Oropouche orthobunyavirus

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Oropouche orthobunyavirus (OROV) is one of the most common orthobunyaviruses. When OROV infects humans, it causes a rapid fever illness called Oropouche fever. OROV was originally reported in Trinidad and Tobago in 1955 from the blood sample of a fever patient and from a pool of Coquillettidia venezuelensis mosquitoes.[1] In 1960, OROV was isolated from a sloth (Bradypus tridactylus) and a pool of Ochlerotatus serratus mosquitoes in Brazil.[2] The virus is considered a public health threat in tropical and subtropical areas of Central and South America, with over half a million infected people as of 2005.[3] OROV is considered to be an arbovirus due to the method of transmission by the mosquitoes Aedes serratus and Culex quinquefasciatus among sloths, marsupials, primates, and birds.

Oropouche orthobunyavirus
Virus classification Edit this classification
(unranked): Virus
Realm: Riboviria
Kingdom: Orthornavirae
Phylum: Negarnaviricota
Class: Ellioviricetes
Order: Bunyavirales
Family: Peribunyaviridae
Genus: Orthobunyavirus
Species:
Oropouche orthobunyavirus

Epidemic sites

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The virus causes Oropouche fever, an urban arboviral disease that has since resulted in >30 epidemics during 1960–2009.[4] Between 1961 and 1980, OROV was reported in the northern state of Pará, Brazil, and from 1980 to 2004, OROV had spread to the Amazonas, Amapá, Acre, Rondônia, Tocantins, and Maranhão.[3]

Virology

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OROV belongs to the Peribunyaviridae family of arboviruses.[5] OROV is a single-stranded, negative sense RNA virus.[6][7] There are no specific ultrastructural studies of the oropouche virus in human tissues that have been recorded to this date.[5] It is likely that this virus shares similar morphological characteristics with other members of the Orthobunyavirus genus.[5] Members of the Orthobunyavirus genus have a three part, single-stranded, negative sense RNA genome of small (S), medium (M) and large (L) RNA segments.[8] These segments function to encode nucleocapsids, glycoproteins and the RNA polymerase in that sequential order.[5] Through phylogenetic analysis of nucleocapsid genes in different oropouche virus strains, it has been revealed that there are three unique genotypes (I, II, III) which have been spreading through Central and South America.[5]

Genomic reassortment

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Reassortment is said to be one of the most important mechanisms in explaining the viral biodiversity in orthobunyaviruses.[5] This occurs when two genetically related viruses infect the same cell at the same time forming a progeny virus and this virus holds various components of genetic L, M and S segments from the two parental viruses.[5] In reassortment, the S and L segments are usually exchanged between species further, the S segment, that is coded by the nucleocapsid protein, and the L polymerase function together to create a replication of the viral genome. Hence, one segment will restrict the molecular evolution of another segment and this is said to be inherited as a pair.[5] On the contrary, the M segment codes for viral glycoproteins and these could be more prone to mutations due to a higher selective pressure in their coding region because these proteins are major host range determinants.[5]

Genotypes

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As of 2011, based on the small segment (SRNA) genetic information, there were 4 major genotypes (I–IV) of OROV. Genotype I was isolated from strains in Acre, Amazonas, Maranhão, Tocantins, Pará, Trinidad, and Tobago. Genotype II was obtained during the spread in Amapá, Pará, Rondônia, and Peru. Genotype III was isolated from samples in Acre, Minas Gerais, Panama, and Rondônia. The final genotype IV was isolated from Amazonas.[2]

Transmission and dispersion

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OROV is considered to be an arbovirus due to the method of transmission by the mosquitoes Aedes serratus and Culex quinquefasciatus among sloths, marsupials, primates, and birds.[9]

A possible dispersal could be predicted for the four genotypes based on time-scaled analysis and epidemiologic data association. Genotype I possibly dispersed towards western Pará, Trinidad, and Tobago. Afterwards, genotype I progressed towards Amazonas, Acre, Maranhão, and Tocantins. Genotype II possibly emerged in Amapá, Pará, Rondônia, and Peru at the same time. Genotype III emerged in Rondônia, moved towards Panama, Acre, and Maranhão. From Maranhão, the genotype progressed towards Minas Gerais. Finally, genotype IV emerged from the city of Manaus and Amazonas.[4]

