins are produced by eukaryotic hosts in response to infections. Therefore, to grow and multiply in the infected host, bacterial pathogens must produce high affinity zinc importers, such as the ZnuABC transporter which is present in most Gram-negative bacteria. Studies carried in different bacterial species have established that disruption of ZnuABC is usually associated with a remarkable loss of pathogenicity. The critical involvement of zinc in a plethora of metabolic and virulence pathways and the presence of very low number of zinc importers in most bacterial species mark zinc homeostasis as a very promising target for the development of novel antimicrobial strategies.
dic-2013
Pubblicato
Rilevanza internazionale
Articolo
Esperti anonimi
Settore BIO/10 - BIOCHIMICA
English
zinc uptake, ZnuABC, antibacterial therapies, metal cofactor, host-pathogen interaction, Salmonella enterica, zinc transporter, nutritional immunity
Cerasi, M., Ammendola, S., Battistoni, A. (2013). Competition for zinc binding in the host-pathogen interaction. FRONTIERS IN CELLULAR AND INFECTION MICROBIOLOGY, 3(108) [10.3389/fcimb.2013.00108].
Cerasi, M; Ammendola, S; Battistoni, A
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/89367
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