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Alphavirus - Wikipedia AlphavirusFrom Wikipedia, the free encyclopedia  (Redirected from Togaviridae )Not to be confused with alphaherpesvirus .Genus of viruses
Structure and genome of an alphavirus
A computer-generated model of the surface of an "Alphavirus" derived by cryoelectron microscopy. The spike-like structures on the virion surface are trimers composed of heterodimers of the virion surface glycoproteins E1 and E2. These spikes are used by the virus to attach to susceptible animal cells
A computer-generated model of the surface of an Alphavirus derived by cryoelectron microscopy . The spike-like structures on the virion surface are trimers composed of heterodimers of the virion surface Glycoproteins E1 and E2 . These spikes are used by the virus to attach to susceptible animal cells
Virus classification e
(unranked): Virus
Realm : Riboviria
Kingdom: Orthornavirae
Phylum: Kitrinoviricota
Class: Alsuviricetes
Order: Martellivirales
Family: Togaviridae
Genus: Alphavirus
Type species
Sindbis virus

Alphavirus is a genus of RNA viruses , the sole genus in the Togaviridae family. Alphaviruses belong to group IV of the Baltimore classification of viruses , with a positive-sense, single-stranded RNA genome. There are 31 alphaviruses, which infect various vertebrates such as humans, rodents, fish, birds, and larger mammals such as horses, as well as invertebrates . Alphaviruses that could infect both vertebrates and arthropods are referred dual-host alphaviruses, while insect-specific alphaviruses such as Eilat virus and Yada yada virus are restricted to their competent arthropod vector. Transmission between species and individuals occurs mainly via mosquitoes, making the alphaviruses a member of the collection of arboviruses – or arthropod -borne viruses. Alphavirus particles are enveloped, have a 70 nm diameter, tend to be spherical (although slightly pleomorphic ), and have a 40 nm isometric nucleocapsid .

ContentsGenome[ edit ]
PDB 1rer EBI.jpg
Crystal structure of the homotrimer of fusion glycoprotein E1 from Semliki Forest virus
Symbol Alpha_E1_glycop
Pfam PF01589
InterPro IPR002548
OPM superfamily 109
OPM protein 1rer
PDB 1z8y EBI.jpg
Mapping the E2 glycoprotein of alphaviruses
Symbol Alpha_E2_glycop
Pfam PF00943
InterPro IPR000936
OPM superfamily 109
OPM protein 2yew
Symbol Alpha_E3_glycop
Pfam PF01563
InterPro IPR002533
OPM superfamily 109

The alphaviruses are small, spherical, enveloped viruses with a genome of a single strand of positive-sense RNA. The total genome length ranges between 11,000 and 12,000 nucleotides, and has a 5’ cap and a 3’ poly-A tail . The four non-structural protein genes are encoded in the 5′ two-thirds of the genome, while the three structural proteins are translated from a subgenomic mRNA colinear with the 3′ one-third of the genome.

There are two open reading frames (ORFs) in the genome, nonstructural and structural. The first is non-structural and encodes proteins (nsP1–nsP4) necessary for transcription and replication of viral RNA. The second encodes three structural proteins: the core nucleocapsid protein C, and the envelope proteins P62 and E1, which associate as a heterodimer . The viral membrane-anchored surface glycoproteins are responsible for receptor recognition and entry into target cells through membrane fusion .

Structural proteins[ edit ]

The proteolytic maturation of P62 into E2 and E3 causes a change in the viral surface. Together the E1, E2, and sometimes E3, glycoprotein "spikes" form an E1/E2 dimer or an E1/E2/E3 trimer, where E2 extends from the centre to the vertices, E1 fills the space between the vertices, and E3, if present, is at the distal end of the spike. Upon exposure of the virus to the acidity of the endosome , E1 dissociates from E2 to form an E1 homotrimer , which is necessary for the fusion step to drive the cellular and viral membranes together. The alphaviral glycoprotein E1 is a class II viral fusion protein, which is structurally different from the class I fusion proteins found in influenza virus and HIV. The structure of the Semliki Forest virus revealed a structure that is similar to that of flaviviral glycoprotein E, with three structural domains in the same primary sequence arrangement. The E2 glycoprotein functions to interact with the nucleocapsid through its cytoplasmic domain, while its ectodomain is responsible for binding a cellular receptor . Most alphaviruses lose the peripheral protein E3, but in Semliki viruses it remains associated with the viral surface.

