Genetic lineage characterization and spatiotemporal dynamics of the recently established Brevihamaparvovirus genus

Copyright © 2022 Elsevier B.V. All rights reserved.The analysis of the viruses allocated to the recently established Brevihamaparvovirus genus (Parvoviridae family), which includes all previously known brevidensoviruses, has not yet been carried out on an extensive basis. As a result, no detailed genetic lineage characterization has ever been performed for this group of insect-specific viruses. Using a wide range of molecular tools, we have explored this taxon by calculating Shannon entropy values, intra- and inter-taxon genetic distances, analysed sequence polymorphisms, and evaluated selective pressures acting on the viral genome. While the calculated Brevihamaparvovirus mutation rates were within the range of those of other parvoviruses, their genomes look to be under strong purifying selection, and are also characterized by low diversity and entropy. Furthermore, even though recombination events are quite common among parvoviruses, no evidence of recombination (either intra or intergenic) was found in the Brevihamaparvoviruses sequences analyzed. An extended taxonomic analysis and reevaluation of existing Brevihamaparvoviruses sequences, many still unclassified, was performed using cut-off values defining NS1 identity between viral sequences from the Parvovirus family. Two existing genetic lineages, Dipteran Brevihamaparvovirus 1 and Dipteran Brevihamaparvovirus 2, were rearranged and the creation of a new one, Dipteran Brevihamaparvovirus 3, was suggested. Finally, despite the uncertainties associated with both the time estimates of the most recent common ancestors, which could span from twenty thousand years before the current era to way earlier (in the last century), and the dispersal routes proposed for Brevihamaparvoviruses sequences by phylodynamic reconstruction, the analyses here presented could help define how future studies should be conducted as more isolates continue to be identified in the future, and contribute to eliminating possible analytical biases.publishersversionpublishe

Readdressing the genetic diversity and taxonomy of the Mesoniviridae family, as well as its relationships with other nidoviruses and putative mesonivirus-like viral sequences

Copyright © 2022 Elsevier B.V. All rights reserved.Research on the recently established Mesoniviridae family (Order Nidovirales), RNA genome insect-specific viruses, has been steadily growing in the last decade. However, after the last detailed phylogenetic characterization of mesoniviruses in 2014, numerous new sequences, even in organisms other than mosquitos, have been identified and characterized. In this study, we analyzed nucleotide and protein sequences of mesoniviruses with a wide range of molecular tools including genetic distance, Shannon entropy, selective pressure analysis, polymorphism identification, principal coordinate analysis, likelihood mapping and phylodynamic reconstruction. We also sought to revaluate new mesoniviruses sequence positions within the family, proposing a taxonomic revision. The different sub-lineages of mosquito mesoniviruses sequences presented low sequence diversity and entropy, with incongruences to the existing taxonomy being found after an extensive phylogenetic characterization. High sequence discrepancy and differences in genome organization were found between mosquito mesoniviruses and other mesoniviruses, so their future classification, as other meso-like viruses that are found in other organisms, should be approached with caution. No evidence of frequent recombination was found, and mesonivirus genomes seem to evolve under strong purifying selection. Insufficient data by root-to-tip analysis did not yet allow for an adequate phylogeographic reconstruction.publishersversionpublishe

inTB - a data integration platform for molecular and clinical epidemiological analysis of tuberculosis

This deposit is composed by the main article plus the supplementary materials of the publication.Tuberculosis is currently the second highest cause of death from infectious diseases worldwide. The emergence of multi and extensive drug resistance is threatening to make tuberculosis incurable. There is growing evidence that the genetic diversity of Mycobacterium tuberculosis may have important clinical consequences. Therefore, combining genetic, clinical and socio-demographic data is critical to understand the epidemiology of this infectious disease, and how virulence and other phenotypic traits evolve over time. This requires dedicated bioinformatics platforms, capable of integrating and enabling analyses of this heterogeneous data.Instituto Gulbenkian de Ciência, Programa Nacional de Luta contra a Tuberculose, Instituto Nacional de Saúde Ricardo Jorge, Administração Regional de Saúde de Lisboa e Vale do Tejo

