Tai Forest ebolavirus has been seen in a single human infection due to contact with chimpanzees from the Tai Forest in Côte d'Ivoire.[2]
Nomenclature
The name Taï Forest ebolavirus is derived from Parc National de Taï (the name of a national park in Côte d'Ivoire, where Taï Forest virus was first discovered) and the taxonomicsuffixebolavirus (which denotes an ebolavirus species).[1] According to the rules for taxon naming established by the International Committee on Taxonomy of Viruses (ICTV), the name Taï Forest ebolavirus is always to be capitalized, italicized, never abbreviated, and to be preceded by the word "species". The names of its members (Taï Forest ebolaviruses) are to be capitalized, are not italicized, and used without articles.[1]
The species was introduced in 1998 as Cote d'Ivoire Ebola virus.[3][4] In 2002, the name was changed to Cote d'Ivoire ebolavirus.[5][6] The name was proposed to be changed to Taï Forest ebolavirus in 2010,[1] and this proposal was immediately accepted by the ICTV.[citation needed]
A virus of the genus Ebolavirus is a member of the species Taï Forest ebolavirus if:[1]
it is endemic in Côte d'Ivoire
it has a genome with three gene overlaps (VP35/VP40, GP/VP30, VP24/L)
it has a genomic sequence different from Ebola virus by ≥30% but different from that of Taï Forest virus by <30%.
Taï Forest virus was first introduced as a new "strain" of Ebola virus in 1995.[7] In 2000, it received the designation Côte d'Ivoire Ebola virus,[9][10] and in 2002 the name was changed to Côte d'Ivoire ebolavirus.[5][6] (both times misspelling "Côte"). Other names circulating in the literature were the correct Côte d'Ivoire Ebola virus and Côte d'Ivoire ebolavirus, and the jargon terms Ivory Coast Ebola virus and Ivory Coast ebolavirus. Previous abbreviations for the virus were EBOV-CI (for Ebola virus Côte d'Ivoire or Ebola virus Côte d'Ivoire), EBOV-IC (for Ebola virus Ivory Coast), ICEBOV (for Ivory Coast Ebola virus or Ivory Coast ebolavirus) and most recently CIEBOV (for Cote d;Ivoire Ebola virus, Côte d'Ivoire Ebola virus, Côte d'Ivoire ebolavirus or Côte d'Ivoire ebolavirus). The virus received its final designation in 2010, when it was renamed Taï Forest virus (TAFV).[1]
Virus inclusion criteria
A virus of the species Taï Forest ebolavirus is a Taï Forest virus (TAFV) if it has the properties of Taï Forest ebolaviruses and if its genome diverges from that of the prototype Taï Forest virus, Taï Forest virus variant Côte d'Ivoire (TAFV/CI), by ≤10% at the nucleotide level.[1]
Disease
TAFV is one of four ebolaviruses that causes Ebola virus disease (EVD) in humans (in the literature also often referred to as Ebola hemorrhagic fever, EHF). EVD due to TAFV infection cannot be differentiated from EVD caused by other ebolaviruses by clinical observation alone, which is why the clinical presentation and pathology of infections by all ebolaviruses is presented together on a separate page (see Ebola virus disease). TAFV made its first and thus far only known appearance in 1994 during a viral hemorrhagic fever epizootic among western chimpanzees (Pan troglodytes verus) in Taï National Park, Côte d'Ivoire. As more dead western chimpanzees were discovered, many tested positive for infection with an ebolavirus distinct from those already known. One of the scientists performing the necropsies on the infected western chimpanzees contracted TAFV. She developed symptoms similar to those of dengue fever approximately a week after the necropsy, and was transported to Switzerland for treatment. She was discharged from hospital after two weeks and had fully recovered six weeks after the infection.[citation needed]
Ebola virus disease (EVD) outbreaks due to Taï Forest virus (TAFV) infection
The ecology of TAFV is currently unclear and no reservoir host has yet been identified. Therefore, it remains unclear how TAFV was introduced into the western chimpanzee population. Bats are suspected to harbor the virus because infectious Marburg virus (MARV), a distantly related filovirus, has been isolated from bats,[11] and because traces (but no infectious particles) of the more closely related Ebola virus (EBOV) were found in bats as well.[12]
Molecular biology
TAFV is basically uncharacterized on a molecular level. However, its genomic sequence, and with it the genomic organization and the conservation of individual open reading frames, is similar to that of the other four known ebolaviruses. It is therefore currently assumed that the knowledge obtained for EBOV can be extrapolated to TAFV and that all TAFV proteins behave analogous to those of EBOV.[citation needed]
^Netesov, S. V.; Feldmann, H.; Jahrling, P. B.; Klenk, H. D.; Sanchez, A. (2000). "Family Filoviridae". In van Regenmortel, M. H. V.; Fauquet, C. M.; Bishop, D. H. L.; Carstens, E. B.; Estes, M. K.; Lemon, S. M.; Maniloff, J.; Mayo, M. A.; McGeoch, D. J.; Pringle, C. R.; Wickner, R. B. (eds.). Virus Taxonomy—Seventh Report of the International Committee on Taxonomy of Viruses. San Diego, US: Academic Press. pp. 539–48. ISBN978-0-12-370200-5.
