Difference between revisions of "Equine Encephalitis Virus"
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*Western EEV: ''Culex tarsalis'' | *Western EEV: ''Culex tarsalis'' | ||
*Venezuelan EEV: ''Culex melanconium'', ''Aedes'' spp., ''Phosphora'' spp. | *Venezuelan EEV: ''Culex melanconium'', ''Aedes'' spp., ''Phosphora'' spp. | ||
− | ''Culiseta melanura'' is | + | ''Culiseta melanura'' is another vector for Eastern EEV. It feeds mostly on swamp birds, completing an enzootic cycle of viral transmission. ''C.melanura'' is thus an inhabitant of freshwater swamps and is not usually found in areas densely populated by equids. ''Aedes'' spp. are more important in epizootics and epidemics. Culex tarsalis is the primary vector that maintains WEE virus in an enzootic cycle with passerine birds. Dermacentor andersoni ticks, Triatoma sanguisuga (assassin bug), and the cliff swallow bug (Oeciacus vicarius) may also be involved as vectors or overwintering reservoirs fro WEE. Several species of mosquitoes from at least 11 geerna have been determined ot be naturally infected with epidemic strains of VEE virus. Ticks may also be capable of viral trasnmission. |
Vectors transmit viral particles between sylvatic hosts when takin ga blood meal. If the virus can peentrate the gut of the vector, then it may pass throhg the haemolymph to the oral glands, multiply and subsequntrly be shed in the saliva and other oral secretions. If th eblood meal octnains adequate numbers of viral particles, multiplication may not be rrequired for transmission. It is likely tha the mosquito remians infected for life. | Vectors transmit viral particles between sylvatic hosts when takin ga blood meal. If the virus can peentrate the gut of the vector, then it may pass throhg the haemolymph to the oral glands, multiply and subsequntrly be shed in the saliva and other oral secretions. If th eblood meal octnains adequate numbers of viral particles, multiplication may not be rrequired for transmission. It is likely tha the mosquito remians infected for life. | ||
Revision as of 14:39, 7 July 2010
This article is still under construction. |
Family Togaviridae
Small, lipid- and protein-enveloped RNA viruses. The family includes pathogenic arboviruses (insect-borne virsuses) of the Alphavirus genus.
Genus Alphavirus
Single-stranded, linear, positive-sense RNA viruses, 60-70nm in diameter.
Important Serotypes
Several alphavirus strains have been isolated during equine and human epidemics of encephalitis in the Western Hemisphere. These epidemics have most often been attributed to:
Eastern EEV has North and South American antigenic variants. Western EEV is a recombinant between an Eastern EEV-like virus and a Sindbis-like virus. Western EEV also has two antigenic subtypes - WEE and Highlands J viruses. Considerable overlap exists between the various strains in terms of their geography, and potentially also in their antigenic properties and biological behaviour. Of the 6 subtypes of Venezuelan EEV (I-VI), significant outbreaks of equine encephalitis in the Western Hemisphere over the last two decades have been caused by IAB, IC and IE. Variant ID from Central America and variant IF from Brazil are considered endemic and typically demonstrate low pathogenicity for horses. These features are also typical of subtype II (Everglades) virus in Florida and types II, IV, V ad VI viruses.
Diseases
Distribution
Virus distribution is largely dictated by the distribution of appropriate vectors. Thus Eastern EEV can be found in a region extending from eastern Canada at its northern extremity, down throughout the Caribbean and in parts of Central and South America. The virus has also been identifed in the Philippines and may be present in Europe. Over the last two decades, Western EEV has rarely caused disease in the western United States, although it is found here in avian reservoir hosts. As well as producing disease outbreaks in Mexico, Venezuela and colombia, Venezuelan EEV has recently been recognized in Peru, Brazil, French Guiana and Trinidad.
Reservoirs
Togaviridae survive by asymptomatically infecting sylvatic hosts such as birds, small mammals, reptiles and amphibians. Overwintering occurs in these wild populations.
Vectors
The most significant disease vectors for each serotype are:
- Eastern EEV: Aedes spp.
- Western EEV: Culex tarsalis
- Venezuelan EEV: Culex melanconium, Aedes spp., Phosphora spp.
Culiseta melanura is another vector for Eastern EEV. It feeds mostly on swamp birds, completing an enzootic cycle of viral transmission. C.melanura is thus an inhabitant of freshwater swamps and is not usually found in areas densely populated by equids. Aedes spp. are more important in epizootics and epidemics. Culex tarsalis is the primary vector that maintains WEE virus in an enzootic cycle with passerine birds. Dermacentor andersoni ticks, Triatoma sanguisuga (assassin bug), and the cliff swallow bug (Oeciacus vicarius) may also be involved as vectors or overwintering reservoirs fro WEE. Several species of mosquitoes from at least 11 geerna have been determined ot be naturally infected with epidemic strains of VEE virus. Ticks may also be capable of viral trasnmission. Vectors transmit viral particles between sylvatic hosts when takin ga blood meal. If the virus can peentrate the gut of the vector, then it may pass throhg the haemolymph to the oral glands, multiply and subsequntrly be shed in the saliva and other oral secretions. If th eblood meal octnains adequate numbers of viral particles, multiplication may not be rrequired for transmission. It is likely tha the mosquito remians infected for life.