Academic background&position

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Major papers

1. [SCIE] Expansion of tumor-infiltrating lymphocytes from head and neck squamous cell carcinoma to assess the potential of adoptive cell therapy [CANCER IMMUNOLOGY IMMUNOTHERAPY] - 2024-04-17
2. [SCIE] Newly isolated Lactobacillus paracasei strain modulates lung immunity and improves the capacity to cope with influenza virus infection [Microbiome] - 2023-11-23
3. [SCIE] PET Imaging of System xC - in Immune Cells for Assessment of Disease Activity in Mice and Patients with Inflammatory Bowel Disease [JOURNAL OF NUCLEAR MEDICINE] - 2022-10-01
4. [SCIE]

LKB1 in Intestinal Epithelial Cells Regulates Bile Acid Metabolism by Modulating FGF15/19 Production

[CELLULAR AND MOLECULAR GASTROENTEROLOGY AND HEPATOLOGY] - 2022-01-01
5. [SCIE]

A High-Fat Diet Activates the BAs-FXR Axis and Triggers Cancer-Associated Fibroblast Properties in the Colon

[CELLULAR AND MOLECULAR GASTROENTEROLOGY AND HEPATOLOGY] - 2022-01-01

Patents

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Offices

Mucosal Immunology Lab

The human gut is populated with as many as 100 trillion (10¹⁴) cells, including bacteria, fungi, viruses, and other microbial and eukaryotic species. These complex, heavily diverse communities provide tremendous enzymatic capability and thus play a fundamental role in manipulating host physiology. It is well established that five bacterial phyla, Firmicutes, Bacteroidetes, Actinobacteria, Proteobacteria, and Verrucomicrobia, are dominant components of the human gut microbiota. More than 90% of the bacterial populations are gram-negative anaerobes and include the predominant genera Bacteroides, Eubacterium, Bifidobacterium, and Fusobacterium. Additionally, the gut microbiota is indispensable for carbohydrate fermentation and nutrient absorption, protection of pathogenic bacteria and regulation of metabolic disorders. The host intestine is unique with respect to its constant exposure to a plethora of antigens from daily food intake and exogenous bacteria. The resident gut microbiota contains a number of components able to activate both innate and adaptive immunity responses. For example, the majority of intestinal bacteria are gram-negative anaerobes equipped with diverse agents, such as lipopolysaccharide (LPS) and flagella, allowing for innate signaling to intestinal epithelial cells through toll-like receptors (TLRs). Segmented filamentous bacteria (SFB) embedded in the ileum can also stimulate adaptive, T helper 17 (T_H17) responses and induce the production of mucosal immunoglobulin A (IgA). In addition, commensal microbe-derived butyrate is associated with regulatory T (Treg) cell differentiation in the colon. Our lab members are working for discovery underlying mechanism how mucosal immunity and diseases controlled by gut commensal microbes.