Browsing Division of RNA biology of bacterial infections ([HIRI] RABI) by Authors
Competitive exclusion is a major bioprotective mechanism of lactobacilli against fungal spoilage in fermented milk products.Siedler, Solvej; Rau, Martin Holm; Bidstrup, Susanne; Vento, Justin M; Aunsbjerg, Stina Dissing; Bosma, Elleke F; McNair, Laura M; Beisel, Chase L; Neves, Ana Rute; HIRI, Helmholtz-Institut für RNA-basierte Infektionsforschung, Josef-Shneider Strasse 2, 97080 Würzburg, Germany. (American Society of Microbiology, 2020-01-31)A prominent feature of lactic acid bacteria (LAB) is their ability to inhibit growth of spoilage organisms in food, but hitherto research efforts to establish the mechanisms underlying bioactivity focused on the production of antimicrobial compounds by LAB. We show in this study, that competitive exclusion, i.e, competition for a limited resource by different organisms, is a major mechanism of fungal growth inhibition by lactobacilli in fermented dairy products. The depletion of the essential trace element manganese by two Lactobacillus species was uncovered as the main mechanism for growth inhibition of dairy spoilage yeast and molds. A manganese transporter (MntH1), representing one of the highest expressed gene products in both lactobacilli, facilitates the exhaustive manganese scavenging. Expression of the mntH1 gene was found to be strain-dependent, affected by species co-culturing and growth phase. Further, deletion of the mntH1 gene in one of the strains resulted in loss of bioactivity, proving this gene to be important for manganese depletion. The presence of a mntH gene displayed a distinct phylogenetic pattern within the Lactobacillus genus. Moreover, assaying the bioprotective ability in fermented milk of selected lactobacilli from ten major phylogenetic groups identified a correlation between the presence of mntH and bioprotective activity. Thus, manganese scavenging emerges as a common trait within the Lactobacillus genus, but differences in expression result in some strains showing more bioprotective effect than others.In summary, competitive exclusion through ion depletion is herein reported a novel mechanism in LAB to delay growth of spoilage contaminants in dairy products.IMPORTANCE In societies that have food choices, conscious consumers demand natural solutions to keep their food healthy and fresh during storage, simultaneously reducing food waste. The use of "good bacteria" to protect food against spoilage organisms has a long successful history, even though the molecular mechanisms are not fully understood. In this study, we show that depletion of free manganese is a major bioprotective mechanism of lactobacilli in dairy products. High manganese uptake and intracellular storage provides a link to the distinct non-enzymatic manganese catalyzed oxidative stress defense mechanism, previously described for certain lactobacilli. The evaluation of representative Lactobacillus species in our study identifies multiple relevant species groups for fungal growth inhibition via manganese depletion. Hence, through the natural mechanism of nutrient depletion, the use of dedicated bioprotective lactobacilli constitutes an attractive alternative to artificial preservation.