Helicobacter pylori–induced PPFIA4 orchestrates immune network–promoting gastritis and gastric bacterial colonization
Pan Wang, Nan You, Yong-Sheng Teng, Yi-Pin Lv, Wen-Qing Tian, Jing-Yu Xu, Rui Xie, Jiang-Bo Wu, Geng-Yu Yue, Ping Cheng, Jin-Yu Zhang, Liu-Sheng Peng, Fang-Yuan Mao, Shou-Lu Luo, Shi-Ming Yang, Yong-Liang Zhao, Hong Zhou, Weisan Chen, Bin Wang, Yuan Zhuang
Pan Wang, Nan You, Yong-Sheng Teng, Yi-Pin Lv, Wen-Qing Tian, Jing-Yu Xu, Rui Xie, Jiang-Bo Wu, Geng-Yu Yue, Ping Cheng, Jin-Yu Zhang, Liu-Sheng Peng, Fang-Yuan Mao, Shou-Lu Luo, Shi-Ming Yang, Yong-Liang Zhao, Hong Zhou, Weisan Chen, Bin Wang, Yuan Zhuang
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Research Article Gastroenterology Infectious disease

Helicobacter pylori–induced PPFIA4 orchestrates immune network–promoting gastritis and gastric bacterial colonization

Abstract

Bacteria-modulated gastric epithelial cells (GECs) play key roles in Helicobacter pylori–associated pathology. Here, we demonstrate both procolonization and proinflammation roles of GEC-derived PPFIA4 in H. pylori infection. PPFIA4 was elevated in GECs from gastric mucosa of H. pylori–infected patients and mice. PPFIA4 could be synergistically induced by H. pylori and IL-33 via the CagA/AP1 pathway. Human gastric PPFIA4 correlated with H. pylori colonization and the severity of gastritis, and H. pylori colonization and inflammation were attenuated in Ppfia4ΔGEC mice. Mechanistically, PPFIA4’s SAM1 domain bound domains from CaMK to the first L27 of CASK and subsequently formed a PPFIA4/CASK/AKT1 complex to activate AKT1, resulting in NF-κB activation and MMP1/CXCL3 secretion. This not only led to decreased E-cadherin and ZO-1 by MMP1, thereby promoting gastric mucosal damage to foster H. pylori colonization, but also resulted in increased gastric influx of G-MDSCs via CXCL3-dependent migration, thereby promoting gastritis and impairing H. pylori–specific IFN-γ–producing CD4+ T cell responses to foster H. pylori colonization. Furthermore, we identified a PPFIA4 inhibitor, kira6, which effectively inhibited GEC’s MMP1/CXCL3 production and ameliorated gastric H. pylori colonization and gastritis. Overall, PPFIA4 could be a promising therapeutic target, as it collectively ensures H. pylori persistence and promotes gastritis.

Authors

Pan Wang, Nan You, Yong-Sheng Teng, Yi-Pin Lv, Wen-Qing Tian, Jing-Yu Xu, Rui Xie, Jiang-Bo Wu, Geng-Yu Yue, Ping Cheng, Jin-Yu Zhang, Liu-Sheng Peng, Fang-Yuan Mao, Shou-Lu Luo, Shi-Ming Yang, Yong-Liang Zhao, Hong Zhou, Weisan Chen, Bin Wang, Yuan Zhuang

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Figure 12

PPFIA4/CASK interacts with and activates AKT1 during H. pylori infection.

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PPFIA4/CASK interacts with and activates AKT1 during H. pylori infection...
(A) Compared with AGS cells expressing NC-Flag, the top 10 significantly upregulated kinases are shown in AGS cells expressing PPFIA4-Flag. (B) The optimally predicted protein–protein complex obtained from HADDOCK’s easy interface: middle left, an overarching schematic of CASK/AKT1 complex; upper left, active residues crucial for CASK binding with AKT1; lower left, active residues crucial for AKT1 binding with CASK; right, an overarching schematic of PPFIA4/CASK/AKT1 complex. (C) In vitro binding between HA-AKT1 and GST-CASK or between HA-AKT1 and GST-PPFIA4 was analyzed by GST pull-down assays. (D, G, and H) AGS cells expressing PPFIA4-Flag were lysed and IP with anti-Flag or anti-CASK Abs. The IP samples were analyzed by Western blotting. (E) Immunofluorescence showing the PPFIA4/CASK/AKT1 colocalization in AGS cells expressing PPFIA4-Flag. Scale bar: 10 μm. (F) AGS cells expressing PPFIA4-Flag or NC-Flag were cultured. sgPPFIA4- or sgNC-modified AGS cells and siCASK or siNC pretreated AGS cells were stimulated with H. pylori (MOI = 100) for 24 hours. Proximity ligation assay was performed using anti-PPFIA4, anti-CASK, anti-AKT1, anti-AKT1(Thr308), and anti-AKT1(Ser473) Abs. Single Ab only was used as negative control. Red dots represent close relationship between the 2 proteins. Scale bar: 10 μm.