Nonstructural proteins[ edit ]

Four nonstructural proteins (nsP1–4) which are produced as a single polyprotein constitute the virus' replication machinery. The processing of the polyprotein occurs in a highly regulated manner, with cleavage at the P2/3 junction influencing RNA template use during genome replication. This site is located at the base of a narrow cleft and is not readily accessible. Once cleaved nsP3 creates a ring structure that encircles nsP2. These two proteins have an extensive interface.

Mutations in nsP2 that produce noncytopathic viruses or a temperature sensitive phenotypes cluster at the P2/P3 interface region. P3 mutations opposite the location of the nsP2 noncytopathic mutations prevent efficient cleavage of P2/3. This in turn affects RNA infectivity altering viral RNA production levels.

Virology[ edit ]

The virus has a 60–70 nanometer diameter. It is enveloped, spherical and has a positive-strand RNA genome of ~12 kilobases. The genome encodes two polyproteins. The first polyprotein consists of four non-structural units: in order from the N terminal to the C terminal - nsP1, nsP2, nsP3, and nsP4. The second is a structural polyprotein composed of five expression units: from the N terminal to the C terminal - Capsid, E3, E2, 6K and E1. A sub genomic positive strand RNA - the 26S RNA - is replicated from a negative-stranded RNA intermediate. This serves as template for the synthesis of viral structural proteins. Most alphaviruses have conserved domains involved in regulation of viral RNA synthesis.

The nucleocapsid, 40 nanometers in diameter, contains 240 copies of the capsid protein and has a T = 4 icosahedral symmetry. The E1 and E2 viral glycoproteins are embedded in the lipid bilayer. Single E1 and E2 molecules associate to form heterodimers. The E1–E2 heterodimers form one-to-one contacts between the E2 protein and the nucleocapsid monomers. The E1 and E2 proteins mediate contact between the virus and the host cell.

Several receptors have been identified. These include prohibitin , phosphatidylserine , glycosaminoglycans and ATP synthase β subunit.

Replication occurs within the cytoplasm and virions mature by budding through the plasma membrane, where virus-encoded surface glycoproteins E2 and E1 are assimilated.

These two glycoproteins are the targets of numerous serologic reactions and tests including neutralization and hemagglutination inhibition. The alphaviruses show various degrees of antigenic cross-reactivity in these reactions and this forms the basis for the seven antigenic complexes, 30 species and many subtypes and varieties. The E2 protein is the site of most neutralizing epitopes, while the E1 protein contains more conserved, cross-reactive epitopes.

Evolution[ edit ]

A study of this taxon suggests that this group of viruses had a marine origin—specifically the Southern Ocean—and that they have subsequently spread to both the Old and New World.

There are three subgroups in this genus: the Semliki Forest virus subgroup (Semliki Forest, O'nyong-nyong and Ross River viruses); the eastern equine encephalitis virus subgroup (eastern equine encephalitis and Venezuelan equine encephalitis viruses) and the Sindbis virus subgroup. Sindbis virus, geographically restricted to the Old World, is more closely related to the eastern equine encephalitis subgroup, which are New World viruses, than it is to the Semliki Forest virus subgroup which is also found in the Old World.

Taxonomy[ edit ]

Group: ssRNA(+)

Family: Togaviridae Genus: Alphavirus Aura virus Barmah Forest virus Bebaru virus Cabassou virus Chikungunya virus Eastern equine encephalitis virus Eilat virus Everglades virus Fort Morgan virus Getah virus Highlands J virus Madariaga virus Mayaro virus Middelburg virus Mosso das Pedras virus Mucambo virus Ndumu virus O'nyong-nyong virus Pixuna virus Rio Negro virus Ross River virus Salmon pancreas disease virus Semliki Forest virus Sindbis virus Southern elephant seal virus Tonate virus Trocara virus Una virus Venezuelan equine encephalitis virus Western equine encephalitis virus Whataroa virus

The seven complexes are:

Barmah Forest virus complex Barmah Forest virus Eastern equine encephalitis complex Eastern equine encephalitis virus (seven antigenic types)Middelburg virus complex Middelburg virus Ndumu virus complex Ndumu virus Semliki Forest virus complex Bebaru virus Chikungunya virus Getah virus Mayaro virus Subtype: Una virus O'nyong'nyong virus Subtype: Igbo-Ora virus Ross River virus Subtype: Sagiyama virus Semliki Forest virus Subtype: Me Tri virusVenezuelan equine encephalitis complexCabassou virus Everglades virus Mosso das Pedras virus Mucambo virus Paramana virusPixuna virus Rio Negro virusTrocara virus Subtype: Bijou Bridge virus Venezuelan equine encephalitis virus Western equine encephalitis complex Aura virus Babanki virus Kyzylagach virus Sindbis virus Ockelbo virus Whataroa virusRecombinants within this complexBuggy Creek virus Fort Morgan virus Highlands J virus Western equine encephalitis virus Unclassified Eilat virus Mwinilunga alphavirusSalmon pancreatic disease virusRainbow trout sleeping disease virusSouthern elephant seal virus Tonate virusCaaingua virusNotes[ edit ]

Barmah Forest virus is related to the Semliki Forest virus. Middelburg virus, although classified as a separate complex, may be a member of the Semliki Forest virus group.

