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Arenavirus | |
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Lassa virus virions | |
Virus classification | |
Group: | Group V ((-)ssRNA) |
Order: | Unassigned |
Family: | Arenaviridae |
Genus: | Arenavirus |
Type species | |
Lymphocytic choriomeningitis virus |
Arenavirus is a genus of virus that infects rodents and occasionally humans. At least eight Arenaviruses are known to cause human disease. The diseases derived from Arenaviruses range in severity. Aseptic meningitis, a severe human disease that causes inflammation covering the brain and spinal cord, can arise from the Lymphocytic choriomeningitis virus (LCMV) infection. Hemorrhagic fever syndromes are derived from infections such Guanarito virus (GTOV), Junin virus (JUNV), Lassa virus (LASV), Lujo virus (LUJV),[1] Machupo virus (MACV), Sabia virus (SABV), or Whitewater Arroyo virus (WWAV).[2] Arenaviruses are divided into two groups: the Old World and the New World viruses. The differences between these groups are distinguished geographically and genetically. Because of the epidemiological association with rodents, some arenaviruses and bunyaviruses are designated as Roboviruses.
Viewed in cross-section, they show grainy particles that are ribosomes acquired from their host cells. It is from this characteristic that they acquired the name Arena which comes from the Latin root meaning sand. These are round, pleomorphic, and enveloped with a diameter of 120 nm. The virus contains a beaded nucleocapsid with two single-stranded RNA segments. The nucleocapsid is the basic structure of a virus, consisting of a core of nucleic acid enclosed in a protein coat. Although they are often miscategorized as negative sense viruses, they are in fact ambisense. This confusion stems from the fact that while sections of their genome are considered negative sense, and encode genes in the reverse direction, other sections encode genes in the opposite (forward/positive sense) direction. This complex gene expression structure is theorized to be the viruses primitive regulatory system, allowing the virus to control what proteins are synthesized when. The life cycle of the arena virus is restricted to the cell cytoplasm. Virus particles, or virions, are pleomorphic because they vary in appearances but in many cases they are spherical in shape and covered with surface glycoprotein spikes.[3] The sand looking ribosomal structures are not believed to be essential in virus replication but they certainly give this replicating virus reason to its name.
Arenaviruses can be divided into two serogroups, which differ genetically and by geographical distribution:[4] When the virus is classified “Old World” this means it was found in the Eastern Hemisphere in places such as Europe, Asia, and Africa. When it is found in the Western Hemisphere, in places such as Argentina, Bolivia, Venezuela, Brazil, and the United States, it is classified “New World”. Lymphocytic choriomeningitis (LCM) virus is the only Arenavirus to exist in both areas but is classified as an Old World virus.
A third group of viruses has been described from snakes.[5] The organisation of the genome is typical of arenaviruses but their glycoproteins resemble those of filoviruses.
Arenaviruses have a segmented RNA genome that consists of two single-stranded ambisense RNAs.[6] As with all negative-sense RNA viruses, the genomic RNA alone is not infectious and the viral replication machinery is required to initiate infection within a host cell.[7] Genomic sense RNA packaged into the arenavirus virion is designated negative-sense RNA, and must first be copied into a positive-sense mRNA in order to produce viral protein.[8] The two RNA segments are denoted Small (S) and Large (L),[6][9] and code for four viral proteins in a unique ambisense coding strategy.[10][11] Each RNA segment codes for two viral proteins in opposite orientation such that the negative-sense RNA genome serves as the template for transcription of a single mRNA and the positive-sense copy of the RNA genome templates a second mRNA.[8] The separate coding sequences of the two viral proteins are divided by an intergenic region RNA sequence that is predicted to fold into a stable hairpin structure.[12]
The extreme termini of each RNA segment contains a 19 nucleotide highly conserved sequence that is critical for recruitment of the viral replication machinery and initiation of viral mRNA transcription and genomic replication.[13][14][15][16][17] The conserved 5' and 3' RNA termini sequences are complementary and allows each RNA segment to adopt a double-stranded RNA panhandle structure [18] that maintains the termini in close proximity and results in a circular appearance to purified arenavirus genomic templates visualized by electron microscopy.[19][20] The double-stranded RNA panhandle structure is critical for efficient viral RNA synthesis,[16][21] but potential intertermini double-stranded RNA interactions must be transiently relieved in order to recruit the viral polymerase.[17]
The S-segment RNA is approximately 3.5 kb, and encodes the viral nucleocapsid protein (NP) and glycoprotein (GPC).[22] The L-segment RNA is approximately 7.2 kb, and encodes the viral RNA-dependent RNA-polymerase (L) and a small RING-domain containing protein (Z).[23][24][25]
The Z protein forms homo oligomers and a structural component of the virions.[26] The formation of these oligomers is an essential step for particle assembly and budding. Binding between Z and the viral envelope glycoprotein complex is required for virion infectivity. Z also interacts with the L and NP proteins. Polymerase activity appears to be modulated by the association between the L and Z proteins. Interaction between the Z and NP proteins is critical for genome packaging.
