UMLS:C0596263 - FACTA Search

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Query: UMLS:C0596263 (carcinogenesis)
64,820 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Multiple cancers frequently occur in the upper digestive tract. One possible explanation is that specific bacterial infection stimulates the normal epithelium to initiate inflammation and/or promotes carcinogenesis. This study was undertaken to determine which bacterial species is predominantly associated with esophageal cancer. We examined the bacterial diversity in this type of cancer and in the saliva from healthy people by using a culture-independent molecular method. Here we report the preferential and frequent infection of the oral periodontopathic spirochete Treponema denticola (T. denticola), Streptococcus mitis (S. mitis), and Streptococus anginosus (S. anginosus) in esophageal cancer from different regions of the world, and we also describe the induction of inflammatory cytokines by infection of S. anginosus and S. mitis. Our present data suggest that these three bacteria could have significant roles in the carcinogenic process of many cases of esophageal cancer by causing inflammation and by promoting the carcinogenic process, and that eradication of these three bacteria may decrease the risk of recurrence.
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PMID:Frequent and preferential infection of Treponema denticola, Streptococcus mitis, and Streptococcus anginosus in esophageal cancers. 1524 92

Evidence suggests that an inflammatory profile of cytokines and chemokines persisting at a particular site would lead to the development of a chronic disease. Recent studies implicate bacterial infection as one possible link between inflammation and carcinogenesis; however, the crucial molecular pathways involved remain unknown. We hypothesized that one possible upstream signaling pathway leading to inflammation in carcinogenesis may be mediated by Toll-like receptors (TLR). We describe for the first time an adaptive mechanism acquired by ovarian cancer cells that allows them to promote a proinflammatory environment and develop chemoresistance. We propose that the TLR-4-MyD88 signaling pathway may be a risk factor for developing cancer and may represent a novel target for the development of biomodulators. Our work explains how bacterial products, such as lipopolysaccharide, can promote, directly from the tumor, the production of proinflammatory cytokines and the enhancement of tumor survival. In addition, we provide new evidence that links TLR-4 signaling, inflammation, and chemoresistance in ovarian cancer cells.
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PMID:TLR-4 signaling promotes tumor growth and paclitaxel chemoresistance in ovarian cancer. 1658 14

The association of Helicobacter pylori with gastric cancer is the best-studied relationship between a bacterial infection and cancer. Other bacterial pathogens in humans and rodents are now being recognized as potentially having a direct role in carcinogenesis. Thus, it might be possible to understand the pathogenesis and prevention of certain cancers by studying the bacterial infections associated with them, and their effects on the host. However, the mechanisms by which bacteria contribute to cancer formation are complex, and recent investigations show that they involve the interplay between chronic inflammation, direct microbial effects on host cell physiology and, ultimately, changes in tissue stem cell homeostasis.
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PMID:The role of bacterial pathogens in cancer. 1720 15

Pathogenic mechanisms associated with Helicobacter pylori infection enhance susceptibility of the gastric epithelium to carcinogenic conversion. We have characterized the gene expression profiles of gastric biopsies from 69 French Caucasian patients, of which 43 (62%) were infected with H. pylori. The bacterium was detected in 27 of the 42 antral biopsies examined and in 16 of the 27 fundic biopsies. Infected biopsies were selected for the presence of chronic active gastritis, in absence of metaplasia and dysplasia of the gastric mucosa. Infected antral and fundic biopsies exhibited distinct transcriptional responses. Altered responses were linked with: (1) the extent of polymorphonuclear leukocyte infiltration, (2) bacterial density, and (3) the presence of the virulence factors vacA, babA2, and cagA. Robust modulation of transcripts associated with Toll-like receptors, signal transduction, the immune response, apoptosis, and the cell cycle was consistent with expected responses to Gram-negative bacterial infection. Altered expression of interferon-regulated genes (IFITM1, IRF4, STAT6), indicative of major histocompatibility complex (MHC) II-mediated and Th1-specific responses, as well as altered expression of GATA6, have previously been described in precancerous states. Upregulation of genes abundantly expressed in cancer tissues (UBD, CXCL13, LY96, MAPK8, MMP7, RANKL, CCL18) or in stem cells (IFITM1 and WFDC2) may reveal a molecular switch towards a premalignant state in infected tissues. Tissue microarray analysis of a large number of biopsies, which were either positive or negative for the cag-A virulence factor, when compared to each other and to noninfected controls, confirmed observed gene alterations at the protein level, for eight key transcripts. This study provides 'proof-of-principle' data for identifying molecular mechanisms driving H. pylori-associated carcinogenesis before morphological evidence of changes along the neoplastic progression pathway.
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PMID:Gene expression profiling in human gastric mucosa infected with Helicobacter pylori. 1764 99