^ abFeldmann, H.; Geisbert, T. W.; Jahrling, P. B.; Klenk, H.-D.; Netesov, S. V.; Peters, C. J.; Sanchez, A.; Swanepoel, R.; Volchkov, V. E. (2005). "Family Filoviridae". In Fauquet, C. M.; Mayo, M. A.; Maniloff, J.; Desselberger, U.; Ball, L. A. (eds.). Virus Taxonomy—Eighth Report of the International Committee on Taxonomy of Viruses. San Diego, US: Elsevier/Academic Press. pp. 645–653. ISBN978-0-12-370200-5.
^ able Guenno, B.; Formenty, P.; Wyers, M.; Gounon, P.; Walker, F.; Boesch, C. (1995). "Isolation and partial characterisation of a new strain of Ebola virus". Lancet. 345 (8960): 1271–4. doi:10.1016/S0140-6736(95)90925-7. PMID7746057. S2CID38897209.
^Netesov, S. V.; Feldmann, H.; Jahrling, P. B.; Klenk, H. D.; Sanchez, A. (2000). "Family Filoviridae". In van Regenmortel, M. H. V.; Fauquet, C. M.; Bishop, D. H. L.; Carstens, E. B.; Estes, M. K.; Lemon, S. M.; Maniloff, J.; Mayo, M. A.; McGeoch, D. J.; Pringle, C. R.; Wickner, R. B. (eds.). Virus Taxonomy—Seventh Report of the International Committee on Taxonomy of Viruses. San Diego, USA: Academic Press. pp. 539–48. ISBN978-0-12-370200-5.
^Towner, J. S.; Amman, B. R.; Sealy, T. K.; Carroll, S. A. R.; Comer, J. A.; Kemp, A.; Swanepoel, R.; Paddock, C. D.; Balinandi, S.; Khristova, M. L.; Formenty, P. B.; Albarino, C. G.; Miller, D. M.; Reed, Z. D.; Kayiwa, J. T.; Mills, J. N.; Cannon, D. L.; Greer, P. W.; Byaruhanga, E.; Farnon, E. C.; Atimnedi, P.; Okware, S.; Katongole-Mbidde, E.; Downing, R.; Tappero, J. W.; Zaki, S. R.; Ksiazek, T. G.; Nichol, S. T.; Rollin, P. E. (2009). Fouchier, Ron A. M. (ed.). "Isolation of Genetically Diverse Marburg Viruses from Egyptian Fruit Bats". PLOS Pathogens. 5 (7): e1000536. doi:10.1371/journal.ppat.1000536. PMC2713404. PMID19649327.
^Leroy, E. M.; Kumulungui, B.; Pourrut, X.; Rouquet, P.; Hassanin, A.; Yaba, P.; Délicat, A.; Paweska, J. T.; Gonzalez, J. P.; Swanepoel, R. (2005). "Fruit bats as reservoirs of Ebola virus". Nature. 438 (7068): 575–576. Bibcode:2005Natur.438..575L. doi:10.1038/438575a. PMID16319873. S2CID4403209.