The diagnosis and management of dyspepsia and the relevance to it of Helicobacter pylori

Reilly, Timothy Gilbert

January 1998

No description available.

610

Gastric cancer; Prevention

The metabolism and pharmacology of nitrate in relation to human cancer

Packer, Philip James

January 1989

No description available.

610

Aetiology of gastric cancer

Effect of helicobacter pylori and other factors on acid secretion; focus on the parietal cell

Healey, Zoe Vanessa

January 2000

No description available.

610

Ulcers; Gastric cancer

Molecular genetics of gastrointestinal cancer

Porter, Timothy Robin

January 2002

No description available.

616

Gastric cancer

Association of Fas-Related Apoptosis Pathway Genes with the Risk for Gastric Cancer

Wang, E-ming

01 September 2007

Gastric cancer is the second leading cause of cancer death worldwide, killing upwards of one million people each year. Apoptosis, a genetically controlled cell death in multicellular eukaryotic organisms, is an important mechanism for embryonic development, immune-system function and maintenance of tissue homeostasis through activation of an intrinsic suicide program to eliminate superfluous, infected, transformed or damaged cells. Single nucleotide polymorphism (SNP) is the most abundant type of genetic variations and is considered to be an important endogenous cause and fundamental factor influencing cancer risk. We conducted a hospital-based case-control study to investigate the association between apoptosis related genes and the risk for gastric cancer. We continuously enrolled 205 patients with pathologically proved gastric cancer and 397 frequency-matched healthy controls at Kaohsiung Veterans General Hospital from 2003 to 2006. Blood derived DNA samples from all participants were genotyped by PCR-RFLP to identify eight SNPs on seven key genes (FAS, FASL, SURVIVIN, XIAP, CASP3, CASP8, CASP9) in apoptotic pathway, but only five SNPs on four genes (FAS, FASL, CASP3, CASP9) were eventually valid for subsequent analyses. Our results showed that significant effects of H. pylori infection, cigarette smoking, alcohol drinking, and consumption of salted food and fermented food on gastric cancer risk while coffee drinking and consumption of vegetables and fruits had significant protective effects against gastric cancer in our study cohort. None of the individual gene polymorphism was associated with the risk of gastric cancer. However, the gene-gene interaction between CASP3 A21926C and CASP9 codon Arg221Gln polymorphisms was significantly associated with gastric cancer risk. In the combined analysis of four apoptosis related genes, our data showed that individuals carrying three or more putative high-risk genotypes were significantly associated with the development of gastric cancer than those who carrying two or less putative high-risk genotypes. Besides, the CASP9 codon Arg221Gln polymorphism was a risk factor for gastric cancer in people equal to or elder than fifty, though not in people younger than fifty. Taken together, our results indicated that SNPs on apoptosis related genes were associated to the development of gastric cancer.

SNP

Apoptosis

Gastric cancer

Markers of malignant change in the human stomach

Crisp, William John

January 1992

No description available.

610

Peptic ulcer; Gastric cancer

The epidemiology of endogenous nitrosation in man

Knight, T. M.

January 1988

No description available.

610

Gastric cancer risk in humans

Mechanism of Helicobacter pylori Induced Gastric Cancer: Role of the Signal Transducer and Activator of Transcription Pathway

Bronte-Tinkew, Dana Melanie

05 August 2010

Infection with the gut-pathogen Helicobacter pylori is the single, most important risk factor in the development of gastric cancer. Although there is a rising incidence in mortality resulting from this malignancy, the exact mechanism underlying the initiation and progression of bacterial-induced gastric tumorigenesis is still not completely understood. Several studies implicate the activation of the Signal Transducer and Activator of Transcription 3 (STAT3) signaling pathway as a cellular trigger for promoting carcinogenes. In this thesis, I studied the role of the STAT3 signaling pathway in H. pylori mediated tumorigenesis, and attempted to delineate mechanisms involved. I have found that H. pylori activates the STAT3 signaling pathway both in vitro and in vivo, to promote carcinogenesis. Pivotal for H. pylori mediated STAT3 activation are the bacterial effector protein CagA and host receptor components, the gp130 and the IL-6αR subunits. Further investigation into the mechanism of STAT3 induction identified a key role for cholesterol-enriched membrane lipid rafts. Bacterial invasion and CagA injection into host cells was also dependent on lipid raft integrity. Co-fractionation via the use of sucrose gradients, which permits the isolation of lipid rafts, identified H. pylori CagA to be associated with these membrane microdomains. CagA, once injected into the cell, appears to interact with the inner leaflet of the host plasma membrane via a charge association that either directly or indirectly anchors it to the negatively charged anionic lipids in the cytoplasmic membrane. In addition, janus kinases were recruited to rafts upon H. pylori infection. In this thesis, I present a dynamic model of STAT3 activation, which requires the interaction of lipid raft associated proteins, H. pylori CagA and recruited JAKs with non-lipid raft receptor components to support STAT3 signaling. This study is significant since it provides insight into the possible mechanisms by which H. pylori induces gastric cancer and furthermore, it facilitates the development of novel therapeutic targets directed against bacterial induced carcinogenesis.