It seems likely that the genus evolved in the Old World from an insect-borne plant virus.

Sindbis virus may have originated in South America. The equine encephalitis viruses and the Sindbis virus are related.

The Old World and New World viruses appears to have diverged between 2000 and 3000 years ago. Divergence between the Venezuelan equine encephalitis virus and the eastern equine virus appears to have been ~1400 years ago.

The fish infecting clade appears to be basal to the other species.

The southern elephant seal virus appears to be related to the Sinbis clade.

Pathogenesis and immune response[ edit ]
Medically important alphaviruses
Virus Human Disease Vertebrate Reservoir Distribution
Barmah Forest virus
  • Fever, malaise, rash,
  • joint pain, muscle tenderness
Humans Australia
Chikungunya virus Rash, arthritis Primates, humans Africa, Latin America, India , SE Asia
Eastern equine encephalitis virus Encephalitis Birds Americas
Mayaro virus Rash, arthritis Primates, humans South America
O'nyong'nyong virus Rash, arthritis Primates , Humans Africa
Ross River virus Rash, arthritis Mammals, humans Australia, South Pacific
Semliki Forest virus Rash, arthritis Birds Africa
Sindbis virus Rash, arthritis Birds Europe , Africa , Australia
Tonate virus Encephalitis Humans South America
Una virus Rash, arthritis Primates, humans South America
Venezuelan equine encephalitis virus Encephalitis Rodents , horses Americas
Western equine encephalitis virus Encephalitis Birds, mammals North America

There are many alphaviruses distributed around the world with the ability to cause human disease. Infectious arthritis , encephalitis , rashes and fever are the most commonly observed symptoms. Larger mammals such as humans and horses are usually dead-end hosts or play a minor role in viral transmission; however, in the case of Venezuelan equine encephalitis the virus is mainly amplified in horses. In most other cases the virus is maintained in nature in mosquitoes, rodents and birds.

Alphavirus infections are spread by insect vectors such as mosquitoes. Once a human is bitten by the infected mosquito, the virus can gain entry into the bloodstream, causing viremia . The alphavirus can also get into the CNS where it is able to grow and multiply within the neurones. This can lead to encephalitis , which can be fatal.

When an individual is infected with this particular virus, its immune system can play a role in clearing away the virus particles. Alphaviruses are able to cause the production of interferons . Antibodies and T cells are also involved. The neutralizing antibodies also play an important role to prevent further infection and spread.

Diagnosis, prevention, and control[ edit ]

Diagnoses is based on clinical samples from which the virus can be easily isolated and identified. There are no alphavirus vaccines currently available. Vector control with repellents, protective clothing, breeding site destruction, and spraying are the preventive measures of choice.

Research[ edit ]

Alphaviruses are of interest to gene therapy researchers, in particular the Ross River virus, Sindbis virus , Semliki Forest virus , and Venezuelan equine encephalitis virus have all been used to develop viral vectors for gene delivery. Of particular interest are the chimeric viruses that may be formed with alphaviral envelopes and retroviral capsids. Such chimeras are termed pseudotyped viruses. Alphaviral envelope pseudotypes of retroviruses or lentiviruses are able to integrate the genes that they carry into the expansive range of potential host cells that are recognized and infected by the alphaviral envelope proteins E2 and E1. The stable integration of viral genes is mediated by the retroviral interiors of these vectors. There are limitations to the use of alphaviruses in the field of gene therapy due to their lack of targeting, however, through the introduction of variable antibody domains in a non-conserved loop in the structure of E2, specific populations of cells have been targeted. Furthermore, the use of whole alphaviruses for gene therapy is of limited efficacy both because several internal alphaviral proteins are involved in the induction of apoptosis upon infection and also because the alphaviral capsid mediates only the transient introduction of mRNA into host cells. Neither of these limitations extend to alphaviral envelope pseudotypes of retroviruses or lentiviruses. However, the expression of Sindbis virus envelopes may lead to apoptosis, and their introduction into host cells upon infection by Sindbis virus envelope pseudotyped retroviruses may also lead to cell death. The toxicity of Sindbis viral envelopes may be the cause of the very low production titers realized from packaging cells constructed to produce Sindbis pseudotypes. Another branch of research involving alphaviruses is in vaccination. Alphaviruses are apt to be engineered to create replicon vectors which efficiently induce humoral and T-cell immune responses. They could therefore be used to vaccinate against viral, bacterial, protozoan, and tumor antigens.

