Sulforaphane Alleviates Bisphenol A-Induced Glucose Intolerance via Improving Inflammation and Oxidative Stress

IF 3.5 2区 农林科学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Lixia Hong, Yide Xu, Dongdong Wang, Qi Zhang, Xiaoting Li, Chunfeng Xie, Jieshu Wu, Caiyun Zhong, Gu Gao, Ye Ding, Shanshan Geng
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Abstract

Background. Bisphenol A (BPA) disrupts glucose homeostasis via inflammatory pathways in liver cells, affecting insulin sensitivity. This study examines sulforaphane (SFN), known for its anti-inflammatory and antioxidative properties, for counteracting BPA’s effects. Methods. We evaluated SFN’s impact on BPA-exposed C57/BL6J mice and HepG2 cells, focusing on metabolic parameters, insulin signaling, and inflammatory markers. Mice were treated with SFN (10 mg/kg) for six weeks, with assessments including body weight, serum glucose, insulin levels, and glucose tolerance. Molecular analyses in both models included gene expressions related to glucose metabolism, insulin and MAPK signaling pathways, and markers of inflammation and oxidative stress. Results. SFN reduced blood glucose and improved glucose tolerance of BPA-treated mice. In BPA-treated HepG2 cells, SFN significantly boosted glucose consumption in vitro. Moreover, SFN treatment enhanced the protein expression of phosphorylated-insulin receptor and phosphorylated-AKT and reversed glycolytic and gluconeogenic gene expression in HepG2 cells and mice liver. SFN also decreased phosphorylation levels of p38 and JNK and reduced inflammation and oxidative stress markers in vitro and in vivo. Conclusion. Our findings underscore SFN’s capacity to ameliorate BPA-induced glucose intolerance and insulin resistance by enhancing hepatic insulin signaling and metabolic functions. This action is likely mediated through SFN’s inhibitory effects on inflammatory and oxidative pathways. Consequently, SFN holds promise as an intervention for mitigating BPA-related metabolic disorders.

Abstract Image

红景天通过改善炎症和氧化应激缓解双酚 A 诱导的葡萄糖不耐受症
背景。双酚 A(BPA)通过肝细胞中的炎症途径破坏葡萄糖稳态,影响胰岛素敏感性。本研究探讨了以抗炎和抗氧化特性著称的莱菔硫烷 (SFN),以抵消双酚 A 的影响。方法。我们评估了 SFN 对暴露于 BPA 的 C57/BL6J 小鼠和 HepG2 细胞的影响,重点关注代谢参数、胰岛素信号转导和炎症标志物。小鼠接受为期六周的 SFN(10 毫克/千克)治疗,评估包括体重、血清葡萄糖、胰岛素水平和葡萄糖耐量。两种模型的分子分析包括与葡萄糖代谢、胰岛素和 MAPK 信号通路相关的基因表达,以及炎症和氧化应激标志物。结果SFN 可降低双酚 A 处理小鼠的血糖并改善其葡萄糖耐量。在经 BPA 处理的 HepG2 细胞中,SFN 能显著促进葡萄糖的体外消耗。此外,SFN 还能提高磷酸化胰岛素受体和磷酸化 AKT 的蛋白表达,并逆转 HepG2 细胞和小鼠肝脏中的糖酵解和糖生成基因表达。SFN 还能降低 p38 和 JNK 的磷酸化水平,减少体外和体内的炎症和氧化应激标记物。结论。我们的研究结果表明,SFN 能够通过增强肝脏胰岛素信号传导和代谢功能,改善双酚 A 诱导的葡萄糖不耐受和胰岛素抵抗。这种作用可能是通过 SFN 对炎症和氧化途径的抑制作用介导的。因此,SFN有望成为缓解与双酚A相关的代谢紊乱的干预措施。
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来源期刊
Journal of Food Biochemistry
Journal of Food Biochemistry 生物-生化与分子生物学
CiteScore
7.80
自引率
5.00%
发文量
488
审稿时长
3.6 months
期刊介绍: The Journal of Food Biochemistry publishes fully peer-reviewed original research and review papers on the effects of handling, storage, and processing on the biochemical aspects of food tissues, systems, and bioactive compounds in the diet. Researchers in food science, food technology, biochemistry, and nutrition, particularly based in academia and industry, will find much of great use and interest in the journal. Coverage includes: -Biochemistry of postharvest/postmortem and processing problems -Enzyme chemistry and technology -Membrane biology and chemistry -Cell biology -Biophysics -Genetic expression -Pharmacological properties of food ingredients with an emphasis on the content of bioactive ingredients in foods Examples of topics covered in recently-published papers on two topics of current wide interest, nutraceuticals/functional foods and postharvest/postmortem, include the following: -Bioactive compounds found in foods, such as chocolate and herbs, as they affect serum cholesterol, diabetes, hypertension, and heart disease -The mechanism of the ripening process in fruit -The biogenesis of flavor precursors in meat -How biochemical changes in farm-raised fish are affecting processing and edible quality
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