Browsing by Author "Monge, Isabel"
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- Distribution of Chlamydia trachomatis ompA-genotypes over three decades in PortugalPublication . Lodhia, Zohra; Cordeiro, Dora; Correia, Cristina; João, Inês; Carreira, Teresa; Vieira, Luís; Nunes, Alexandra; Ferreira, Rita; Schäfer, Sandra; Aliyeva, Elzara; Portugal, Clara; Monge, Isabel; Pessanha, Maria Ana; Toscano, Cristina; Côrte-Real, Rita; Antunes, Marília; Gomes, Joao Paulo; Borges, Vítor; José Borrego, MariaObjectives: Chlamydia trachomatis is classified into 15 major genotypes, A to L3, based on the diversity of ompA gene. Here, we evaluated and characterised the distribution and diversity of ompA-genotypes over 32 years (1990-2021) in Portugal. Methods: The collection of the Portuguese National Reference Laboratory for Sexually Transmitted Infections includes 5824 C. trachomatis-positive samples that were successfully ompA-genotyped between 1990 and 2021. An in-depth analysis of ompA-genotypes distribution across the years, as well as by biological sex, age and anatomical site of infection was performed. Results: ompA-genotype E was consistently the most frequently detected across the years, with a median frequency of 34.6%, followed by D/Da (17.6%), F (14.3%) and G (10.7%). The prevalence of lymphogranuloma venereum (LGV) genotypes (mostly L2, 62.0%, followed by L2b, 32.1%) increased since 2016, reaching the highest value in 2019 (20.9%). LGV, G and Da genotypes were associated with biological sex, specifically with being male, and were the most frequent among anorectal specimens (37.7%, 19.4% and 17.7%, respectively). Notably, LGV ompA-genotypes represented 38.9% of the male anorectal specimens since 2016, and were also detected among oropharynx and urogenital samples. ompA-genotype E was the most frequently detected at the oropharynx (28.6%) and urogenital (33.9%) sites during the study period, followed by D/Da (17.4%) and F (16.0%) in the urogenital specimens, and by G (26.1%) and D/Da (25.7%) in oropharynx specimens. Our data also highlight the emergence of the recombinant L2b/D-Da strain since 2017 (representing between 2.0% and 15.5% of LGV cases per year) and the non-negligible detection of ompA-genotype B in urogenital and anorectal specimens. Conclusions: This study provides a comprehensive landscape of C. trachomatis molecular surveillance in Portugal, highlighting the continued relevance of ompA-genotyping as a complement to rapid LGV-specific detection tests. It also contributes to a deeper understanding of C. trachomatis epidemiology, diversity and pathogenicity.
- Distribution of Chlamydia trachomatis ompA-genotypes over three decades in PortugalPublication . Lodhia, Zohra; Cordeiro, Dora; Correia, Cristina; João, Inês; Carreira, Teresa; Vieira, Luís; Nunes, Alexandra; Ferreira, Rita; Schäfer, Sandra; Aliyeva, Elzara; Portugal, Clara; Monge, Isabel; Pessanha, Maria Ana; Toscano, Cristina; Côrte-Real, Rita; Antunes, Marília; Gomes, Joao Paulo; Borges, Vítor; Borrego, Maria JoséObjectives: Chlamydia trachomatis is classified into 15 major genotypes, A to L3, based on the diversity of ompA gene. Here, we evaluated and characterised the distribution and diversity of ompA-genotypes over 32 years (1990–2021) in Portugal. Methods: The collection of the Portuguese National Reference Laboratory for Sexually Transmitted Infections includes 5824 C. trachomatis-positive samples that were successfully ompA-genotyped between 1990 and 2021. An in-depth analysis of ompA-genotypes distribution across the years, as well as by biological sex, age and anatomical site of infection was performed. Results: ompA-genotype E was consistently the most frequently detected across the years, with a median frequency of 34.6%, followed by D/Da (17.6%), F (14.3%) and G (10.7%). The prevalence of lymphogranuloma venereum (LGV) genotypes (mostly L2, 62.0%, followed by L2b, 32.1%) increased since 2016, reaching the highest value in 2019 (20.9%). LGV, G and Da genotypes were associated with biological sex, specifically with being male, and were the most frequent among anorectal specimens (37.7%, 19.4% and 17.7%, respectively). Notably, LGV ompA-genotypes represented 38.9% of the male anorectal specimens since 2016, and were also detected among oropharynx and urogenital samples. ompA-genotype E was the most frequently detected at the oropharynx (28.6%) and urogenital (33.9%) sites during the study period, followed by D/Da (17.4%) and F (16.0%) in the urogenital specimens, and by G (26.1%) and D/Da (25.7%) in oropharynx specimens. Our data also highlight the emergence of the recombinant L2b/D-Da strain since 2017 (representing between 2.0% and 15.5% of LGV cases per year) and the non-negligible detection of ompA-genotype B in urogenital and anorectal specimens. Conclusions: This study provides a comprehensive landscape of C. trachomatis molecular surveillance in Portugal, highlighting the continued relevance of ompA-genotyping as a complement to rapid LGV-specific detection tests. It also contributes to a deeper understanding of C. trachomatis epidemiology, diversity and pathogenicity.
