Autor: |
Jan, Hau-Ming, Chen, Yi-Chi, Yang, Tsai-Chen, Ong, Lih-Lih, Chang, Chia-Chen, Muthusamy, Sasikala, Abera, Andualem Bahiru, Wu, Ming-Shiang, Gervay-Hague, Jacquelyn, Mong, Kwok-Kong Tony, Lin, Chun-Hung |
Předmět: |
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Zdroj: |
Communications Biology; 3/13/2020, Vol. 3 Issue 1, p1-13, 13p |
Abstrakt: |
Helicobacter pylori, the most common etiologic agent of gastric diseases including gastric cancer, is auxotrophic for cholesterol and has to hijack it from gastric epithelia. Upon uptake, the bacteria convert cholesterol to cholesteryl 6′-O-acyl-α-D-glucopyranoside (CAG) to promote lipid raft clustering in the host cell membranes. However, how CAG appears in the host to exert the pathogenesis still remains ambiguous. Herein we identified hp0499 to be the gene of cholesteryl α-D-glucopyranoside acyltransferase (CGAT). Together with cholesteryl glucosyltransferase (catalyzing the prior step), CGAT is secreted via outer membrane vesicles to the host cells for direct synthesis of CAG. This significantly enhances lipid rafts clustering, gathers adhesion molecules (including Lewis antigens and integrins α5, β1), and promotes more bacterial adhesion. Furthermore, the clinically used drug amiodarone was shown as a potent inhibitor of CGAT to effectively reduce the bacterial adhesion, indicating that CGAT is a potential target of therapeutic intervention. Jan et al. identify cholesteryl α-D- glucopyranoside acyltransferase as a key enzyme in Helicobacter pylori's synthesis of cholesteryl 6'-O-acyl-α-D-glucopyranoside, which promotes bacterial adhesion. This study provides insights into the H. pylori-induced pathogenesis and therapeutic strategies against it. [ABSTRACT FROM AUTHOR] |
Databáze: |
Complementary Index |
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