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Browsing GAT - Artigo Científico by Author "Alves, João"
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- Chlamydia trachomatis: when the virulence-associated genome backbone imports a prevalence-associated major antigen signaturePublication . Borges, Vítor; Cordeiro, Dora; Salas, Ana Isabel; Lodhia, Zohra; Correia, Cristina; Isidro, Joana; Fernandes, Cândida; Rodrigues, Ana Maria; Azevedo, Jacinta; Alves, João; Roxo, João; Rocha, Miguel; Côrte-Real, Rita; Vieira, Luís; Borrego, Maria José; Gomes, João PauloChlamydia trachomatis is the most prevalent sexually transmitted bacterium worldwide and the causative agent of trachoma. Its strains are classified according to their ompA genotypes, which are strongly linked to differential tissue tropism and disease outcomes [ocular disease, urogenital disease and lymphogranuloma venereum (LGV)]. While the genome-based species phylogenetic tree presents four main clades correlating with tropism/prevalence, namely ocular, LGV, urogenital T1 (more prevalent genotypes) and urogenital T2 (less prevalent genotypes), inter-clade exchange of ompA is considered a rare phenomenon probably mediating marked tropism alterations. An LGV epidemic, associated with the clonal expansion of the L2b genotype, has emerged in the last few decades, raising concerns particularly due to its atypical clinical presentation (ulcerative proctitis) and circulation among men who have sex with men (MSM). Here, we report an LGV outbreak, mostly affecting human immunodeficiency virus-positive MSM engaging in high-risk sexual practices, caused by an L2b strain with a rather unique non-LGV ompA signature that precluded the laboratory notification of this outbreak as LGV. C. trachomatis whole-genome capture and sequencing directly from clinical samples was applied to deeply characterize the genomic backbone of this novel LGV outbreak-causing clone. It revealed a chimeric genome structure due to the genetic transfer of ompA and four neighbouring genes from a serovar D/Da strain, likely possessing the genomic backbone associated with the more prevalent urogenital genotypes (T1 clade), to an LGV (L2b) strain. The hybrid L2b/D-Da strain presents the adhesin and immunodominant antigen MOMP (major outer membrane protein) (encoded by ompA) with an epitope repertoire typical of non-invasive genital strains, while keeping the genome-dispersed virulence fingerprint of a classical LGV strain. As previously reported for inter-clade ompA exchange among non-LGV clades, this novel C. trachomatis genomic mosaic involving a contemporary epidemiologically and clinically relevant LGV strain may have implications on its transmission, tissue tropism and pathogenic capabilities. The emergence of variants with epidemic and pathogenic potential highlights the need for more focused surveillance strategies to capture C. trachomatis evolution in action.
- Transcontinental Dissemination of the L2b/D-Da Recombinant Chlamydia trachomatis Lymphogranuloma venereum (LGV) Strain: Need of Broad Multi-Country Molecular SurveillancePublication . Borges, Vítor; Isidro, Joana; Correia, Cristina; Cordeiro, Dora; Vieira, Luís; Lodhia, Zohra; Fernandes, Cândida; Rodrigues, Ana Maria; Azevedo, Jacinta; Alves, João; Roxo, João; Rocha, Miguel; Côrte-Real, Rita; Toscano, Cristina; Pessanha, Maria Ana; Nissan, Israel; Pilo, Shlomo; Rorman, Efrat; Dveyrin, Zeev; Paitan, Yossi; Paran, Haim; Wagner-Kolasko, Gal; Beirnes, Jennifer; Gibbons, Suzanne; Severini, Alberto; Borrego, Maria José; Gomes, João PauloPreviously, we identified a Chlamydia trachomatis lymphogranuloma venereum (LGV) recombinant strain possessing a non-LGV ompA genotype. Here, culture-independent genome sequencing confirms its circulation in Europe, Middle East, and North America, and unveils emergence of antibiotic resistance. Broad surveillance is needed.
- Viral genetic clustering and transmission dynamics of the 2022 mpox outbreak in PortugalPublication . Borges, Vítor; Duque, Mariana Perez; Martins, João Vieira; Vasconcelos, Paula; Ferreira, Rita; Sobral, Daniel; Pelerito, Ana; de Carvalho, Isabel Lopes; Núncio, Maria Sofia; Borrego, Maria José; Roemer, Cornelius; Neher, Richard A.; O’Driscoll, Megan; Rocha, Raquel; Lopo, Sílvia; Neves, Raquel; Palminha, Paula; Coelho, Luís; Nunes, Alexandra; Isidro, Joana; Pinto, Miguel; Santos, João Dourado; Mixão, Verónica; Santos, Daniela; Duarte, Silvia; Vieira, Luís; Martins, Fátima; Machado, Jorge; Veríssimo, Vítor Cabral; Grau, Berta; Peralta-Santos, André; Neves, José; Caldeira, Margarida; Pestana, Mafalda; Fernandes, Cândida; Caria, João; Pinto, Raquel; Póvoas, Diana; Maltez, Fernando; Sá, Ana Isabel; Salvador, Mafalda Brito; Teófilo, Eugénio; Rocha, Miguel; Moneti, Virginia; Duque, Luis Miguel; e Silva, Francisco Ferreira; Baptista, Teresa; Vasconcelos, Joana; Casanova, Sara; Mansinho, Kamal; Alves, João Vaz; Alves, João; Silva, António; Alpalhão, Miguel; Brazão, Cláudia; Sousa, Diogo; Filipe, Paulo; Pacheco, Patrícia; Peruzzu, Francesca; de Jesus, Rita Patrocínio; Ferreira, Luís; Mendez, Josefina; Jordão, Sofia; Duarte, Frederico; Gonçalves, Maria João; Pena, Eduarda; Silva, Claúdio Nunes; Guimarães, André Rodrigues; Tavares, Margarida; Freitas, Graça; Cordeiro, Rita; Gomes, João PauloPathogen genome sequencing during epidemics enhances our ability to identify and understand suspected clusters and investigate their relationships. Here, we combine genomic and epidemiological data of the 2022 mpox outbreak to better understand early viral spread, diversification and transmission dynamics. By sequencing 52% of the confirmed cases in Portugal, we identified the mpox virus sublineages with the highest impact on case numbers and fitted them into a global context, finding evidence that several international sublineages probably emerged or spread early in Portugal. We estimated a 62% infection reporting rate and that 1.3% of the population of men who have sex with men in Portugal were infected. We infer the critical role played by sexual networks and superspreader gatherings, such as sauna attendance, in the dissemination of mpox virus. Overall, our findings highlight genomic epidemiology as a tool for the real-time monitoring and control of mpox epidemics, and can guide future vaccine policy in a highly susceptible population.