Emerging Themes in the Molecular Pathogenesis of Enterotoxigenic Escherichia coli (original) (raw)
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Molecular mechanisms of enterotoxigenic Escherichia coli infection
Enterotoxigenic Escherichia coli (ETEC) are a major cause of diarrheal illness in developing countries, and perennially the most common cause of traveller's diarrhea. ETEC constitute a diverse pathotype that elaborate heat-labile and/or heat-stable enterotoxins. Recent molecular pathogenesis studies reveal sophisticated pathogenehost interactions that might be exploited in efforts to prevent these important infections. While vaccine development for these important pathogens remains a formidable challenge, extensive efforts that attempt to exploit new genomic and proteomic technology platforms in discovery of novel targets are presently ongoing. Published by Elsevier Masson SAS.
Novel antigens for enterotoxigenicEscherichia colivaccines
Expert Review of Vaccines, 2014
Enterotoxigenic Escherichia coli (ETEC) are the most common bacterial pathogens-causing diarrhea in developing countries where they cause hundreds of thousands of deaths, mostly in children. These organisms are leading cause of diarrheal illness in travelers to endemic countries. ETEC pathogenesis, and consequently vaccine approaches, have largely focused on plasmidencoded enterotoxins or fimbrial colonization factors. To date these approaches have not yielded a broadly protective vaccine. However, recent studies suggest that ETEC pathogenesis is more complex than previously appreciated and involves additional plasmid and chromosomally-encoded virulence molecules that can be targeted in vaccines. Here, we review recent novel antigen discovery efforts, potential contribution of these proteins to the molecular pathogenesis of ETEC and protective immunity, and the potential implications for development of next generation vaccines for important pathogens. These proteins may help to improve the effectiveness of future vaccines by making simpler and possibly broadly protective because of their conserved nature.
Novel antigens for enterotoxigenic Escherichia coli vaccines
Expert Review of Vaccines, 2014
Enterotoxigenic Escherichia coli (ETEC) are the most common bacterial pathogens causing diarrhea in developing countries where they lead to hundreds of thousands of deaths, mostly in children. These organisms are a leading cause of diarrheal illness in travelers to endemic countries. ETEC pathogenesis, and consequently vaccine approaches, have largely focused on plasmid-encoded enterotoxins or fimbrial colonization factors. To date these approaches have not yielded a broadly protective vaccine. However, recent studies suggest that ETEC pathogenesis is more complex than previously appreciated and involves additional plasmid and chromosomally encoded virulence molecules that can be targeted in vaccines. Here, we review recent novel antigen discovery efforts, potential contribution of these proteins to the molecular pathogenesis of ETEC and protective immunity, and the potential implications for development of next generation vaccines for important pathogens. These proteins may help to improve the effectiveness of future vaccines by making them simpler and possibly broadly protective because of their conserved nature.
Enterotoxigenic Escherichia coli virulence factors and vaccine approaches
Expert Review of Vaccines, 2004
Enterotoxigenic Escherichia coli (ETEC) is recognized as one of the major causes of infectious diarrhea in developing countries. Worldwide, the incidence of ETEC infections is estimated to result in 650 million cases of diarrhea and 380,000 deaths in children under 5 years of age. ETEC is also an important cause of travelers' diarrhea in people traveling to endemic regions of the world. Although ETEC is an uncommon cause of infections in the USA, there have been 14 reported outbreaks of ETEC in the USA and seven on cruise ships over the 20-year period between 1975 and 1995. ETEC strains are comprised of a large number of serotypes that produce a variety of colonization factors and enterotoxins. On infection, ETEC first establishes itself by adhering to the epithelium of the small intestine via one or more colonization factor antigens or coli surface proteins. Once established, ETEC expresses one or more enterotoxin(s), which results in the production of secretory diarrhea. While the need for an efficacious, easily administered vaccine is great, there are currently no licensed ETEC vaccines available for use in endemic countries or for US travelers.
PLOS Neglected Tropical Diseases, 2015
Enterotoxigenic Escherichia coli (ETEC) are common causes of diarrheal morbidity and mortality in developing countries for which there is currently no vaccine. Heterogeneity in classical ETEC antigens known as colonization factors (CFs) and poor efficacy of toxoidbased approaches to date have impeded development of a broadly protective ETEC vaccine, prompting searches for novel molecular targets.
