Anastasia Kalantzis

The Interleukin-6 Family Cytokine Interleukin-11 Regulates Homeostatic Epithelial Cell Turnover and Promotes Gastric Tumor Development

BACKGROUND & AIMS Gastric cancer is the second most common cause of cancer-related mortality worldwide, mainly as a result of late-stage detection. Interleukin (IL)-11 is a multifunctional cytokine reported to be up-regulated in human gastric cancer. METHODS We investigated the importance of IL-11 in gastric cancer progression by examining its role in a variety of mouse gastric tumor models, as well as in nonneoplastic and tumor tissues taken from gastric cancer patients. We then determined the transcriptional and translational outcomes of IL-11 overexpression in normal gastric mucosa and identified a novel gene signature important early in the progression toward gastric tumorigenesis. RESULTS IL-11 was up-regulated significantly in 4 diverse mouse models of gastric pathology as well as in human biopsy specimens adjacent to and within gastric cancer. Removal of IL-11 co-receptor alpha significantly reduced HKbeta-/- mouse fundic hyperplasia and ablated gp130(757F/F) mouse tumorigenesis. Exogenous IL-11 but not IL-6 activated oncogenic signal transducer and activator of transcription-3, and altered expression of novel proliferative and cytoprotective genes RegIII-beta, RegIII-gamma, gremlin-1, clusterin, and growth arrest specific-1 in wild-type gastric mucosa, a gene signature common in gp130(757F/F) and HKbeta-/- tumors as well as nonneoplastic mucosa of gastric cancer patients. One week of chronic IL-11 administration in wild-type mice sustained the gene signature, causing pretumorigenic changes in both antrum and fundus. CONCLUSIONS Increased gastric IL-11 alters expression of proliferative and cytoprotective genes and promotes pretumorigenic cellular changes.

Inhibition of the JAK2/STAT3 Pathway Reduces Gastric Cancer Growth In Vitro and In Vivo

Signal Transducer and Activator of Transcription-3 (STAT3) is constitutively activated in many cancers where it promotes growth, inflammation, angiogenesis and inhibits apoptosis. We have shown that STAT3 is constitutively activated in human gastric cancer, and that chronic IL-11-driven STAT3 transcriptional activity induces gastric tumourigenesis in the gp130757FF mouse model of gastric cancer development. Here we show that treatment of human AGS gastric cancer cells with the Janus Kinase (JAK) inhibitor WP1066 dose-, and time-dependently inhibits STAT3 phosphorylation, in conjunction with reduced JAK2 phosphorylation, reduced proliferation and increased apoptosis. In addition, application of intraperitoneal WP1066 for 2 weeks, reduced gastric tumour volume by 50% in the gp130757FF mouse coincident with reduced JAK2 and STAT3 activation compared with vehicle-treated, littermate controls. Gastric tumours from WP1066- treated mice had reduced polymorphonuclear inflammation, coincident with inhibition of numerous proinflammatory cytokines including IL-11, IL-6 and IL-1β, as well as the growth factors Reg1 and amphiregulin. These results show that WP1066 can block proliferation, reduce inflammation and induce apoptosis in gastric tumour cells by inhibiting STAT3 phosphorylation, and that many cytokines and growth factors that promote gastric tumour growth are regulated by STAT3-dependent mechanisms. WP1066 may form the basis for future therapeutics against gastric cancer.

Helicobacter pylori CagA Triggers Expression of the Bactericidal Lectin REG3γ via Gastric STAT3 Activation

Background Most of what is known about the Helicobacter pylori (H. pylori) cytotoxin, CagA, pertains to a much-vaunted role as a determinant of gastric inflammation and cancer. Little attention has been devoted to potential roles of CagA in the majority of H. pylori infected individuals not showing oncogenic progression, particularly in relation to host tolerance. Regenerating islet-derived (REG)3γ encodes a secreted C-type lectin that exerts direct bactericidal activity against Gram-positive bacteria in the intestine. Here, we extend this paradigm of lectin-mediated innate immunity, showing that REG3γ expression is triggered by CagA in the H. pylori-infected stomach. Methodology/Principal Findings In human gastric mucosal tissues, REG3γ expression was significantly increased in CagA-positive, compared to CagA-negative H. pylori infected individuals. Using transfected CagA-inducible gastric MKN28 cells, we recapitulated REG3γ induction in vitro, also showing that tyrosine phosphorylated, not unphosphorylated CagA triggers REG3γ transcription. In concert with induced REG3γ, pro-inflammatory signalling downstream of the gp130 cytokine co-receptor via the signal transducer and activator of transcription (STAT)3 and transcription of two cognate ligands, interleukin(IL)-11 and IL-6, were significantly increased. Exogenous IL-11, but not IL-6, directly stimulated STAT3 activation and REG3γ transcription. STAT3 siRNA knockdown or IL-11 receptor blockade respectively abrogated or subdued CagA-dependent REG3γ mRNA induction, thus demonstrating a requirement for uncompromised signalling via the IL-11/STAT3 pathway. Inhibition of the gp130-related SHP2-(Ras)-ERK pathway did not affect CagA-dependent REG3γ induction, but strengthened STAT3 activation as well as augmenting transcription of mucosal innate immune regulators, IL-6, IL-8 and interferon-response factor (IRF)1. Conclusions/Significance Our results support a model of CagA-directed REG3γ expression in gastric epithelial cells via activation of the IL-11/gp130/STAT3 pathway. This response might allow Gram-negative H. pylori to manipulate host immunity to favour its own survival, by reducing the fitness of co-habiting Gram-positive bacteria with which it competes for resources in the gastric mucosal niche.

