Project description:We are now trying to elucidate the mechanism of Helicobacter-induced gastritis and gastric cancer. To identify genes involved in these Helicobacter-associated diseases, we infected Helicobacter felis to INS-GAS (insulin-gastrin transgenic) mice (C57BL/6 background) which shows accelerated development of gastritis and gastric cancer.

Project description:We are now trying to elucidate the mechanism of Helicobacter-induced gastritis and gastric cancer. To identify genes involved in these Helicobacter-associated diseases, we infected Helicobacter felis to INS-GAS (insulin-gastrin transgenic) mice (C57BL/6 background) which shows accelerated development of gastritis and gastric cancer. Three infected mice and three uninfected control mice (6 in total) were sacrificed periodically (2, 4, 6, 8 months after the infection), and total RNA was isolated from each stomach. These samples are subjected to gene microarray analysis. Samples were obtained from mouse stomachs at 2, 4, 6, and 8/9 month post infection intervals. Control time points were taken at 0, 2, 4, 6, and 8 months. All samples, 22 in total, were hybridized to the GLYCOv2 array.

Project description:Mycoplasmopsis felis ATCC 23391 Genome sequencing and assembly

Project description:Gli1 is necessary for the progression from chronic gastric inflammation to metaplasia in the stomach. We therefore compared the expression patterns between 6-month H. felis infected WT and Gli1-/- stomachs. Pooled tissue from the gastric fundi of 3 mice per group. Groups are WT, WT + H. felis (6 months), Gli1-/-, and Gli1-/- +H. felis (6 months). All the infected and control mice were obtained from the same experiment.

Project description:Gli1 is necessary for the progression from chronic gastric inflammation to metaplasia in the stomach. We therefore compared the expression patterns between 6-month H. felis infected WT and Gli1-/- stomachs.

Project description:Background & Aims: Previous studies have suggested that dietary folic acid (FA) can protect against certain types of cancers. However, the findings have varied and the mechanisms by which this vitamin exerts chemopreventive effects remain to be clarified. We examined the effects of FA supplementation on DNA methylation, gene expression and gastric dysplasia in a transgenic mouse model that is etiologically and histologically well matched with human gastric cancers. Methods: Hypergastrinemic mice (INS-GAS) infected with Helicobacter felis were studied at multiple stages of gastric dysplasia and early cancer, with FA supplementation initiated both at weaning and later in life. Global DNA methylation was assessed by a methylation-sensitive cytosine incorporation assay, bisulfite pyrosequencing of B1 repetitive elements and immunohistochemistry (IHC) with anti-5-methylcytosine. We also profiled gene expression in the same tissues. Results: We found a decrease in global DNA methylation and tissue folate and an increase in serum homocysteine with progression of gastric dysplasia. FA supplementation prevented this loss of global DNA methylation and markedly reduced gastric dysplasia and mucosal inflammation. FA protected against the loss of global DNA methylation both in the dysplastic gastric epithelial cells and in gastric stromal myofibroblasts. In addition, FA supplementation had an anti-inflammatory effect, as indicated by expression profiling and IHC for lymphocyte markers. Conclusions: We conclude that FA supplementation is chemopreventive in this model of Helicobacter-associated gastric cancer. The beneficial effect of FA is likely due to its ability to reverse global loss of methylation and suppress inflammation.

Project description:We have previously reported human gastrin overexpressing transgenic mice (=INS-GAS mice) and Helicobacter felis (=H.felis) infection synergistically accelerated gastric cancer in mice stomachs. (Wang et al 2000) Using this mouse model, we employed microarray analysis of gene expression profiling to identify gastric cancer-specific genes. Keywords: disease state analysis

Project description:Helicobacter canis ATCC 51401 genome sequencing

Project description:Background & Aims: Previous studies have suggested that dietary folic acid (FA) can protect against certain types of cancers. However, the findings have varied and the mechanisms by which this vitamin exerts chemopreventive effects remain to be clarified. We examined the effects of FA supplementation on DNA methylation, gene expression and gastric dysplasia in a transgenic mouse model that is etiologically and histologically well matched with human gastric cancers. Methods: Hypergastrinemic mice (INS-GAS) infected with Helicobacter felis were studied at multiple stages of gastric dysplasia and early cancer, with FA supplementation initiated both at weaning and later in life. Global DNA methylation was assessed by a methylation-sensitive cytosine incorporation assay, bisulfite pyrosequencing of B1 repetitive elements and immunohistochemistry (IHC) with anti-5-methylcytosine. We also profiled gene expression in the same tissues. Results: We found a decrease in global DNA methylation and tissue folate and an increase in serum homocysteine with progression of gastric dysplasia. FA supplementation prevented this loss of global DNA methylation and markedly reduced gastric dysplasia and mucosal inflammation. FA protected against the loss of global DNA methylation both in the dysplastic gastric epithelial cells and in gastric stromal myofibroblasts. In addition, FA supplementation had an anti-inflammatory effect, as indicated by expression profiling and IHC for lymphocyte markers. Conclusions: We conclude that FA supplementation is chemopreventive in this model of Helicobacter-associated gastric cancer. The beneficial effect of FA is likely due to its ability to reverse global loss of methylation and suppress inflammation. Study the difference in gene expression between transgenic hypergastrinemic (INS-GAS) mice fed a folate-supplemented diet and a diet with normal folate content. Because folate had a substantial protective effect, we matched the animals not only by folate status but also by dysplasia score (DYS). The degree of dysplasia was scored on a 1-4 scale. True replicates are not included. The first five samples are from folate supplemented animals, and the latter five are from controls on regular chow.

Project description:Helicobacter bilis ATCC 51630 Genome sequencing and assembly