Abstract
Food-grade titanium dioxide (TiO2) containing a nanoparticle fraction (TiO2 NPs -nanoparticles) is widely used as a food additive (E171 in the EU). In recent years, it has increasingly been raising controversies as to the presence or absence of its harmful effects on the gastrointestinal microbiota. The complexity and variability of microbiota species present in the human gastrointestinal tract impede the assessment of the impact of food additives on this ecosystem. As unicellular organisms, bacteria are a very convenient research model for investigation of the toxicity of nanoparticles. We examined the effect of TiO2 (three types of food-grade E171 and one TiO2 NPs, 21 nm) on the growth of 17 strains of lactic acid bacteria colonizing the human digestive tract. Each bacterial strain was treated with TiO2 at four concentrations (60, 150, 300, and 600 mg/L TiO2). The differences in the growth of the individual strains were caused by the type and concentration of TiO2. It was shown that the growth of a majority of the analyzed strains was decreased by the application of E171 and TiO2 NPs already at the concentration of 150 and 300 mg/L. At the highest dose (600 mg/L) of the nanoparticles, the reactions of the bacteria to the different TiO2 types used in the experiment varied.
Highlights
Food additives are widely used in the food industry to improve the flavor, smell, color, and shelf life of food [1]
The cultivation of the lactic acid bacteria in the presence of the nanoparticles showed the inhibition of bacterial growth; the concentration at which the minimal effect was noted was strain dependent
We showed that the lowest concentration that caused the growth inhibition in all strains was 150 or 300 mg/L. At these doses of the nanoparticles, there were evident differences in the bacterial response to the different E171/TiO2 NPs types used in the experiment
Summary
Food additives are widely used in the food industry to improve the flavor, smell, color, and shelf life of food [1]. It should be noted that E171 contains different sized TiO2 particles, including nanoparticles
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