Delei Niu scite author profile

Metabolic diseases are often associated with high fructose (HF) consumption. HF has also been found to alter the gut microbiota, which then favors the development of nonalcoholic fatty liver disease. However, the mechanisms underlying of the gut microbiota on this metabolic disturbance are yet to be determined. Thus, in this study, we further explored the effect the gut microbiota concerning the T cells balance in an HF diet mouse model. We fed mice 60% fructose-enriched diet for 12 weeks. At 4 weeks, HF diet did not affect the liver, but it caused injury to the intestine and adipose tissues. After 12 weeks, the lipid droplet aggregation was markedly increased in the liver of HF-fed mice. Further analysis of the gut microbial composition showed that HF decreased the Bacteroidetes/Firmicutes ratio and increased the levels of Blautia, Lachnoclostridium, and Oscillibacter. In addition, HF can increase the expression of pro-inflammatory cytokines (TNF-α, IL-6, and IL-1β) in the serum. T helper type 1 cells were significantly increased, and regulatory T(Treg) cells were markedly decreased in the mesenteric lymph nodes of the HF-fed mice. Furthermore, fecal microbiota transplantation alleviates systemic metabolic disorder by maintaining liver and intestinal immune homeostasis. Overall, our data indicated that intestinal structure injury and intestinal inflammation might be early, and liver inflammation and hepatic steatosis may be a subsequent effect following HF diets. Gut microbiota disorders impairing the intestinal barrier function and triggering immune homeostasis imbalance may be an importantly responsible for long-term HF diets induced hepatic steatosis.

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Human Cytomegalovirus-IE2 Affects Embryonic Liver Development and Survival in Transgenic Mouse

Zhang

Jiang

Zhou

et al. 2022

Cellular and Molecular Gastroenterology and Hepatology

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Tumor cell vaccine combined with Newcastle disease virus promote immunotherapy of lung cancer

Wang

Nan

Zhou

et al. 2023

Journal of Medical Virology

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Lung cancer is a fatal disease with the highest worldwide morbidity and mortality rates. Despite recent advances in targeted therapy and immune checkpoint inhibitors for cancer, their efficacy remained limited. Therefore, we designed a Newcastle disease virus (NDV)‐modified tumor whole‐cell vaccine as a therapeutic vaccine and identified its antigen presentation level to develop effective immunotherapy. Then, we calculated the therapeutic and immune‐stimulating effects of NDV‐modified lung cancer cell vaccine and intratumoral NDV injection combination on tumor‐bearing mice. The results showed that the immunogenic cell death (ICD) expression in NDV‐modified lung cancer cell vaccine stimulates dendritic cell maturation and T cell activation in vivo and in vitro. Moreover, NDV‐modified lung cancer cell vaccine combined with intratumoral NDV injection could significantly inhibit tumor growth and enhance the differentiation of Th1 cells and Inflammatory cell infiltration in vivo, leading to an excellent immunotherapeutic effect. Therefore, our results revealed that NDV‐modified lung cancer cell vaccine combined with intratumoral NDV injection could promote antigen presentation and induce a strong antitumor immune response, which provided a promising combined therapy strategy for tumor immunotherapy.

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Human cytomegalovirus IE2 may impair the cognitive ability of the hippocampus through the GluNRs/CaMKIIα/CREB signaling pathway in the Rosa26-LSL-IE2/Cre mouse

Niu

Wang

Liu

et al. 2022

Behavioural Brain Research

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Gut Microbiota Induces Hepatic Steatosis by Modulating the T Cells Balance in High Fructose Diet Mice

Zhou

Zhang

Niu

et al. 2023

Preprint

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Metabolic diseases are often associated with high fructose (HF) consumption. HF has also been found to alter the gut microbiota, which then favors the development of nonalcoholic fatty liver disease (NAFLD). However, the mechanisms underlying of the gut microbiota on this metabolic disturbance are yet to be determined. Thus, in this study, we further explored the effect the gut microbiota concerning the T cells balance in an HF diet mouse model. We fed mice 60% fructose-enriched diet for 12 weeks. At 4 weeks, HF diet did not affect the liver, but it caused injury to the intestine and adipose tissues. After 12 weeks, the lipid droplet aggregation was markedly increased in the liver of HF-fed mice. Further analysis of the gut microbial composition showed that HF decreased the Bacteroidetes/Firmicutes ratio and increased the levels of Blautia, Lachnoclostridium, and Oscillibacter. In addition, HF can increase the expression of pro-inflammatory cytokines (TNF-α, IL-6, and IL-1β) in the serum. T helper type 1 (Th1) cells were significantly increased, and regulatory T(Treg) cells were markedly decreased in the mesenteric lymph nodes (MLN) of the HF-fed mice. Furthermore, fecal microbiota transplantation (FMT) alleviates systemic metabolic disorder by maintaining liver and intestinal immune homeostasis. Overall, our data indicated that intestinal structure injury and intestinal inflammation might be early, and liver inflammation and hepatic steatosis may be a subsequent effect following HF diets. Gut microbiota disorders impairing the intestinal barrier function and triggering immune homeostasis imbalance may be an importantly responsible for long-term HF diets induced hepatic steatosis.

show abstract

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Delei Niu

Gut microbiota induces hepatic steatosis by modulating the T cells balance in high fructose diet mice

Human Cytomegalovirus-IE2 Affects Embryonic Liver Development and Survival in Transgenic Mouse

Tumor cell vaccine combined with Newcastle disease virus promote immunotherapy of lung cancer

Human cytomegalovirus IE2 may impair the cognitive ability of the hippocampus through the GluNRs/CaMKIIα/CREB signaling pathway in the Rosa26-LSL-IE2/Cre mouse

Gut Microbiota Induces Hepatic Steatosis by Modulating the T Cells Balance in High Fructose Diet Mice

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