Pathogenesis and Vaccines against Enterotoxigenic Escherichia Coli
Journal of Babol University of Medical Sciences, 2017
BACKGROUND AND OBJECTIVE: Enterotoxigenic Escherichia coli (ETEC) is the most common causes of diarrhea and its mortality is estimated at 157,000 deaths per year that equivalent 9 percent of all deaths attributed to diarrhea. Vaccine development against ETEC has been identified as an important primary prevention strategy against bacteria. Present study aims to provide importance of and pathogenesis of ETEC bacteria and research in the field of vaccine against it. METHODS: In this study literature search was conducted in NCBI databases with ETEC, virulence factors, colonization factors, enterotoxins and vaccine as keywords. Related articles were collected and investigated. FINDINGS: Survey of articles indicated that mucosal immunization could provide the secretary IgA antibody (sIgA) response and are of particular importance for protection against ETEC infection. Diversity and geographical distribution of bacterial strains is one of the main problems to deal effectively against disease caused by ETEC. One of the important points is expressing of different CFs on bacterial surface. Development of a vaccine against bacteria and toxins strains is dependent on careful investigation of the prevalence of colonization factors and toxin strains. CONCLUSION: Scrutiny could reduce information gaps and expected to help appropriately for development strategies against bacteria. Design multivalent ETEC immunogens containing the most prevalent colonization factors and toxins may provide protection against a wide range of ETEC strains.
Enterotoxigenic and enteroaggregative Escherichia coli: prevalence, pathogenesis and murine models
Gaceta de M�xico, 2020
Enterotoxigenic (ETEC) and enteroaggregative Escherichia coli (EAEC) pathotypes are important etiological agents causative of diarrhea in children younger than 5 years of age in Mexico and in developing countries, where they cause numerous deaths. Both have been associated with delayed growth in children and are the main causative agents of traveler's diarrhea. The pathogenesis of both bacteria starts by adhering to the intestinal epithelium by means of fimbriae, called colonization factors in human ETEC isolates and aggregative adherence fimbriae in EAEC isolates. Once ETEC adheres to the enterocyte, it produces one or both of its toxins and induces the secretion of chloride and sodium ions and water into the intestinal lumen, producing its characteristic watery diarrhea. EAEC binds to the intestinal epithelium forming a biofilm, induces the production of mucus, releases its toxins and promotes inflammation. EAEC and ETEC infection models with wild-type C57BL/6 and CD40 ligand-deficient mice (with intact microbiota), respectively, revealed that undernutrition and low-zinc diet increases EAEC infection, causing growth retardation, and that ETEC colonizes, persists and induces local and systemic humoral immune response.
Infection and Immunity, 2013
Enterotoxigenic Escherichia coli (ETEC) strains are a leading cause of morbidity and mortality due to diarrheal illness in developing countries. There is currently no effective vaccine against these important pathogens. Because genes modulated by pathogen-host interactions potentially encode putative vaccine targets, we investigated changes in gene expression and surface morphology of ETEC upon interaction with intestinal epithelial cells in vitro. Pan-genome microarrays, quantitative reverse transcriptase PCR (qRT-PCR), and transcriptional reporter fusions of selected promoters were used to study changes in ETEC transcriptomes. Flow cytometry, immunofluorescence microscopy, and scanning electron microscopy were used to investigate alterations in surface antigen expression and morphology following pathogen-host interactions. Following host cell contact, genes for motility, adhesion, toxin production, immunodominant peptides, and key regulatory molecules, including cyclic AMP (cAMP) receptor protein (CRP) and c-di-GMP, were substantially modulated. These changes were accompanied by visible changes in both ETEC architecture and the expression of surface antigens, including a novel highly conserved adhesin molecule, EaeH. The studies reported here suggest that pathogen-host interactions are finely orchestrated by ETEC and are characterized by coordinated responses involving the sequential deployment of multiple virulence molecules. Elucidation of the molecular details of these interactions could highlight novel strategies for development of vaccines for these important pathogens.
Weapons of mass destruction: virulence factors of the global killer EnterotoxigenicEscherichia coli
FEMS Microbiology Letters, 2006
Enterotoxigenic Escherichia coli (ETEC) is the most common cause of food and water-borne E. coli-mediated human diarrhoea worldwide. The incidence in developing countries is estimated at 650 million cases per year, resulting in 800 000 deaths, primarily in children under the age of five. ETEC is also the most common cause of diarrhoea among travellers, including the military, from industrialized nations to less developed countries. In addition, ETEC is a major pathogen of animals, being responsible for scours in cattle and neonatal and postweaning diarrhoea in pigs and resulting in significant financial losses. Studies on the pathogenesis of ETEC infections have concentrated on the plasmid-encoded heat-stable and heat-labile enterotoxins and on the plasmid-encoded antigenically variable colonization factors. Relatively little work has been carried out on chromosomally encoded virulence factors. Here, we review the known virulence factors of ETEC and highlight the future for combating this major disease.