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13. Foodborne Carbon Dots Aggravate High-Fat-Diet-Induced Glucose Homeostasis Imbalance by Disrupting the Gut-Liver Axis

Author

Zhang, Boya, Yu, Ziteng, Zhao, Xinyi, He, Tianyue, Fan, Xingpei, Zhu, Ruijiao, Feng, Yujie, Lu, Weihong, Qi, Dianpeng, Ma, Xiao, and Gu, Ning

Abstract

Foodborne carbon dots (CDs) are generally produced during cooking and exist in food items. Generally, CDs are regarded as nontoxic materials, but several studies have gradually confirmed the cytotoxicity of CDs, such as oxidative stress, reduced cellular activity, apoptosis, etc. However, studies focusing on the health effects of long-term intake of food-borne CDs are scarce, especially in populations susceptible to metabolic disease. In this study, we reported that CDs in self-brewing beer had no effect on glucose metabolism in CHOW-fed mice but exacerbated high-fat-diet (HFD)-induced glucose metabolism disorders via the gut-liver axis. Chronic exposure to foodborne CDs increased fasting glucose levels and exacerbated liver and intestinal barrier damage in HFD-fed mice. The 16s rRNA sequencing analysis revealed that CDs significantly altered the gut microbiota composition and promoted lipopolysaccharide (LPS) synthesis-related KEGG pathways (superpathway of (Kdo)2-lipid A, Kdo transfer to lipid IVA Ill (Chlamydia), lipid IVA biosynthesis, and so on) in HFD-fed mice. Mechanically, CD exposure increased the abundance of Gram-negative bacteria (Proteobacteriaand Desulfovibrionaceae), thus producing excessive endotoxin-LPS, and then LPS was transferred by the blood circulation to the liver due to the damaged intestinal barrier. In the liver, LPS promoted TLR4/NF-κB/P38 MAPK signaling, thus enhancing systemic inflammation and exacerbating HFD-induced insulin resistance. However, pretreating mice with antibiotics eliminated these effects, indicating a key role for gut microbiota in CDs exacerbating glucose metabolism disorders in HFD-fed mice. The finding herein provides new insight into the potential health risk of foodborne nanoparticles in susceptible populations by disturbing the gut-liver axis.

Published
2024
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16. Additional file 1 of Malting barley carbon dots-mediated oxidative stress promotes insulin resistance in mice via NF-κB pathway and MAPK cascade

Author

Zhang, Boya, Yu, Lidong, Zhu, Ruijiao, Wei, Xiangjuan, Fan, Xingpei, Hu, Hailong, Yang, Daqian, Du, Haining, Zhao, Meimei, Li, Li, Oh, Yuri, Feng, Yujie, and Gu, Ning

Abstract

Additional file 1: Figure S1. a) TEM and HRTEM images of the water-dispersed BCDs-2. b) TEM and HRTEM images of the water-dispersed BCDs-3. Figure S2. a) AFM images of the water-dispersed BCDs-2. b) AFM images of the water-dispersed BCDs-3. Figure S3. XRD spectrum of BCDs-2 and BCDs-3. Figure S4. FT-IR spectrum of BCDs-2 and BCDs-3. Figure S5. a) XPS spectrum and b) high revolution spectra of C 1s. Figure S6. High revolution spectra of N 1s of MBCDs, BCDs-1, BCDs-2 and BCDs-3. Figure S7. High revolution spectra of O 1s of MBCDs, BCDs-1, BCDs-2 and BCDs-3. Figure S8. a, b) Fluorescence spectrums of BCDs-2 and BCDs-3 excited at different wavelengths, and pictures of solution under daylight and ultraviolet conditions. Figure S9. a) Food intake. b) Water intake. Figure S10. GO terms related to glucose metabolism. Figure S11. a) Fold change of CYP450 genes. b) mRNA expressions of CYP450. Figure S12. MBCDs affected 53 Kyoto Encyclopedia of Genes and Genomes (KEGG) pathways in mice liver. Figure S13. Body weight of mice treated with MBCDs and MBCDs+antioxidants. Figure S14. Organ index and organ weight of mice treated with MBCDs and MBCDs+antioxidants. Table S1. Primer Sequence.

Published
2022
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