Nowadays, there is increasing evidence that some pathogenic bacteria can contribute to specific stages of cancer development. The concept that bacterial infection could be involved in carcinogenesis acquired a widespread interest with the discovery that H. pylori is able to establish chronic infections in the stomach and that this infection is associated with an increased risk of gastric adenocarcinoma and mucosa associated lymphoid tissue lymphoma. Chronic infections triggered by bacteria can facilitate tumor initiation or progression since, during the course of infection, normal cell functions can come under the control of pathogen factors that directly manipulate the host regulatory pathways and the inflammatory reactions.Renowned publications have recently corroborated the molecular mechanisms that link bacterial infections, inflammation and cancer, indicating certain strains of Escherichia coli as a risk factor for patients with colon cancer. E. coli is a normal inhabitant of the human intestine that becomes highly pathogenic following the acquisition of virulence factors, including a protein toxin named cytotoxic necrotizing factor 1 (CNF1). This toxin permanently activates the small GTP-binding proteins belonging to the Rho family, thus promoting a prominent polymerization of the actin cytoskeleton as well as a number of cellular responses, including changes in protein expression and functional modification of the cell physiology. CNF1 is receiving an increasing attention as a putative factor involved in transformation because of its ability to: (i) induce COX2 expression, an immediate-early gene over-expressed in some type of cancers; (ii) induce a long-lasting activation of the transcription factor NF-kB, a largely accepted marker of tumor cells; (iii) protect epithelial cells from apoptosis; (iv) ensue the release of pro-inflammatory cytokines in epithelial and endothelial cells; and (v) promote cellular motility. As cancer may arise through dysfunction of the same regulatory systems, it seems likely that CNF1-producing E. coli infections can contribute to tumor development.This review focuses on the aspects of CNF1 activity linked to cell transformation with the aim of contributing to the identification of a possible carcinogenic agent from the microbial world.
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PMID:The Rho-activating CNF1 toxin from pathogenic E. coli: a risk factor for human cancer development? 1833 18

Helicobacter pylori infection is ubiquitous, infecting close to one-half of the world's population, but its prevalence is declining in developed countries. Chronic H. pylori infection is etiologically linked to gastric adenocarcinoma, especially non-cardia type (63% of all stomach cancer or ~5.5% of the global cancer burden: ~25% of cancers associated with infectious etiology), and to gastric mucosal associated lymphoid tissue (MALT) lymphoma, which accounts for up to 8% of all non-Hodgkin lymphoma. Epidemiological, clinical, and animal studies have established a central role for H. pylori in gastric carcinogenesis and provided insights into the mechanisms and biologic relationships between bacterial infection, host genetics, nutrition, and environmental factors. These discoveries invite strategies to prevent infection to be the logical primary goals in a multi-pronged effort to curtail suffering and death from H. pylori infection-associated cancers.
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PMID:Helicobacter Pylori associated global gastric cancer burden. 1927 42

Bacterial infection has been associated with several malignancies, yet the exact mechanism of infection-associated carcinogenesis remains obscure. Furthermore, it is still not clear whether oncontransformation requires an active infection process, or merely the presence of inactivated bacteria remnants is enough to cause deleterious effects. Here, we analyzed whether or not consumption of non-pathogenic and pathogenic heat-killed Escherichia coli leads to changes in genome stability in somatic tissues of exposed animals. For one week, mice were given to drink filtered or not-filtered water contaminated with heat-killed non-pathogenic E. coli DH5alpha or heat-killed pathogenic E. coli O157:H7 Sakai. Control animals received tap water. One week after exposure, molecular changes were analyzed in the small intestine, an organ that is in immediate contact with contaminated water. Additionally, we studied the effect in the distant spleen and liver, the organs that are involved in an immune response and detoxification, respectively. Finally, muscles were chosen as neutral tissues that were not supposed to be affected. Intestinal, liver and spleen but not muscle cells responded to all bacterial treatments with an increased level of DNA damage monitored by the induction of gammaH2AX foci. In the intestine, elevated levels of DNA damage were in parallel with an increase in Ku70 and p53 expression. We have also found an elevated level of cellular proliferation in the intestine, liver and spleen but not in muscle tissues of all exposed animals as measured by increase in PCNA levels. Our data suggest that exposure to heat-killed filtered bacteria can trigger substantial molecular responses and cause genomic instability in target and distant organs. Even though bacteria were non-pathogenic and unable to cause infection, their remnants still caused a profound effect on exposed animals.
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PMID:Heat-killed bacteria induce genome instability in mouse small intestine, liver and spleen tissues. 1955 Jan 53

