Yellow Fever Virus Maintained by Sabethes Mosquitoes during the Dry Season in Cerrado, a Semiarid Region of Brazil, in 2021

Cirilo H de Oliveira; Miguel S Andrade; Fabrício S Campos; Jader da C Cardoso; Maria Eduarda Gonçalves-Dos-Santos; Ramon Silva Oliveira; Sandy Micaele Aquino-Teixeira; Aline As Campos; Marco Ab Almeida; Danilo Simonini-Teixeira; Anaiá da P Sevá; Andrea Oliveira Dias Temponi; Fernando Maria Magalhães; Agna Soares da Silva Menezes; Bartolomeu Teixeira Lopes; Hermes P Almeida; Ana Lúcia Pedroso; Giovani Pontel Gonçalves; Danielle Costa Capistrano Chaves; Givaldo Gomes de Menezes; Sofía Bernal-Valle; Nicolas Fd Müller; Luis Janssen; Edmilson Dos Santos; Maria A Mares-Guia; George R Albuquerque; Alessandro Pm Romano; Ana C Franco; Bergmann M Ribeiro; Paulo M Roehe; Ricardo Lourenço-de-Oliveira; Filipe Vieira Santos de Abreu

doi:10.3390/v15030757

Yellow Fever Virus Maintained by Sabethes Mosquitoes during the Dry Season in Cerrado, a Semiarid Region of Brazil, in 2021

Viruses. 2023 Mar 15;15(3):757. doi: 10.3390/v15030757.

Authors

Cirilo H de Oliveira¹, Miguel S Andrade^{2

3}, Fabrício S Campos^{4

5}, Jader da C Cardoso⁶, Maria Eduarda Gonçalves-Dos-Santos¹, Ramon Silva Oliveira¹, Sandy Micaele Aquino-Teixeira¹, Aline As Campos⁶, Marco Ab Almeida⁷, Danilo Simonini-Teixeira⁸, Anaiá da P Sevá⁸, Andrea Oliveira Dias Temponi⁹, Fernando Maria Magalhães⁹, Agna Soares da Silva Menezes⁹, Bartolomeu Teixeira Lopes⁹, Hermes P Almeida⁹, Ana Lúcia Pedroso⁹, Giovani Pontel Gonçalves⁹, Danielle Costa Capistrano Chaves⁹, Givaldo Gomes de Menezes⁹, Sofía Bernal-Valle⁸, Nicolas Fd Müller⁵, Luis Janssen², Edmilson Dos Santos⁶, Maria A Mares-Guia¹⁰, George R Albuquerque⁸, Alessandro Pm Romano¹¹, Ana C Franco⁵, Bergmann M Ribeiro², Paulo M Roehe⁵, Ricardo Lourenço-de-Oliveira¹², Filipe Vieira Santos de Abreu¹

Affiliations

¹ Insect Behavior Laboratory, Federal Institute of Northern Minas Gerais, Salinas 39560-000, MG, Brazil.
² Baculovirus Laboratory, Department of Cell Biology, Institute of Biological Sciences, University of Brasilia, Brasília 70910-900, DF, Brazil.
³ Department of Molecular Biology, Sabin Diagnóstico e Saúde, Brasília 70632-340, DF, Brazil.
⁴ Bioinformatics and Biotechnology Laboratory, Campus of Gurupi, Federal University of Tocantins, Gurupi 77410-570, TO, Brazil.
⁵ Institute of Basic Health Sciences, Federal University of Rio Grande do Sul, Porto Alegre 90035-003, RS, Brazil.
⁶ State Center of Health Surveillance, Rio Grande do Sul State Health Department, Porto Alegre 90610-000, RS, Brazil.
⁷ Pan American Health Organization, World Health Organization Office in Brazil, Brasília 70800-400, DF, Brazil.
⁸ Department of Agricultural and Environmental Sciences, Santa Cruz State University, Ilhéus 45662-900, BA, Brazil.
⁹ Health Department of the State of Minas Gerais, State Coordination for Arbovirus Surveillance, Belo Horizonte 31630-901, MG, Brazil.
¹⁰ Flavivirus Laboratory, Instituto Oswaldo Cruz, Fiocruz, Rio de Janeiro 21040-360, RJ, Brazil.
¹¹ General Coordination of Arbovirus Surveillance, Ministry of Health, Brasília 70058-900, DF, Brazil.
¹² Laboratório de Mosquitos Transmissores de Hematozoários, Instituto Oswaldo Cruz, Fiocruz, Rio de Janeiro 21040-360, RJ, Brazil.

Abstract

In recent decades, waves of yellow fever virus (YFV) from the Amazon Rainforest have spread and caused outbreaks in other regions of Brazil, including the Cerrado, a savannah-like biome through which YFV usually moves before arriving at the Atlantic Forest. To identify the vectors involved in the maintenance of the virus in semiarid environments, an entomological survey was conducted after confirmation of yellow fever (YF) epizootics at the peak of the dry season in the Cerrado areas of the state of Minas Gerais. In total, 917 mosquitoes from 13 taxa were collected and tested for the presence of YFV. Interestingly, mosquitoes of the Sabethes genus represented 95% of the diurnal captured specimens, displaying a peak of biting activity never previously recorded, between 4:30 and 5:30 p.m. Molecular analysis identified three YFV-positive pools, two from Sabethes chloropterus-from which near-complete genomes were generated-and one from Sa. albiprivus, whose low viral load prevented sequencing. Sa. chloropterus was considered the primary vector due to the high number of copies of YFV RNA and the high relative abundance detected. Its bionomic characteristics allow its survival in dry places and dry time periods. For the first time in Brazil, Sa. albiprivus was found to be naturally infected with YFV and may have played a role as a secondary vector. Despite its high relative abundance, fewer copies of viral RNA were found, as well as a lower Minimum Infection Rate (MIR). Genomic and phylogeographic analysis showed that the virus clustered in the sub-lineage YFV_PA-MG, which circulated in Pará in 2017 and then spread into other regions of the country. The results reported here contribute to the understanding of the epidemiology and mechanisms of YFV dispersion and maintenance, especially in adverse weather conditions. The intense viral circulation, even outside the seasonal period, increases the importance of surveillance and YFV vaccination to protect human populations in affected areas.

Keywords: Arbovirus; Cerrado; MinION; Sabethini; genomic surveillance; mosquito vector.

Publication types

Research Support, Non-U.S. Gov't

MeSH terms

Animals
Brazil / epidemiology
Culicidae*
Humans
Mosquito Vectors
Seasons
Yellow fever virus* / genetics

Grants and funding

001/WHO_/World Health Organization/International