Loss of gastrokine-2 drives premalignant gastric inflammation and tumor progression
Trevelyan R. Menheniott, … , Louise M. Judd, Andrew S. Giraud
Trevelyan R. Menheniott, … , Louise M. Judd, Andrew S. Giraud
Published March 14, 2016
Citation Information: J Clin Invest. 2016;126(4):1383-1400. https://doi.org/10.1172/JCI82655.
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Research Article Oncology

Loss of gastrokine-2 drives premalignant gastric inflammation and tumor progression

Abstract

Chronic mucosal inflammation is associated with a greater risk of gastric cancer (GC) and, therefore, requires tight control by suppressive counter mechanisms. Gastrokine-2 (GKN2) belongs to a family of secreted proteins expressed within normal gastric mucosal cells. GKN2 expression is frequently lost during GC progression, suggesting an inhibitory role; however, a causal link remains unsubstantiated. Here, we developed Gkn2 knockout and transgenic overexpressing mice to investigate the functional impact of GKN2 loss in GC pathogenesis. In mouse models of GC, decreased GKN2 expression correlated with gastric pathology that paralleled human GC progression. At baseline, Gkn2 knockout mice exhibited defective gastric epithelial differentiation but not malignant progression. Conversely, Gkn2 knockout in the IL-11/STAT3-dependent gp130F/F GC model caused tumorigenesis of the proximal stomach. Additionally, gastric immunopathology was accelerated in Helicobacter pylori–infected Gkn2 knockout mice and was associated with augmented T helper cell type 1 (Th1) but not Th17 immunity. Heightened Th1 responses in Gkn2 knockout mice were linked to deregulated mucosal innate immunity and impaired myeloid-derived suppressor cell activation. Finally, transgenic overexpression of human gastrokines (GKNs) attenuated gastric tumor growth in gp130F/F mice. Together, these results reveal an antiinflammatory role for GKN2, provide in vivo evidence that links GKN2 loss to GC pathogenesis, and suggest GKN restoration as a strategy to restrain GC progression.

Authors

Trevelyan R. Menheniott, Louise O’Connor, Yok Teng Chionh, Jan Däbritz, Michelle Scurr, Benjamin N. Rollo, Garrett Z. Ng, Shelley Jacobs, Angelique Catubig, Bayzar Kurklu, Stephen Mercer, Toshinari Minamoto, David E. Ong, Richard L. Ferrero, James G. Fox, Timothy C. Wang, Philip Sutton, Louise M. Judd, Andrew S. Giraud

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Figure 10

Generation of human GKN2/GKN1-overexpressing BAC transgenic mice.

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Generation of human GKN2/GKN1-overexpressing BAC transgenic mice. (A) St...
(A) Structure of the 152-kb human BAC transgene showing relative locations of the GKN1 and GKN2 genes (white boxes), with their transcriptional orientation shown in expanded images. The nonexpressed GKN3 pseudogene is shown as a solid black box. (B) QRT-PCR analysis of human GKN1 (hGKN1) and GKN2 mRNA expression in stomach (Stom) and spleen (Spl) tissues from line 5 and line 9 BACTg and WT littermate control mice (n = 3 per group). (C) Immunoblot analysis of human GKN2 protein in gastric corpus (Crp), antrum (Ant), and spleen (Spl) tissues of line 5 and line 9 BACTg and WT littermate control mice. Protein molecular weights (kDa) are shown. (D) Immunofluorescent localization of human GKN2 protein in gastric corpus and antrum of line 5 BACTg and WT littermate control mice. Sections were counterstained with DAPI. Scale bar: 50 μm. (E) Corpus and antrum mucosal histopathology in line 5 and line 9 BACTg mice. Scale bar: 5 mm (macrophotographs); 50 μm (histological images).