Experimentation and research

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OROV has been used extensively in testing with HeLa cells to study how it induces apoptosis. It was found that OROV causes apoptosis by DNA fragmentation. In UV-inactivated OROV, virus-receptor binding was not enough and that viral uncoating and replication were needed to induce apoptosis.[10]

References

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  1. ^ https://www.researchsquare.com/article/rs-5098470/v1
  2. ^ a b Vasconcelos, Helena Baldez; Nunes, Márcio R.T.; Casseb, Lívia M.N.; Carvalho, Valéria L.; Pinto da Silva, Eliana V.; Silva, Mayra; Casseb, Samir M.M.; Vasconcelos, Pedro F.C. (2011). "Molecular Epidemiology of Oropouche Virus, Brazil". Emerging Infectious Diseases. 17 (5): 800–806. doi:10.3201/eid1705.101333. ISSN 1080-6040. PMC 3321770. PMID 21529387.
  3. ^ a b Nunes, Marcio Roberto Teixeira; et al. (2005). "Oropouche virus isolation, southeast Brazil". Emerging Infectious Diseases. 11 (10): 1610–1613. doi:10.3201/eid1110.050464. PMC 3366749. PMID 16318707.
  4. ^ a b Vasconcelos, Helena Baldez; Nunes, Márcio R.T.; Casseb, Lívia M.N.; Carvalho, Valéria L.; Pinto Da Silva, Eliana V.; Silva, Mayra; Casseb, Samir M.M.; Vasconcelos, Pedro F.C. (2011). "Molecular Epidemiology of Oropouche Virus, Brazil". Emerging Infectious Diseases. 17 (5): 800–806. doi:10.3201/eid1705.101333. PMC 3321770. PMID 21529387. Retrieved 2013-04-08.
  5. ^ a b c d e f g h i Travassos da Rosa, Jorge Fernando; de Souza, William Marciel; Pinheiro, Francisco de Paula; Figueiredo, Mário Luiz; Cardoso, Jedson Ferreira; Acrani, Gustavo Olszanski; Nunes, Márcio Roberto Teixeira (2017-05-03). "Oropouche Virus: Clinical, Epidemiological, and Molecular Aspects of a Neglected Orthobunyavirus". The American Journal of Tropical Medicine and Hygiene. 96 (5): 1019–1030. doi:10.4269/ajtmh.16-0672. ISSN 0002-9637. PMC 5417190. PMID 28167595.
  6. ^ https://www.researchsquare.com/article/rs-5098470/v1
  7. ^ Vasconcelos, Helena B.; Azevedo, Raimunda S. S.; Casseb, Samir M.; Nunes-Neto, Joaquim P.; Chiang, Jannifer O.; Cantuária, Patrick C.; Segura, Maria N. O.; Martins, Lívia C.; Monteiro, Hamilton A. O. (2009-02-01). "Oropouche fever epidemic in Northern Brazil: Epidemiology and molecular characterization of isolates". Journal of Clinical Virology. 44 (2): 129–133. doi:10.1016/j.jcv.2008.11.006. ISSN 1386-6532. PMID 19117799.
  8. ^ https://www.researchsquare.com/article/rs-5098470/v1
  9. ^ Mourao, Maria Paula G.; et al. (2009). "Oropouche Fever Outbreak, Manaus, Brazil, 2007–2008". Emerging Infectious Diseases. 15 (12): 2063–2064. doi:10.3201/eid1512.090917. PMC 3044544. PMID 19961705.
  10. ^ Acrani, Gustavo Olszanski; Gomes, Rogério; Proença-Módena, José Luiz; da Silva, Andrei Furlan; Oliveira Carminati, Patricia; Silva, Maria Lucia; Santos, Rodrigo Ivo Marques; Arruda, Eurico (2010). "Apoptosis induced by Oropouche virus infection in HeLa cells is dependent on virus protein expression". Virus Research. 149 (1): 56–63. doi:10.1016/j.virusres.2009.12.013. ISSN 0168-1702. PMID 20080135.