Mycobacterium vaccae Adaptation to Disinfectants and Hand Sanitisers, and Evaluation of Cross-Tolerance with Antimicrobials

Mycobacterium vaccae is being considered as an adjuvant to antituberculosis therapy, tested for the treatment of autoimmune diseases, and as an anti-depressive agent. This bacterium is ubiquitous in the environment and the widespread use of disinfectants and sanitisers may lead to its adaptation to these compounds. In the present study, M. vaccae cells adapted to these compounds mainly by making adjustments in their lipid composition and net surface charge. The modifications in the lipid composition led to changes in membrane permeability which resulted in increased tolerance towards levofloxacin, thioridazine, and omeprazole

Recent Achievements on Siderophore Production and Application

Iron is the most abundant chemical element on Earth but its most common oxidation state is Fe(III) which presents a very low solubility under physiological conditions. During evolution, micro-organisms have developed sound strategies to acquire iron from both the environment and superior organisms, including direct uptake of iron ions from exogenous iron/heme sources and the synthesis of specialized Fe(III) chelators called siderophores. The present review paper aims at presenting and discussing the latest achievements in siderophore isolation and production, as well as novel applications of these molecules in therapies against iron-related diseases and in vaccines, and their application as antimicrobial agents and biosensors