- Lymphogranuloma venereum (LGV) ompA-subvariants of the Portuguese collection of Chlamydia trachomatis, 2007–2023Publication . Lodhia, Zohra; Cordeiro, Dora; Correia, Cristina; João, Inês; Carreira, Teresa; Nunes, Alexandra; Ferreira, Rita; Schäfer, Sandra; Aliyeva, Elzara; Portugal, Clara; Monge, Isabel; Gonçalves, Elsa; Matos, Susana; Dias, Ana Paula; Corte-Real, Rita; Vieira, Luís; Gomes, Joao Paulo; Borges, Vítor; Jose Borrego, MariaBackground: Lymphogranuloma venereum (LGV) is a sexually transmitted infection caused by Chlamydia trachomatis ompA-genotypes L1–L3, with increasing numbers of detected cases across Europe. Here, we analysed diversity and temporal distribution of the LGV ompA-subvariants detected in Portugal between 2007 and 2023, in order to better understand the dissemination and diversification landscape of LGV strains. Methods: The collection of the Portuguese National Reference Laboratory includes 1188 LGV ompA-genotyped samples between 2007 and 2023. In-depth analysis of the diversity of LGV ompA-subvariants circulating in Portugal across the years was performed, identifying newly described subvariants and integrating this data in a comprehensive compilation with all representative LGV ompA-subvariants described globally. Results: L2 ompA-variant (L2/434/Bu) was consistently the most frequently detected in our collection, with annual proportions ranging from 34.0% to 82.9%, between 2016 and 2023. L2bV5 was the second most frequent followed by L2b, ranging from 5.0% to 27.9% and 2.6% to 23.7% across the years, respectively, from 2017 to 2023. We highlighted the emergence and considerable increase in circulation of L1-like ompA-subvariants in recent years, representing 13.7% of LGV sequences in 2023. We also identified 13 novel LGV ompA-subvariants that had not been described before, differing by up to three mutations from the respective genotype reference sequences. Conclusions: This study contributes to the worldwide picture of the LGV molecular epidemiology, highlighting the importance of long-term molecular surveillance to monitor the circulation and geographical spread of LGV and to timely identify and track new strains, such as the recently emerging L1-like ompA-subvariants.
- Surveying genetic markers of antibiotic resistance and genomic background in Chlamydia trachomatis: insights from a multiplex NGS-based approach in clinical strains from PortugalPublication . Lodhia, Zohra; da Silva, Jorge Costa; Correia, Cristina; Cordeiro, Dora; João, Inês; Carreira, Teresa; Schäfer, Sandra; Aliyeva, Elzara; Portugal, Clara; Monge, Isabel; Gonçalves, Elsa; Matos, Susana; Dias, Ana Paula; Côrte-Real, Rita; Carpinteiro, Dina; Duarte, Sílvia; Vieira, Luís; Gomes, João Paulo; Borges, Vítor; Borrego, Maria JoséObjectives: To survey genetic markers of potential antimicrobial resistance (AMR) to macrolides and fluoroquinolones among Chlamydia trachomatis–positive samples from the collection of the Portuguese National Reference Laboratory for Sexually Transmitted Infections (STIs), and explore a multiplex PCR approach coupled with NGS to provide complementary information regarding a strain’s genomic backbone. Methods: A total of 502 C. trachomatis–positive samples, mostly anorectal exudates, were subjected to PCR and sequencing of five targets, including loci potentially driving AMR (23S rRNA, gyrA and parC) and loci potentially informative about a strain’s genomic backbone with emphasis on differentiation of lymphogranuloma venereum (LGV)/non-LGV and L2/L2b (a 9 bp insertion in pmpH, a 74 bp insertion upstream from CT105 and the polymorphic CT442). Results: No samples evidenced 23S rRNA mutations recognizably linked to macrolide resistance. Three samples harboured the Ser83Ile mutation in GyrA putatively driving fluoroquinolone resistance: two recombinant L2-L2b/D-Da (0.4%) and one L2 (0.2%). The screened regions in pmpH, upstream CT105 and CT442 were fully concordant with LGV/non-LGV differentiation. As expected, the pmpH L2b-specific genetic trait locus was detected in all L2b and recombinant L2-L2b/D-Da ompA genotypes, but also in 96.0% of L2 specimens, which also likely possess an L2b genomic backbone. The insertion upstream from CT105 exhibited full LGV specificity, constituting a promising target for the development of rapid LGV diagnostic assays. Conclusions: This study contributes to enhancing the knowledge of C. trachomatis molecular epidemiology, suggesting that the known genetic determinants of AMR are not disseminated in clinical C. trachomatis strains, and presents an exploratory approach that can be suitable for LGV/non-LGV and L2/L2b genomic background differentiation.