Projeto Quantizika Humano-UFG / Human Quantizika Project-UFG

O projeto QUANTIZIKA HUMANO, desenvolvido por docentes de várias unidades acadêmicas da Universidade Federal de Goiás (UFG), teve início em 2016, quando um grupo de pesquisadores composto por professores das áreas de biologia molecular e genética, epidemiologista e médico sanitarista, selecionaram pacientes que apresentavam sintomas semelhantes a dengue, inicialmente com a finalidade de rastrear aqueles que pudessem apresentar infecção pelo vírus da Zika. Durante o rastreamento molecular, e por meio de técnica própria desenvolvida na pesquisa, foram identificados também casos de infecção pelo vírus Mayaro (FERNANDES, M. 2019).

The QUANTIZIKA HUMANO project, developed by professors from several academic units of the Federal University of Goiás (UFG), began in 2016, when a group of researchers composed of professors from the fields of molecular biology and genetics, epidemiologist and sanitary doctor, selected patients with symptoms similar to dengue, initially with the purpose of tracking those who could present zika virus infection. During molecular screening, and through its own technique developed in the research, cases of Mayaro virus infection were also identified (FERNANDES, M. 2019).

Multiplexed reverse transcription real-time polymerase chain reaction for simultaneous detection of Mayaro, Oropouche, and Oropouche-like viruses

ABSTRACT We describe a sensitive method for simultaneous detection of Oropouche and Oropouche-like viruses carrying the Oropouche S segment, as well as the Mayaro virus, using a multiplexed one-step reverse transcription real-time polymerase chain reaction (RT-qPCR). A chimeric plasmid containing both Mayaro and Oropouche targets was designed and evaluated for the in vitro production of transcribed RNA, which could be easily used as a non-infectious external control. To track false-negative results due to PCR inhibition or equipment malfunction, the MS2 bacteriophage was also included in the multiplex assay as an internal positive control. The specificity of the multiplex assay was evaluated by Primer-Blast analysis against the entire GenBank database, and further against a panel of 17 RNA arboviruses. The results indicated an accurate and highly sensitive assay with amplification efficiency greater than 98% for both targets, and a limit of detection between two and 20 copies per reaction. We believe that the assay described here will provide a tool for Mayaro and Oropouche virus detection, especially in areas where differential diagnosis of Dengue, Zika and Chikungunya viruses should be performed.

Mosquito-transmitted viruses - the great Brazilian challenge

ABSTRACT Arboviruses pose a serious threat to public health worldwide, overloading the healthcare system and causing economic losses. These viruses form a very diverse group, and in Brazil, arboviruses belonging to the families Flaviviridae and Togaviridae are predominant. Unfortunately, the number of arboviruses increases in proportion with factors such as deforestation, poor sanitation, climate changes, and introduction of new viruses like Chikungunya virus and Zika virus. In Brazil, dengue is endemic, along with the presence of other arboviruses. The situation is complicated by the scarcity of diagnostic infrastructure and the absence of approved vaccines for these diseases. Disease control, thus, relies solely on vector control. Therefore, enhanced clinical knowledge and improved general awareness about these arboviruses are indispensable to tackle diagnostic inadequacies.

Mayaro fever in an HIV-infected patient suspected of having Chikungunya fever

Abstract Arboviruses impose a serious threat to public health services. We report a case of a patient returning from a work trip to the Amazon basin with myalgia, arthralgia, fever, and headache. During this travel, the patient visited riverside communities. Both dengue and Chikungunya fevers were first suspected, tested for, and excluded. Mayaro fever was then confirmed by reverse transcription polymerase chain reaction followed by next-generation sequencing and phylogenetic reconstruction. The increased awareness of physicians and consequent detection of Mayaro virus in this case was only possible due a previous surveillance program with specific health personnel training about these neglected arboviruses.

Emerging alphaviruses in the Americas: Chikungunya and Mayaro

Chikungunya virus (CHIKV) and Mayaro virus (MAYV) are emergent arthropod-borne viruses that produce outbreaks of acute febrile illness with arthropathy. Despite their different continental origins, CHIKV and MAYV are closely related and are components of the Semliki Forest Complex of the Alphavirus (Togaviridae). MAYV and, more recently, CHIKV, which are both transmitted by Aedes mosquitoes, have resulted in severe public health problems in the Americas, including Brazil. In this review, we present aspects of the pathogenesis, clinical presentation and treatment of febrile illnesses produced by CHIKV and MAYV. We also discuss the epidemiological aspects and effects related to the prophylaxis of infections by both viruses.

Mayaro virus: imported cases of human infection in São Paulo State, Brazil

Mayaro virus (MAYV) is an arbovirus (Togaviridae: Alphavirus) enzootic in tropical South America and maintained in a sylvan cycle involving wild vertebrates and Haemagogus mosquitoes. MAYV cases occur sporadically in persons with a history of recent activities inside or around forests. This paper reports three cases of MAYV fever detected in men infected in Camapuã, MS, Brazil. Serum samples collected at four days and two months after the onset of the symptoms and examined by hemagglutination inhibition test, revealed monotypic seroconversion to MAYV. Isolation of the virus was obtained from one of the samples by inoculation of the first blood samples into newborn mice. A suspension of the infected mouse brain was inoculated into C6/36 cells culture and the virus was identified by indirect immunofluorescent assay with alphavirus polyclonal antibodies. RT-PCR, performed with RNA extracted from the supernatant of C6/36 infected cells in the presence of alphavirus generic primers as well as specific MAYV primers, confirmed these results. The reported cases illustrate the importance of laboratory confirmation in establishing a correct diagnosis. Clinical symptoms are not always indicative of a disease caused by an arbovirus. Also MAYV causes febrile illness, which may be mistaken for dengue.

O vírus Mayaro (MAYV) é um arbovírus do gênero Alphavirus, família Togaviridae, enzoótico na América do Sul, sendo mantido em ciclo silvestre envolvendo vertebrados e mosquitos Haemagogus. Casos de MAYV são esporádicos e ocorrem em pessoas com história de recentes atividades dentro ou próximo a florestas. Este artigo relata infecção por MAYV detectada em três pacientes, infectados em Camapuã, MS, Brasil. Amostras de sangue, coletadas no 4° dia e no 2° mês após o início dos sintomas, foram usadas para teste de inibição da hemaglutinação, que revelou soroconversão monotípica para MAYV. O isolamento do vírus foi obtido somente de uma das amostras, por inoculação em camundongos lactentes. Suspensão de cérebro de camundongo infectado foi inoculada em cultura de células C6/36 e o vírus foi identificado por imunofluorescência indireta com anticorpos policlonais para alphavirus. RT-PCR realizado com RNA extraído do sobrenadante de células C6/36 infectadas, na presença de "primers" genéricos para alphavirus assim como "primers" para MAYV, confirmou os resultados. Os casos relatados ilustram a importância da confirmação laboratorial em estabelecer um diagnóstico correto. Os sintomas clínicos não são sempre indicativos de uma doença causada por arbovírus. MAYV causa doença febril, que pode ser confundida com dengue.