Chlamydia trachomatis ompA variants in trachoma: what do they tell us?

Trachoma, caused by Chlamydia trachomatis (Ct), is the leading infectious cause of blindness. Sequence-based analysis of the multiple strains typically present in endemic communities may be informative for epidemiology, transmission, response to treatment, and understanding the host response. Conjun...

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Veröffentlicht in:	PLoS neglected tropical diseases 2008-09, Vol.2 (9), p.e306-e306
Hauptverfasser:	Andreasen, Aura A, Burton, Matthew J, Holland, Martin J, Polley, Spencer, Faal, Nkoyo, Mabey, David C W, Bailey, Robin L
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Sprache:	eng
Schlagworte:	Anti-Bacterial Agents - therapeutic use Antibiotics Azithromycin - therapeutic use Bacterial Outer Membrane Proteins - genetics Base Sequence Chlamydia Chlamydia trachomatis Chlamydia trachomatis - genetics Conjunctivitis, Inclusion - drug therapy Conjunctivitis, Inclusion - microbiology Conjunctivitis, Inclusion - transmission Epidemiology Genetic Variation Genetics and Genomics/Microbial Evolution and Genomics Genetics and Genomics/Population Genetics Genotype Genotypes Humans Infections Infectious Diseases/Bacterial Infections Ophthalmology/Eye Infections Polymerase Chain Reaction Public Health and Epidemiology/Infectious Diseases Sexually transmitted diseases STD Trachoma - genetics Tropical diseases Vaccines
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description	Trachoma, caused by Chlamydia trachomatis (Ct), is the leading infectious cause of blindness. Sequence-based analysis of the multiple strains typically present in endemic communities may be informative for epidemiology, transmission, response to treatment, and understanding the host response. Conjunctival and nasal samples from a Gambian community were evaluated before and 2 months after mass azithromycin treatment. Samples were tested for Ct by Amplicor, with infection load determined by quantitative PCR (qPCR). ompA sequences were determined and their diversity analysed using frequency-based tests of neutrality. Ninety-five of 1,319 (7.2%) individuals from 14 villages were infected with Ct at baseline. Two genovars (A and B) and 10 distinct ompA genotypes were detected. Two genovar A variants (A1 and A2) accounted for most infections. There was an excess of rare ompA mutations, not sustained in the population. Post-treatment, 76 (5.7%) individuals had Ct infection with only three ompA genotypes present. In 12 of 14 villages, infection had cleared, while in two it increased, probably due to mass migration. Infection qPCR loads associated with infection were significantly greater for A1 than for A2. Seven individuals had concurrent ocular and nasal infection, with divergent genotypes in five. The number of strains was substantially reduced after mass treatment. One common strain was associated with higher infection loads. Discordant genotypes in concurrent infection may indicate distinct infections at ocular and nasal sites. Population genetic analysis suggests the fleeting appearance of rare multiple ompA variants represents purifying selection rather than escape variants from immune pressure. Genotyping systems accessing extra-ompA variation may be more informative.
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Sequence-based analysis of the multiple strains typically present in endemic communities may be informative for epidemiology, transmission, response to treatment, and understanding the host response. Conjunctival and nasal samples from a Gambian community were evaluated before and 2 months after mass azithromycin treatment. Samples were tested for Ct by Amplicor, with infection load determined by quantitative PCR (qPCR). ompA sequences were determined and their diversity analysed using frequency-based tests of neutrality. Ninety-five of 1,319 (7.2%) individuals from 14 villages were infected with Ct at baseline. Two genovars (A and B) and 10 distinct ompA genotypes were detected. Two genovar A variants (A1 and A2) accounted for most infections. There was an excess of rare ompA mutations, not sustained in the population. Post-treatment, 76 (5.7%) individuals had Ct infection with only three ompA genotypes present. In 12 of 14 villages, infection had cleared, while in two it increased, probably due to mass migration. Infection qPCR loads associated with infection were significantly greater for A1 than for A2. Seven individuals had concurrent ocular and nasal infection, with divergent genotypes in five. The number of strains was substantially reduced after mass treatment. One common strain was associated with higher infection loads. Discordant genotypes in concurrent infection may indicate distinct infections at ocular and nasal sites. Population genetic analysis suggests the fleeting appearance of rare multiple ompA variants represents purifying selection rather than escape variants from immune pressure. 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This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited: Andreasen AA, Burton MJ, Holland MJ, Polley S, Faal N, et al. (2008) Chlamydia trachomatis ompA Variants in Trachoma: What Do They Tell Us? 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Sequence-based analysis of the multiple strains typically present in endemic communities may be informative for epidemiology, transmission, response to treatment, and understanding the host response. Conjunctival and nasal samples from a Gambian community were evaluated before and 2 months after mass azithromycin treatment. Samples were tested for Ct by Amplicor, with infection load determined by quantitative PCR (qPCR). ompA sequences were determined and their diversity analysed using frequency-based tests of neutrality. Ninety-five of 1,319 (7.2%) individuals from 14 villages were infected with Ct at baseline. Two genovars (A and B) and 10 distinct ompA genotypes were detected. Two genovar A variants (A1 and A2) accounted for most infections. There was an excess of rare ompA mutations, not sustained in the population. Post-treatment, 76 (5.7%) individuals had Ct infection with only three ompA genotypes present. 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Sequence-based analysis of the multiple strains typically present in endemic communities may be informative for epidemiology, transmission, response to treatment, and understanding the host response. Conjunctival and nasal samples from a Gambian community were evaluated before and 2 months after mass azithromycin treatment. Samples were tested for Ct by Amplicor, with infection load determined by quantitative PCR (qPCR). ompA sequences were determined and their diversity analysed using frequency-based tests of neutrality. Ninety-five of 1,319 (7.2%) individuals from 14 villages were infected with Ct at baseline. Two genovars (A and B) and 10 distinct ompA genotypes were detected. Two genovar A variants (A1 and A2) accounted for most infections. There was an excess of rare ompA mutations, not sustained in the population. Post-treatment, 76 (5.7%) individuals had Ct infection with only three ompA genotypes present. 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subjects	Anti-Bacterial Agents - therapeutic use Antibiotics Azithromycin - therapeutic use Bacterial Outer Membrane Proteins - genetics Base Sequence Chlamydia Chlamydia trachomatis Chlamydia trachomatis - genetics Conjunctivitis, Inclusion - drug therapy Conjunctivitis, Inclusion - microbiology Conjunctivitis, Inclusion - transmission Epidemiology Genetic Variation Genetics and Genomics/Microbial Evolution and Genomics Genetics and Genomics/Population Genetics Genotype Genotypes Humans Infections Infectious Diseases/Bacterial Infections Ophthalmology/Eye Infections Polymerase Chain Reaction Public Health and Epidemiology/Infectious Diseases Sexually transmitted diseases STD Trachoma - genetics Tropical diseases Vaccines
title	Chlamydia trachomatis ompA variants in trachoma: what do they tell us?
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