West Nile Virus
  The Bug | Disease | Prevention | Links     

The Bug


What is it?

The West Nile virus is an arbovirus (arthropod-borne virus). It is transmitted between susceptible hosts via blood-feeding insect (arthropod) vectors such as ticks and mosquitoes. Like all viruses, the West Nile virus requires a living host in order to replicate. The primary hosts of the West Nile virus are wild birds.

The virus isolated in New York, although similar, is not genetically identical to the West Nile virus commonly seen in Asia, Africa and parts of Europe, and has thus be termed the “West Nile-like” virus. Genetic analyses are currently underway to determine whether the virus responsible for the New York outbreak is a subtype of the West Nile virus.

Taxonomy: The West Nile virus belongs to the Flaviviridae virus family and the genus Flavivirus , which also includes Japanese encephalitis, Murray Valley encephalitis, St. Louis encephalitis, Kunjin, Kokobera, Koutango, any many other viruses.

These viruses have a linear, single-stranded, RNA genome, 10000 to 11000 nucleotides long. Virions are spheroidal, enveloped and 40-60nm in diameter. Nucleocapsids are isometric and 25-30nm in diameter.

For more information on Flaviviruses, link to The Big Picture Book of Viruses.



Where is it found?

The first isolate of the West Nile virus came from the blood of a febrile woman in the West Nile district of Uganda in 1937. The virus has subsequently been isolated in Africa, Asia, southern Europe and the former USSR. Encephalitis outbreaks caused by the West Nile virus have occurred in Algeria, Azerbaijan, Central African Republic, Democratic Republic of Congo, Egypt, Ethiopia, India, Madagascar, Nigeria, Pakistan, Senegal, Sudan, and in a few European countries. The most recent outbreak occurred in Bucharest, Romania, in 1996.

The West Nile virus and other arboviral (transmitted by insect vectors) encephalitides are found across the globe. Only four viruses, however, have been known to cause encephalitis in the USA: eastern equine encephalitis (EEE), western equine encephalitis (WEE), St. Louis encephalitis (SLE) and LaCrosse (LAC) encephalitis. All of these viruses are transmitted by mosquitoes during the summer months (June-September).

Until the New York city outbreak, the West Nile virus had never been found in the Western Hemisphere before. It is unclear how the virus arrived in the U.S.



How is it transmitted?

The West Nile virus is an arborvirus (arthropod-borne virus), transmitted between hosts via a blood-feeding insect (called the virus vector). The primary hosts of the West Nile virus are wild birds, and the primary vectors are bird-feeding mosquitoes, mainly of the Culex species. These organisms are vital for the virus’ transmission cycle: birds provide an environment in which the virus can replicate at high levels – high enough that blood picked up by mosquitoes contains virus particles. The mosquitoes are needed for the spread of the virus particles to new hosts.

In some cases, animals other than the primary hosts may become infected with the virus. The West Nile virus, for example, can also infect humans. These alternative hosts are often referred to as “dead end” hosts, as they are not part of the virus’ normal transmission cycle. These organisms do not usually produce enough virus particles to allow them to become a reservoir for the virus. The infection thus reaches a dead end in this host.

Mosquitoes are usually the primary vectors for transmission of the West Nile virus. In Africa and Asia, however, ticks have been found carrying the virus.

West Nile virus is only spread via its insect vector; it is NOT transmitted person-to-person or bird-to-person.

In warmer climates, the virus can be found year-round. In temperate climates, the virus usually occurs in late summer or early fall (ie – in peak mosquito season). It is not known how the virus returns at the end of the cold season, although there are a few theories:

The virus may:

  • survive in hibernating Culex mosquitoes
  • be transmitted to offspring by infected female Culex mosquitoes
  • establish a chronic infection in its hosts
  • get reintroduced each spring by chronically infected migratory birds.




What disease(s) does it cause?

West Nile virus causes viral encephalitis; an infection of the central nervous system (CNS) which involves inflammation of the brain.

West Nile virus causes an infection similar to the St. Louis encephalitis, but with milder symptoms. In most cases, the infection is asymptomatic or causes mild flu-like symptoms.



Who/what is at risk of infection?

In general, wild birds are the primary hosts of the West Nile virus. Birds do not normally show any signs of infection – they merely act as a reservoir for virus replication. On occasion, however, humans can also become infected with the virus. Any person living in an area where there are infected (virus-carrying) mosquitoes are at risk of getting bitten. However, not everyone who is bitten by an infected mosquito will develop West Nile encephalitis. In fact, most cases are very mild; with flu-like symptoms or no symptoms at all.

At risk are:

  • the very young
  • individuals >50 years of age
  • individuals with weakened immune systems
  • individuals with other medical conditions, including diabetes, heart disease, or individuals on dialysis.


©Copyright 1999 Microbiology Department, Mount Sinai Hospital, Toronto, ON, Canada.
All rights reserved. Last Modified
 

© Copyright 1999-2007 Department of Microbiology, Mount Sinai Hospital, Toronto, Canada. All rights reserved.