Antimicrobial properties of magnesium chloride at low pH in the presence of anionic bases

Alarcon, PO; Sossa, K; Contreras D.; Urrutia, H; Nocker A

Abstract

Magnesium is an element essential for life and is found ubiquitously in all organisms. The different cations play important roles as enzymatic co-factors, as signaling molecules, and in stabilizing cellular components. It is not surprising that magnesium salts in microbiological experiments are typically associated with positive effects. In this study with Listeria monocytogenes as a model organism, we focus however on the usefulness of magnesium (in form of MgCl2) as a stress enhancer. Whereas MgCl2 does not affect bacterial viability at near-neutral pHs, it was found to strongly compromise culturability and redox activity when cell suspensions were exposed to the salt at acidic pH. The principle was confirmed with a number of gram-negative and gram-positive species. The magnesium salt dramatically increased the acidity to a level that was antimicrobial in the presence of anionic bases such as phosphate, lactate, or acetate, but not TRIS. The antimicrobial activity of MgCl2 was much stronger than that of NaCl, KCl, or CaCl2. No effect was observed with MgSO4 or when cells were exposed to MgCl2 in phosphate buffer with a pH >= 5. Acid stress was reinforced by an additional, salt-specific effect of MgCl2 on microbial viability that needs further examination. Apart from its implications for surface disinfection, this observation might support the commonly stated therapeutic properties of MgCl2 for the treatment of skin diseases (with healthy skin being an acidic environment), and could contribute to understanding why salt from the Dead Sea, where Mg2+ and Cl- are the most abundant cation/anion, has healing properties in a microbiological context.

Más información

Título según WOS: Antimicrobial properties of magnesium chloride at low pH in the presence of anionic bases
Título según SCOPUS: Antimicrobial properties of magnesium chloride at low pH in the presence of anionic bases
Título de la Revista: MAGNESIUM RESEARCH
Volumen: 27
Número: 2
Editorial: JOHN LIBBEY EUROTEXT LTD
Fecha de publicación: 2014
Página de inicio: 57
Página final: 68
Idioma: English
DOI:

10.1684/mrh.2014.0362

Notas: ISI, SCOPUS