Helicobacter pylori infection is the most common chronic bacterial infection worldwide and the most important acquired risk factor for gastric cancer. Bacterial, environmental and host genetic factors combine to define the degree of gastric damage. The most relevant and consistent genetic factors are in the interleukin-1B and tumor necrosis factor-A gene clusters. These cytokines play a key role in the gastric carcinogenesis and their roles have been confirmed in mouse models. More genetic factors have also been uncovered recently and certain cytokine and innate immune response gene polymorphisms appear to influence risk of gastric cancer and its precursor conditions. In the near future, we will be able to define a more comprehensive genetic profile that would identify high risk groups of developing gastric cancer.
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PMID:[Role of host genetic factors in gastric carcinogenesis]. 1999 9

Many epidemiological studies have demonstrated a strong association between H. pylori (Helicobacter pylori) infection and human gastric cancer development. The precise mechanisms accounting for gastric cancer development induced by H. pylori infection are still not completely understood. However, it should be reasonable to assume that there are two distinct molecular pathways for gastric carcinogenesis by H. pylori infection; the direct action of the bacteria itself on gastric epithelial cells, and the accumulation of genetic changes caused by prolonged bacterial infection and chronic inflammation. As a direct action of H. pylori, bacterial proteins such as CagA could be delivered into gastric epithelial cells via the type IV secretion apparatus and modify the host cell functions related to cell proliferation. In addition to the direct bacterial action, H. pylori infection and the resultant inflammatory response cause various genetic and epigenetic changes in tumor-related genes of the gastric epithelial cells. Notably, expression of AID (activation-induced cytidine deaminase), a DNA editing enzyme that undergoes somatic hypermutation on human genes, is induced in response to H. pylori infection and proinflammatory cytokine stimulation in human gastric epithelial cells. As a result, the accumulation of genetic alterations would persist until the clinical stage of atrophic gastritis and eventually trigger the malignant transformation of gastric cells.
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PMID:[Mechanisms of H. pylori infection-induced gastric carcinogenesis]. 2008 30

It is well known that antioxidants and reactive oxygen species play an important role in carcinogenesis. In this study, we attempted to evaluate antioxidant enzyme activities and lipid peroxidation levels in cancerous bladder tissue and to determine their relationship with bacterial infection. Bacterial culture was made from all urine samples using Blood and Eosin Methylene Blue agars for checking the presence of bacterial infections. We measured thiobarbituric acid reactive substances (TBARs) and activities of xanthine oxidase (XO), superoxide dismutase (SOD), glutathione peroxidase (GSH-PX), and catalase (CAT) in cancerous tissues of 25 bladder cancer patients, in noncancerous adjacent bladder tissues of 13 out of these 25 patients, and in control bladder tissues of 15 patients with a non-neoplastic genitourinary disease. TBARs levels increased and XO, SOD, GSH-PX, and CAT activities decreased significantly in cancerous bladder tissues. TBARS, XO, and SOD levels were not significantly different between noncancerous adjacent tissue and control bladder tissue. Statistically significantly lower GSH-PX and higher CAT activities were observed in noncancerous adjacent bladder tissue compared with cancerous tissue. GSH-PX level of tumor tissue was correlated significantly with tumor grade (r=-0.425, P=0.034). Results suggested that pathway activity of free radicals were accelerated in the cancerous human bladder tissues via increased TBARs levels and decreased enzyme activities of XO, SOD, GSH-PX, and CAT, which implicated a severe exposure of cancerous tissues to oxidative stress.
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PMID:Lipid peroxidation and antioxidant enzyme activities in cancerous bladder tissue and their relation with bacterial infection: a controlled clinical study. 2008 49

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