History[ edit ]

Initially, the Togaviridae family included what are now called the Flaviviruses , within the Alphavirus genus. The flaviviruses were formed into their own family when sufficient differences with the alphaviruses were noted due to the development of sequencing. Rubella virus was formerly included in the family Togaviridae in its own genus Rubivirus , but is now classified in its own family Matonaviridae . Alphavirus is now the sole genus in the family.

1930 – Western equine encephalitis virus is first isolated in the United States (the first alphavirus ever isolated)1933 – Eastern equine encephalitis virus is first isolated in the United States.1938 – Venezuelan equine encephalitis is isolated.1941 – Western equine encephalitis epidemic is seen in the United States. It affects 300,000 horses and 3,336 humans.1941 – Norman Gregg notices large number of children with cataracts following a rubella outbreak. This and other defects are then categorized under the congenital rubella syndrome .1942 – Semliki Forest virus is isolated in Buliyama, Bwamba County, Uganda .1952 – Sindbis virus is isolated in the Sindbis health district, 40 mi (64 km) north of Cairo, Egypt .1959 – Ross River virus is isolated from Aedes vigilax mosquitoes (now known as Ochlerotatus vigilax) which were trapped at the Ross River in Australia.1963 – Ross River virus, which causes epidemic polyarthritis (mostly seen in Australia), is isolated by Doherty and colleagues.1971 – Last epidemic of Venezuelan equine encephalitis is seen in horses in southern Texas .1986 – Barmah Forest virus is identified as causing human disease in Australia.2001 – Scientists solved the crystal structure of the glycoprotein shell of the Semliki Forest virus .2005–2006 – Large epidemic of the chikungunya virus on the island of La Réunion and the surrounding islands in the Indian Ocean 2006 – Major epidemic of the chikungunya virus in India with over 1.5 million cases reportedSee also[ edit ] icon Viruses portal Alphavirus infection Sources[ edit ] "Arboviruses" . Virology-online. "ICTV Sources" . ICTV. Archived from the original on 12 February 2006.Alphavirus vectors: from protein production to gene therapy, C Smerdou & P Liljestrom, Gene Therapy and Regulation Vol 1 No 1 2000 pp. 33–63Rayner JO, Dryga SA, Kamrud KI (2002). "Alphavirus vectors and vaccination". Reviews in Medical Virology. 12 (5): 279–96. doi : 10.1002/rmv.360 . PMID   12211042 . https://web.archive.org/web/20070302184833/http://ep.physoc.org/cgi/content/full/90/1/45 https://www.ncbi.nlm.nih.gov/books/NBK7633/ References[ edit ]Elrefaey AM, Abdelnabi R, Rosales Rosas AL, Wang L, Basu S, Delang L (31 August 2020). "Understanding the Mechanisms Underlying Host Restriction of Insect-Specific Viruses" . Viruses. 12 (9): 964. doi : 10.3390/v12090964 .Chen R, Mukhopadhyay S, Merits A, Bolling B, Nasar F, Coffey LL, et al. (June 2018). "ICTV Virus Taxonomy Profile: Togaviridae" . The Journal of General Virology. 99 (6): 761–762. doi : 10.1099/jgv.0.001072 . PMID   29745869 .Vénien-Bryan C, Fuller SD (February 1994). "The organization of the spike complex of Semliki Forest virus". J. Mol. Biol. 236 (2): 572–83. doi : 10.1006/jmbi.1994.1166 . PMID   8107141 .Lescar J, Roussel A, Wien MW, Navaza J, Fuller SD, Wengler G, Wengler G, Rey FA (April 2001). "The Fusion glycoprotein shell of Semliki Forest virus: an icosahedral assembly primed for fusogenic activation at endosomal pH". Cell. 105 (1): 137–48. doi : 10.1016/S0092-8674(01)00303-8 . PMID   11301009 .Shin G, Yost SA, Miller MT, Elrod EJ, Grakoui A, Marcotrigiano J (2012) Structural and functional insights into alphavirus polyprotein processing and pathogenesis. Proc Natl Acad Sci USAForrester NL, Palacios G, Tesh RB, Savji N, Guzman H, Sherman M, Weaver SC, Lipkin WI (December 2011). "Genome scale phylogeny of the Alphavirus genus suggests a marine origin" . J Virol. 