A Novel Gastrokine, Gkn3, Marks Gastric Atrophy and Shows Evidence of Adaptive Gene Loss in Humans

BACKGROUND & AIMS Gastrokines are stomach mucus cell-secreted proteins; 2 gastrokines are known, GKN1 and GKN2. Gastrokine expression is lost in gastric cancer, indicating a possible function in tumor suppression. We have identified a third gastrokine gene in mammals. METHODS Gkn3 was characterized by studies of molecular structure, evolutionary conservation, and tissue expression as well as transcriptional/translational outcome in mouse genetic models of gastric pathology. The functional consequences of Gkn3 overexpression were evaluated in transfected cell lines. RESULTS Gkn3 encodes a secreted (approximately 19 kilodalton) protein that is co-expressed with trefoil factor (Tff)2 in the distal stomach and discriminates a Griffinia simplicifolia lectin (GS)-II-positive mucus neck cell (MNC) subpopulation in the proximal stomach. In humans, widespread homozygosity for a premature stop codon polymorphism, W59X, has likely rendered GKN3 non-functional. Population genetic analysis revealed an ancestral GKN3 read-through allele that predominates in Africans and indicates the rapid expansion of W59X among non-Africans during recent evolution. Mouse Gkn3 expression is strongly up-regulated in (Tff2-deficient) gastric atrophy, a pre-cancerous state that is typically associated with Helicobacter pylori and marks a non-proliferative, GS-II positive lineage with features of spasmolytic polypeptide-expressing metaplasia (SPEM). Gkn3 overexpression inhibits proliferation in gastric epithelial cell lines, independently of incubation with recombinant human TFF2 or apoptosis. CONCLUSIONS Gkn3 encodes a novel, functionally distinct gastrokine that is overexpressed and might restrain epithelial cell proliferation in gastric atrophy. Spread of the human GKN3 stop allele W59X might have been selected for among non-Africans because of its effects on pre-neoplastic outcomes in the stomach.

Random mutagenesis of the mouse genome: a strategy for discovering gene function and the molecular basis of disease.

Mutagenesis of mice with N-ethyl-N-nitrosourea (ENU) is a phenotype-driven approach to unravel gene function and discover new biological pathways. Phenotype-driven approaches have the advantage of making no assumptions about the function of genes and their products and have been successfully applied to the discovery of novel gene-phenotype relationships in many physiological systems. ENU mutagenesis of mice is used in many large-scale and more focused projects to generate and identify novel mouse models for the study of gene functions and human disease. This review examines the strategies and tools used in ENU mutagenesis screens to efficiently generate and identify functional mutations.

A33 antigen-deficient mice have defective colonic mucosal repair

Background: A33 antigen is a transmembrane protein expressed predominantly in normal intestinal epithelium and most colon cancers and cell lines. The function of A33 antigen is unclear, but indirect evidence indicates a role in cell adhesion, trafficking, and the gut immune response. The aim of this study was to determine the contribution made by A33 antigen in mediating colonic repair following colitis induction in the A33 antigen‐deficient mutant mouse. Methods: Colitis was induced by treatment with TNBS/ethanol. A33 antigen‐deficient or wildtype mice were sacrificed at 0, 3, 7, and 14 days after colitis induction and morphological damage, mucosal proliferation, and inflammatory cell infiltration were quantified. In a subsequent study, following the induction of colitis mice were monitored for 22 days and morbidity and mortality determined. Results: Mice lacking A33 antigen expression were compromised in their ability to resolve TNBS‐induced damage and exhibited distinct crypt pathology. In A33 antigen‐deficient mice morphological damage remained unresolved at 14 days postcolitis induction. Increases in colonic cell proliferation were delayed in A33 antigen‐deficient mice, and the rate of crypt fission was increased after TNBS treatment. Commensurate with these observations, polymorphonuclear cell infiltration was suppressed in the absence of A33 antigen. Mortality following colitis induction was 20% higher in A33 antigen‐deficient mice than in wildtype controls. Conclusions: Mice deficient in A33 antigen expression show impaired resolution of hapten‐induced mucosal damage, leading to increased mortality, associated with impaired epithelial cell proliferation and a suppressed adaptive immune response. This study suggests a contribution for A33 antigen in the colonic healing response following mucosal damage. (Inflamm Bowel Dis 2009)

M1959 Helicobacter pylori cagA Tyrosine Phosphorylation Triggers the Interleukin-11/STAT3 Pathway in Gastric Epithelial Cells

G A A b st ra ct s strains were less able to activate Gli1 and Snail. Snail expression in Gli1 overexpressed gastric cell was higher than that of Gli1 unexpressed gastric epithelial cell and Gli1 overexpressed gastric cell was 8 fold increased snail promoter activity. In this study, we showed that Hh signaling was clearly upregulated in gastric cancer cell in cagA depedent manner and activated Gli1 upregulate Snail to promote epithelial-to-mesenchymal transition.