丁酸盐对不同肠道体外模型中食品级二氧化钛毒性的影响

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-09-16 Epub Date: 2024-08-30 DOI:10.1021/acs.chemrestox.4c00086
Janine M Becht, Hendrik Kohlleppel, Roel P F Schins, Angela A M Kämpfer
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引用次数: 0

摘要

短链脂肪酸(SCFA)是结肠细胞的重要能量来源,也是肠道局部和全身的重要信使分子。丁酸是最突出、研究最深入的 SCFA 之一,已被证实具有抗炎作用、改善屏障完整性、增强肠道粘液合成以及促进肠上皮细胞体外分化。虽然丁酸盐的生理相关性毋庸置疑,但它能否以及在多大程度上影响食品级二氧化钛(E171,fgTiO2)等异种生物在肠道中的作用仍不清楚。二氧化钛因其DNA损伤潜力而备受争议,欧盟自2022年起禁止将其作为食品添加剂。首先,我们使用肠细胞 Caco-2 单培养物来测试丁酸盐是否会影响原始状态或在模拟胃肠 pH 条件下预处理后的 fgTiO2 的细胞毒性和炎症潜力。然后,我们在Caco-2、HT29-MTX-E12和THP-1细胞的肠道三重培养物中对预处理后的氧化镁进行了细胞毒性、屏障完整性、细胞因子释放以及粘蛋白、氧化应激标记物和DNA修复基因表达方面的研究。在 Caco-2 单培养基中,丁酸盐的作用是矛盾的:预处理过的 fgTiO2 会诱导 Caco-2 细胞产生细胞毒性,而未处理过的 fgTiO2 则不会。相反,在有丁酸盐存在而没有丁酸盐存在的情况下,fgTiO2 能诱导白细胞介素 8 的释放。在先进的体外模型中,丁酸盐不会影响健康或炎症状态的特征,而且在接触二氧化钛酸镁后对调查终点的影响可以忽略不计。综上所述,氧化镁的影响在很大程度上取决于所采用的测试方法。我们的研究结果凸显了实验设置的重要性,包括体外模型的选择和暴露情景的生理相关性,这对二氧化钛等食品级颜料的危害测试至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Effect of Butyrate on Food-Grade Titanium Dioxide Toxicity in Different Intestinal In Vitro Models.

Short-chain fatty acids (SCFA) are an important energy source for colonocytes and crucial messenger molecules both locally in the intestine and systemically. Butyrate, one of the most prominent and best-studied SCFA, was demonstrated to exert anti-inflammatory effects, improve barrier integrity, enhance mucus synthesis in the intestine, and promote cell differentiation of intestinal epithelial cells in vitro. While the physiological relevance is undisputed, it remains unclear if and to what extent butyrate can influence the effects of xenobiotics, such as food-grade titanium dioxide (E171, fgTiO2), in the intestine. TiO2 has been controversially discussed for its DNA-damaging potential and banned as a food additive within the European Union (EU) since 2022. First, we used enterocyte Caco-2 monocultures to test if butyrate affects the cytotoxicity and inflammatory potential of fgTiO2 in a pristine state or following pretreatment under simulated gastric and intestinal pH conditions. We then investigated pretreated fgTiO2 in intestinal triple cultures of Caco-2, HT29-MTX-E12, and THP-1 cells in homeostatic and inflamed-like state for cytotoxicity, barrier integrity, cytokine release as well as gene expression of mucins, oxidative stress markers, and DNA repair. In Caco-2 monocultures, butyrate had an ambivalent role: pretreated but not pristine fgTiO2 induced cytotoxicity in Caco-2 cells, which was not observed in the presence of butyrate. Conversely, fgTiO2 induced the release of interleukin 8 in the presence but not in the absence of butyrate. In the advanced in vitro models, butyrate did not affect the characteristics of the healthy or inflamed states and caused negligible effects in the investigated end points following fgTiO2 exposure. Taken together, the effects of fgTiO2 strongly depend on the applied testing approach. Our findings underline the importance of the experimental setup, including the choice of in vitro model and the physiological relevance of the exposure scenario, for the hazard testing of food-grade pigments like TiO2.

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