A Comparative Proteomic Analysis of Praziquantel-Susceptible and Praziquantel-Resistant Schistosoma mansoni Reveals Distinct Response Between Male and Female Animals

Funding Information: We acknowledge the Mass Spectrometry Laboratory at Brazilian Biosciences National Laboratory, CNPEM, Campinas, Brazil for their support with the mass spectrometry analysis. The authors would like to thank Professor Ana Tomás from IBMC and GABBA program (Porto, Portugal), for very helpful suggestions that improved greatly this paper. Funding Information: This work was initially supported by Fundação para a Ciência e a Tecnologia de Portugal (FCT) by grant PEst-OE/SAU/UI0074/2014. AP-A was initially funded by Graduate Program in Areas of Basic and Applied Biology (GABBA) from the Instituto de Ciências Biomédicas Abel Salazar, Universidade do Porto and FCT (SFRH/BD/51697/2011) meanwhile received the António Coutinho Science Award (11/BI-PD/20) by the Instituto Gulbenkian de Ciência (IGC) of the Fundação Calouste Gulbenkian, and Fundação Familia Merk and Câmara Municipal de Oeiras, and nowadays is funded by the German Federal Ministry of Education and Research (BMBF), the West African Science Service Centre on Climate Change and Adapted Land Use (WASCAL) through WASCAL Graduate Studies Programme in Climate Change and Marine Sciences at the Institute for Enginneering and Marine Sciences, Atlantic Technical University, Cabo Verde. The Brazilian agencies that were involved in this project are Conselho Nacional de Desenvolvimento Científico e Tecnológico - CNPq Proc. Nrs 400168/2013-8, and 375781/2013-7 that funded AA, and Fundação de Amparo a Pesquisa no Estado de São Paulo – FAPESP Proc. Nrs 2009/54040-8, 2009/16598-7, and 2008/04050-4 that funded infrastructure to EC. Project FAPESP 2014/07331-5 funded infrastructure to FA. This study was financed in part by the Coordenação de Aperfeiçoamento de Pessoal de Nível Superior – Brasil (CAPES) – Finance Code 1742613 and 88882.317690/2019-01, as a fellowship to CG and Finance Code 001 as a fellowship to TM. AA is now being funded by Fundação para a Ciência e Tecnologia (FCT) of Portugal PTDC/CVT-CVT/28798/2017. Fundação para a Ciência e Tecnologia (FCT) of Portugal provided funds to GHTM (UID/Multi/04413/2020) funded PF, ABA, and SB. Publisher Copyright: Copyright © 2021 Pinto-Almeida, Mendes, Ferreira, Abecasis, Belo, Anibal, Allegretti, Galinaro, Carrilho and Afonso.Schistosomiasis is a chronic neglected tropical disease saddling millions of people in the world, mainly children living in poor rural areas. Praziquantel (PZQ) is currently the only drug used for the treatment and control of this disease. However, the extensive use of this drug has brought concern about the emergence of PZQ-resistance/tolerance by Schistosoma mansoni. Studies of Schistosoma spp. genome, transcriptome, and proteome are crucial to better understand this situation. In this in vitro study, we compare the proteomes of a S. mansoni variant strain stably resistant to PZQ and isogenic to its fully susceptible parental counterpart, identifying proteins from male and female adult parasites of PZQ-resistant and PZQ-susceptible strains, exposed and not exposed to PZQ. A total of 60 Schistosoma spp. proteins were identified, some of which present or absent in either strain, which may putatively be involved in the PZQ-resistance phenomenon. These proteins were present in adult parasites not exposed to PZQ, but some of them disappeared when these adult parasites were exposed to the drug. Understanding the development of PZQ-resistance in S. mansoni is crucial to prolong the efficacy of the current drug and develop markers for monitoring the potential emergence of drug resistance.publishersversionpublishe

