Developmental toxicity and estrogenic activity of antimicrobial phenolic-branched fatty acids using in silico simulations and in vivo and in vitro bioassay.

IF 3.6 Q2 TOXICOLOGY Frontiers in toxicology Pub Date : 2024-09-02 eCollection Date: 2024-01-01 DOI:10.3389/ftox.2024.1380485
Xinwen Zhang, Helen Ngo, Karen Wagner, Xuetong Fan, Changqing Wu
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Abstract

Due to the growing safety and environmental concerns associated with biocides, phenolic-soy branched chain fatty acids (phenolic-soy BCFAs) are synthesized as new bio-based antimicrobial agents. Safety evaluation is essential before the wide adoption of these new antimicrobial products. This study was initiated to evaluate the safety of four phenolic-soy BCFAs (with phenol, thymol, carvacrol, or creosote branches). Methyl-branched iso-oleic acid, phenol, and creosote were included in the study as controls. In silico toxicity simulation tools predicted that the phenolic BCFAs had much higher toxicities to aquatic organisms than free phenolics did, while the opposite was predicted for rats. The developmental toxicity of four phenolic-soy BCFAs was assessed using an in vivo chicken embryonic assay. Results showed that creosote-soy BCFA had much lower mortality rates than creosote at the same dosages. Additionally, creosote-soy BCFA and methyl-branched iso-oleic acid induced minimal estrogenic activity in the concentration range of 10 nM - 1 µM. Carvacrol-soy BCFA treatments significantly increased (p < 0.05) oxidative stress levels with higher thiobarbituric acid reactive substances in the livers of chicken embryos. Altogether, the phenolic-soy BCFAs, especially creosote-soy BCFA, reported in this study are potentially promising and safer bio-based antimicrobial products.

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利用硅学模拟和体内、体外生物测定研究抗菌剂酚支链脂肪酸的发育毒性和雌激素活性。
由于与杀菌剂相关的安全和环境问题日益突出,酚-大豆支链脂肪酸(酚-大豆 BCFAs)被合成为新的生物基抗菌剂。在广泛采用这些新型抗菌剂产品之前,安全评估至关重要。本研究旨在评估四种酚类大豆 BCFA(含苯酚、百里酚、香芹酚或杂酚油分支)的安全性。甲基支链异油酸、苯酚和杂酚油作为对照被纳入研究。根据硅毒性模拟工具的预测,酚类 BCFAs 对水生生物的毒性远高于游离酚类,而对大鼠的预测则相反。利用体内鸡胚胎试验评估了四种酚类大豆萃取物的发育毒性。结果表明,在相同剂量下,杂酚油-大豆 BCFA 的死亡率远低于杂酚油。此外,在 10 nM - 1 µM 的浓度范围内,杂酚油-大豆 BCFA 和甲基支链异油酸诱导的雌激素活性极低。香芹酚-大豆 BCFA 处理显著增加了氧化应激水平(p < 0.05),鸡胚肝脏中硫代巴比妥酸活性物质增加。总之,本研究中报道的酚类大豆 BCFAs,尤其是香芹酚大豆 BCFA,是一种潜在的、更安全的生物基抗菌产品。
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CiteScore
3.80
自引率
0.00%
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0
审稿时长
13 weeks
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