86 (5): 2729–38. doi : 10.1128/JVI.05591-11 . PMC   3302268 . PMID   22190718 .Levinson RS, Strauss JH, Strauss EG (1990). "Complete sequence of the genomic RNA of O'nyong-nyong virus and its use in the construction of alphavirus phylogenetic trees". Virology. 175 (1): 110–123. doi : 10.1016/0042-6822(90)90191-s . "ICTV Report Togaviridae" .Tschá MK, Suzukawa AA, Gräf T, Piancini LD, da Silva AM, Faoro H, et al. (2019). "Identification of a novel alphavirus related to the encephalitis complexes circulating in southern Brazil" . Emerging Microbes & Infections. 8 (1): 920–933. doi : 10.1080/22221751.2019.1632152 . PMID   31237479 .Powers AM, Brault AC, Shirako Y, Strauss EG, Kang W, Strauss JH, Weaver SC (November 2001). "Evolutionary relationships and systematics of the alphaviruses" . J. Virol. 75 (21): 10118–31. doi : 10.1128/JVI.75.21.10118-10131.2001 . PMC   114586 . PMID   11581380 .Lundström JO, Pfeffer M (November 2010). "Phylogeographic structure and evolutionary history of Sindbis virus". Vector Borne Zoonotic Dis. 10 (9): 889–907. doi : 10.1089/vbz.2009.0069 . PMID   20420530 .Weaver SC, Hagenbaugh A, Bellew LA, Netesov SV, Volchkov VE, Chang GJ, Clarke DK, Gousset L, Scott TW, Trent DW (November 1993). "A comparison of the nucleotide sequences of eastern and western equine encephalomyelitis viruses with those of other alphaviruses and related RNA viruses". Virology. 197 (1): 375–90. doi : 10.1006/viro.1993.1599 . PMID   8105605 .Weaver SC, Rico-Hesse R, Scott TW (1992). "Genetic diversity and slow rates of evolution in New World alphaviruses". Curr. Top. Microbiol. Immunol. 176: 99–117. PMID   1318187 . "Togaviridae" . stanford.edu. "ICTV Taxonomy List" . Retrieved 5 May 2020. "Aedes vigilax" . NSW Arbovirus Surveillance & Vector Monitoring Program. The New South Wales Arbovirus Surveillance and Mosquito Monitoring Program. Retrieved 5 June 2010. Note that 'Ochlerotatus vigilax' prior to 2000, was known as 'Aedes vigilax'Doherty RL, Carley JG, Best JC (May 1972). "Isolation of Ross River virus from man". The Medical Journal of Australia. 1 (21): 1083–4. PMID   5040017 .Calisher CH (January 1994). "Medically important arboviruses of the United States and Canada" . Clinical Microbiology Reviews. 7 (1): 89–116. doi : 10.1128/CMR.7.1.89 . PMC   358307 . PMID   8118792 .Boughton CR, Hawkes RA, Naim HM (February 1988). "Illness caused by a Barmah Forest-like virus in New South Wales". The Medical Journal of Australia. 148 (3): 146–7. PMID   2828896 .Tsetsarkin K, Higgs S, McGee CE, De Lamballerie X, Charrel RN, Vanlandingham DL (2006). "Infectious clones of Chikungunya virus (La Réunion isolate) for vector competence studies". Vector Borne and Zoonotic Diseases. 6 (4): 325–37. doi : 10.1089/vbz.2006.6.325 . PMID   17187566 .Lahariya C, Pradhan SK (December 2006). "Emergence of chikungunya virus in Indian subcontinent after 32 years: A review". Journal of Vector Borne Diseases. 43 (4): 151–60. PMID   17175699 .External links[ edit ] ICTV Report Togaviridae Viralzone : Alphavirus Virus Pathogen Database and Analysis Resource (ViPR): Togaviridae This article incorporates text from the public domain Pfam and InterPro : IPR000936 This article incorporates text from the public domain Pfam and InterPro : IPR002533 This article incorporates text from the public domain Pfam and InterPro : IPR002548 Retrieved from " https://en.wikipedia.org/w/index.php?title=Alphavirus&oldid=978395393 " Categories : Togaviruses Alphaviruses Virus genera Hidden categories: Articles with short description Short description matches Wikidata Use dmy dates from April 2017 Articles with 'species' microformats Protein pages needing a picture Navigation menuPersonal toolsNot logged in Talk Contributions Create account Log in Namespaces Article Talk VariantsViews Read Edit View history MoreSearch
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