gastric cancer

Helicobacter pylori

0719

Role of the Sp1-pVHL- HIF-1 £\

Lee, Yi-Chern

01 September 2008

Introduction: Since the era of Marshall, H. pylori has been to be implicated in many upper digestive tract diseases, such as gastritis, peptic ulcer disease, mucosa- associated lymphoid tissue lymphoma, and even gastric adenocarcinoma. In 1994, WHO recognized H. pylori as a definite carcinogen for gastric cancer. Many study had shown that microbial pathogens may induce oxidative stress in infected host cell. And this may also represent an important mechanism leading to epithelial injury in H. pyloric infection. Oxidative stress plays a role in altering epithelial cell turnover, accelerating apoptosis and increasing oxidative DNA damage. One of the evidences for this phenomenon is increasing level of reactive oxygen species (ROS) measured in the mucosa of infected stomach. ROS may activate HIF-11£\ transcription. HIF-1£\ overexpression had been detected in several human cancers. Furthermore its overexpression correlates significantly with highly aggressive disease, lymph node metastasis, clinicopathological status and poor prognosis in some cancer types. It may up regulate hypoxia-induced gene, such as the vascular endothelial growth factor (VEGF) transcription and angiogenesis. Therefore we propose Sp1-pVHL-HIF-1£\ pathway may play a role the carcinogenesis in Hp -associated gastric cancer. Material and methods: We took Paraffin-embedded specimens from 89patients, who had undergone UGI endoscopy and gastric mucosa biopsy. We assessed the Sp1, pVHL, HIF-1£\ in all cases by immunohistochemistry and then evaluated their correlation with the H pylori infection. Chi-square and Fisher¡¦s exact test was performed to determine the significance of the difference between Sp1, pVHL, HIF-1£\. Results: There are not significant difference in nuclear Sp1 expression and H. pylori different (p=0.59). Sp1 expression was not significant, (p=0.91, 0.93, 0.36, 0.42, 0.51) with sex, age, location, TNM stage and cell differentiation. pVHL protein was mainly expressed in the cytoplasm. There are no significant difference with H. pylori infection (p=0.14). The relationship pVHL protein expression between with sex, age, lesion site, TNM stage and cell differentiation were not significant (p=0.39, 0.70, 0.69, 0.83, 0.70). HIF-1£\ protein was mainly expressed in the nuclei. There are not significant association with H. pylori infection (p=0.49). There were no significant differences between HIF-1£\ protein expression with sex, age, location, TNM stage and cell differentiation (p=0.94, 0.32, 0.75, 0.35, 0.60). Furthermore, In normal tissue the expression of HIF-1£\ had significant association with pVHL(p=0.0002), and the expression also had no a mariginally significant association with Sp1(p=0.096). Expression of Sp1 had significant association with pVHL(p=0.0016)in tumor tissue, Therewas a significant association between normal and tumor tissue expression of the pVHL and Sp1(p=0.038, 0.019), but the expression of HIF-1£\ had no significant(p=0.23). Conclusion: In this study, we attempt to determine the association between Sp1-pVHL -HIF-1£\ pathway and a role in the carcinogenesis in H. pylori infection. Although we didn¡¦t confirm the hypothesis Sp1-pVHL -HIF-1£\ pathway playing an critical role in the mechanism of gastric cancer. We concluded that there is no significance between the expression of Sp1, pVHL and HIF-1£\ and gastric cancer, but the role of this pathway in the Hp infection associated carcinogenesis is still to be clarified.

gastric cancer

immunohistochemistry

HIF-1 £\

Mechanism of Helicobacter pylori Induced Gastric Cancer: Role of the Signal Transducer and Activator of Transcription Pathway

Bronte-Tinkew, Dana Melanie

05 August 2010

Infection with the gut-pathogen Helicobacter pylori is the single, most important risk factor in the development of gastric cancer. Although there is a rising incidence in mortality resulting from this malignancy, the exact mechanism underlying the initiation and progression of bacterial-induced gastric tumorigenesis is still not completely understood. Several studies implicate the activation of the Signal Transducer and Activator of Transcription 3 (STAT3) signaling pathway as a cellular trigger for promoting carcinogenes. In this thesis, I studied the role of the STAT3 signaling pathway in H. pylori mediated tumorigenesis, and attempted to delineate mechanisms involved. I have found that H. pylori activates the STAT3 signaling pathway both in vitro and in vivo, to promote carcinogenesis. Pivotal for H. pylori mediated STAT3 activation are the bacterial effector protein CagA and host receptor components, the gp130 and the IL-6αR subunits. Further investigation into the mechanism of STAT3 induction identified a key role for cholesterol-enriched membrane lipid rafts. Bacterial invasion and CagA injection into host cells was also dependent on lipid raft integrity. Co-fractionation via the use of sucrose gradients, which permits the isolation of lipid rafts, identified H. pylori CagA to be associated with these membrane microdomains. CagA, once injected into the cell, appears to interact with the inner leaflet of the host plasma membrane via a charge association that either directly or indirectly anchors it to the negatively charged anionic lipids in the cytoplasmic membrane. In addition, janus kinases were recruited to rafts upon H. pylori infection. In this thesis, I present a dynamic model of STAT3 activation, which requires the interaction of lipid raft associated proteins, H. pylori CagA and recruited JAKs with non-lipid raft receptor components to support STAT3 signaling. This study is significant since it provides insight into the possible mechanisms by which H. pylori induces gastric cancer and furthermore, it facilitates the development of novel therapeutic targets directed against bacterial induced carcinogenesis.

gastric cancer

Helicobacter pylori

0719