Europe needs to urgently implement an outward looking Global Health Strategy

Funding Information: ABR, QB, AR, MR, ABA, KKG, JS and NA serve on the Executive Committee of the European Global Health Research Institutes Network. ABR received payment from the Bundesausschuss f\u00FCr Politische Bildung in 2021 for moderating a panel on globally equitable health care during and beyond COVID-19. QB was the PI and his institute recipient of EU funding for point of care diagnostic devices in 2022 and 2024. MR received EU funding for his institute for the EU-PEARL,UNITE4TB and ENDVOC projects. ABA participated in the EuCARE\u2019s advisory board. NA\u2019s institute received EU funding. TB reports funding for the Heidelberg Institute of Global Health from the EU through Horizon Europe and Horizon 2020, the League of European Research Universities and the European and Developing Countries Clinical Trials Partnership. TB is also Chair of the International Scientific Advisory Board on the EU Horizon grant \u201CHIGH Horizons \u2013 Heat Indicators for Global Health Monitoring, Early Warning Systems and health facility interventions for pregnant and postpartum women, infants and young children and health workers.\u201D No money was received for writing this correspondence.publishersversionpublishe

HIV-1 gp120 N-linked glycosylation differs between plasma and leukocyte compartments

<p>Abstract</p> <p>Background</p> <p>N-linked glycosylation is a major mechanism for minimizing virus neutralizing antibody response and is present on the Human Immunodeficiency Virus (HIV) envelope glycoprotein. Although it is known that glycosylation changes can dramatically influence virus recognition by the host antibody, the actual contribution of compartmental differences in N-linked glycosylation patterns remains unclear.</p> <p>Methodology and Principal Findings</p> <p>We amplified the <it>env </it>gp120 C2-V5 region and analyzed 305 clones derived from plasma and other compartments from 15 HIV-1 patients. Bioinformatics and Bayesian network analyses were used to examine N-linked glycosylation differences between compartments. We found evidence for cellspecific single amino acid changes particular to monocytes, and significant variation was found in the total number of N-linked glycosylation sites between patients. Further, significant differences in the number of glycosylation sites were observed between plasma and cellular compartments. Bayesian network analyses showed an interdependency between N-linked glycosylation sites found in our study, which may have immense functional relevance.</p> <p>Conclusion</p> <p>Our analyses have identified single cell/compartment-specific amino acid changes and differences in N-linked glycosylation patterns between plasma and diverse blood leukocytes. Bayesian network analyses showed associations inferring alternative glycosylation pathways. We believe that these studies will provide crucial insights into the host immune response and its ability in controlling HIV replication <it>in vivo</it>. These findings could also have relevance in shielding and evasion of HIV-1 from neutralizing antibodies.</p

Assessing transmissibility of HIV-1 drug resistance mutations from treated and from drug-naive individuals (AIDS (2015) 29 (2045-2052))

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HIV-1 subtype diversity and phylogenetic insight into non-B subtype transmission in Slovenia, 1989-2013

Funding Information: The research leading to these results received funding from the Slovenian Research Agency [grant number P3-0083] and Institute of Microbiology and Immunology, Faculty of Medicine, University of Ljubljana. Publisher Copyright: © 2023, Slovene Medical Society. All rights reserved.Introduction: Disease progression, drug resistance mutations, and treatment strategies may vary by HIV-1 subtype. This study determined HIV-1 subtypes circulating in Slovenia, a Central European country with an HIV-1 epidemic driven by men who have sex with men, focusing on molecular epidemiology of non-B subtypes. Methods: A total of 367 HIV-1 sequences were included. Subtype was assigned by employing eight different HIV subtyping tools coupled with maximum likelihood phylogenetic analyses. Results: The subtyping tools COMET, jpHMM, and REGA 3.0 exhibited the best performance on the dataset studied. Phylogenetic analyses showed a 14.7% prevalence of non-B subtypes, with subtype A detected most frequently (4.9%), followed by CRF02_AG (2.4%), subtype C (1.1%), subtypes D, G, and CRF01_AE (0.8% each), and subtypes F and CRF22_01A1 (0.3% each). A subtype could not be assigned to 12 sequences (3.3%), indicating potential unique recombinant forms. Non-B subtypes were significantly associated with a heterosexual route of transmission and infection acquired in Eastern Europe, Africa, or Asia. Conclusions: In a country where subtype B is predominant, non-B subtypes were observed in one out of seven patients, a non-negligible proportion, which underlines the importance of systematic surveillance of HIV subtype diversity and the corresponding molecular epidemiology.publishersversionpublishe

