Shengpeng Li scite author profile

The gastrointestinal tract (GIT) is considered the largest immunological organ, with a diverse gut microbiota, that contributes to combatting pathogens and maintaining human health. Under physiological conditions, the crosstalk between gut microbiota and intestinal epithelial cells (IECs) plays a crucial role in GIT homeostasis. Gut microbiota and derived metabolites can compromise gut barrier integrity by activating some signaling pathways in IECs. Conversely, IECs can separate the gut microbiota from the host immune cells to avoid an excessive immune response and regulate the composition of the gut microbiota by providing an alternative energy source and releasing some molecules, such as hormones and mucus. Infections by various pathogens, such as bacteria, viruses, and parasites, can disturb the diversity of the gut microbiota and influence the structure and metabolism of IECs. However, the interaction between gut microbiota and IECs during infection is still not clear. In this review, we will focus on the existing evidence to elucidate the crosstalk between gut microbiota and IECs during infection and discuss some potential therapeutic methods, including probiotics, fecal microbiota transplantation (FMT), and dietary fiber. Understanding the role of crosstalk during infection may help us to establish novel strategies for prevention and treatment in patients with infectious diseases, such as C. difficile infection, HIV, and COVID-19.

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Correlation of gut microbiota and metabolic functions with the antibody response to the BBIBP-CorV vaccine

Tang¹,

Tang²,

He³

et al. 2022

Cell Reports Medicine

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Itaconate ameliorates methicillin-resistant Staphylococcus aureus-induced acute lung injury through the Nrf2/ARE pathway

Liu¹,

Wu²,

Jin³

et al. 2021

Ann Transl Med

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Background: Methicillin-resistant Staphylococcus aureus (MRSA) are a critical predisposing factor of sepsis in the clinic. As a product of human energy metabolism and immune response, itaconate can effectively reduce inflammation in the body. This research employed 4-octyl itaconate (4-OI) to illustrate that itaconate exerted anti-inflammatory effects to protect the body from acute lung injury (ALI) induced by MRSA.Methods: HE staining and immunohistochemistry are used to evaluate the MRSA-induced ALI in mice.WB and qPCR were used to verify the effect of 4-OI on inflammation and oxidative stress caused by MRSA.Molecular docking was used to verify the binding sites of 4-OI and Keap1.Results: We demonstrated that 4-OI treatment increased the survival ratio, attenuated the pathological damage, inhibited neutrophil infiltration, and reduced lung bacterial burden in the mouse MRSA pneumonia model. 4-OI decreased the expression of inflammatory factors by stimulating the Nrf2 in vivo and in vitro. Furthermore, 4-OI exerted its effect by promoting nuclear transport of Nrf2 in vitro. The results of molecular docking indicated that 4-OI bound to the pocket of Keap1 and exerted a stable interaction. Both Nrf2 inhibitors (ML385) and Nrf2 −/− mice abolished the protective effect of 4-OI on MRSA-induced inflammation both in vitro and in vivo.Conclusions: 4-OI prevents lung damage caused by MRSA bacteremia via activating Nrf2/ARE pathway.

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Shengpeng Li

Mechanical property parametric appraisal of fused deposition modeling parts based on the gray Taguchi method

An investigation on distortion of PLA thin-plate part in the FDM process

Crosstalk Between the Gut Microbiota and Epithelial Cells Under Physiological and Infectious Conditions

Correlation of gut microbiota and metabolic functions with the antibody response to the BBIBP-CorV vaccine

Itaconate ameliorates methicillin-resistant Staphylococcus aureus-induced acute lung injury through the Nrf2/ARE pathway

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