On the contribution of Angola to the initial spread of HIV-1

Licenced under CC-BY-NC-NDAngola borders and has long-term links with Democratic Republic of Congo (DRC) as well as high levels of Human Immunodeficiency Virus (HIV) genetic diversity, indicating a potential role in the initial spread of the HIV-1 pandemic. Herein, we analyze 564 C2V3 and 354 pol publicly available sequences from DRC, Republic of Congo (RC) and Angola to better understand the initial spread of the virus in this region. Phylogeographic analyses were performed with the BEAST software. While our results pinpoint the origin of the pandemic to Kinshasa (DRC) around 1906, the introduction of HIV-1 to Angola could have occurred early between the 1910s and 1940s. Furthermore, most of the HIV-1 migrations out of Kinshasa were directed not only to Lubumbashi and Mbuji-Mayi (DRC), but also to Luanda and Brazzaville. Kinshasa census records corroborate these findings, indicating that the early exportation of the virus to Angola might be related to the high number of Angolans in Kinshasa at that time, originated mostly from the North of Angola. In summary, our results place Angola at the epicenter of the early HIV dissemination, together with DRC and RC.info:eu-repo/semantics/publishedVersio

A Comparison Between the Populations of Late Presenters and Non-late Presenters

Funding Information: We want to thank Frank Tang, Bin Lin, Mike Cohen and the rest of the Google speech team for their insightful discussions and inputs. Publisher Copyright: Copyright © 2022 Miranda, Pingarilho, Pimentel, Martins, Kaiser, Seguin-Devaux, Paredes, Zazzi, Incardona and Abecasis.Background: The increased use of antiretroviral therapy (ART) has decreased mortality and morbidity of HIV-1 infected people but increasing levels of HIV drug resistance threatens the success of ART regimens. Conversely, late presentation can impact treatment outcomes, health costs, and potential transmission of HIV. Objective: To describe the patterns of transmitted drug resistance (TDR) and acquired drug resistance (ADR) in HIV-1 infected patients followed in Europe, to compare its patterns in late presenters (LP) vs non-late presenters (NLP), and to analyze the most prevalent drug resistance mutations among HIV-1 subtypes. Methods: Our study included clinical, socio-demographic, and genotypic information from 26,973 HIV-1 infected patients from the EuResist Integrated Database (EIDB) between 1981 and 2019. Results: Among the 26,973 HIV-1 infected patients in the analysis, 11,581 (42.9%) were ART-naïve patients and 15,392 (57.1%) were ART-experienced. The median age was 37 (IQR: 27.0–45.0) years old and 72.6% were males. The main transmission route was through heterosexual contact (34.9%) and 81.7% of patients originated from Western Europe. 71.9% of patients were infected by subtype B and 54.8% of patients were classified as LP. The overall prevalence of TDR was 12.8% and presented an overall decreasing trend (p for trend < 0.001), the ADR prevalence was 68.5% also with a decreasing trend (p for trend < 0.001). For LP and NLP, the TDR prevalence was 12.3 and 12.6%, respectively, while for ADR, 69.9 and 68.2%, respectively. The most prevalent TDR drug resistance mutations, in both LP and NLP, were K103N/S, T215rev, T215FY, M184I/V, M41I/L, M46I/L, and L90M. Conclusion: Our study showed that the overall TDR (12.8%) and ADR (68.5%) presented decreasing trends during the study time period. For LP, the overall TDR was slightly lower than for NLP (12.3 vs 12.6%, respectively); while this pattern was opposite for ADR (LP slightly higher than NLP). We suggest that these differences, in the case of TDR, can be related to the dynamics of fixation of drug resistance mutations; and in the case of ADR with the more frequent therapeutic failure in LPs.publishersversionpublishe