The glycoprotein (GP) is synthesised as a precursor molecule.[27] It is cleaved into three parts - GP1, GP2 and a stable signal peptide (SSP). These reactions are catalysed by cellular signal peptidases and the cellular enzyme Subtilisin Kexin Isozyme-1 (SKI-1)/Site-1 Protease (S1P). These processes are essential for fusion competence and incorporation of mature GP into nascent budding virion particles.
Some arenaviruses are zoonotic pathogens and are generally associated with rodent—transmitted disease in humans. Each virus usually is associated with a particular rodent host species in which it is maintained. Arenaviruses persist in nature by infecting rodents first and then transmitted into humans. Humans can be infected through mucosal exposure to aerosols, or by direct contact of abraded skin with the infectious material, derived from infected rodents.[3] Aersols are fine mists or sprays of rodent dried excreta, especially urine that is dropped in the environment. Most of the Arenaviruses caught by humans are within their own homes when these rodents seek shelter. The virus can be caught in factories, from food that has been contaminated, or within agricultural work areas. The risk of getting the Arenavirus infection for humans is related to age, race, or sex within the degree of contact with the dried rodent excreta.
Virus | Disease | Vector | Distribution |
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Lymphocytic choriomeningitis virus | Lymphocytic choriomeningitis | House mouse (Mus musculus) | Worldwide |
Lassa virus | Lassa fever | Natal Multimammate Mouse (Mastomys natalensis) | West Africa |
Junin virus | Argentine hemorrhagic fever | Drylands Vesper Mouse (Calomys musculinus) | Argentina |
Machupo virus | Bolivian hemorrhagic fever | Large Vesper Mouse (Calomys callosus) | Bolivia |
Guanarito virus | Venezuelan hemorrhagic fever | Short-tailed Cane Mouse (Zygodontomys brevicauda) | Venezuela |
Sabiá virus | Brazilian hemorrhagic fever | Unknown | Brazil |
Tacaribe virus | Bat (Artibeus) | Trinidad | |
Flexal virus | Influenza-like illness | Rice rat (Oryzomys) | Brazil |
Whitewater Arroyo virus | Hemorrhagic fever | Woodrat (Neotoma) | Southwestern USA |
1. LCM viruses cause influenza -like febrile illness,but occasionally they may cause meningitis,characteristically accompanied by large numbers of lymphocytes in the CSF (as the name LCM suggests).
2. Lassa fever virus causes Lassa fever. Lassa fever is endemic in west Africa.The virus was first isolated from Americans stationed in the village of Lassa, Nigeria.The virus can be transmitted person-to -person.
a. Subclinical diseases: Serological studies suggest that inapparent infections particularly among members of hunting tribes are common.
b. Clinical infections:Lassa fever is characterised by high fever,severe myalgia,coagulopathy,haemorrhagic skin rash,and occasional visceral haemorrhage as well as necrosis of liver and spleen.
3. other Arenaviruses like Junin virus, Machupo virus cause haemorrhagic fevers.
All of these diseases pose a great threat to public health in the regions where it is taking place. For example, when the Old World Lassa virus turns into Lassa fever, this usually results in a significant amount of mortality. Similarly the New World Junin virus causes Argentine hemorrhagic fever. This fever is a several illness with hemorrhagic and neurological manifestations and a case fatality of fifteen to thirty percent.[3] The way this virus spreads is through increased traveling to and from endemic regions. This traveling has led to the importation of Lassa fever into non- endemic metropolitan areas all over the world.
A new species of arenavirus named the Lujo virus has been linked to five patients who exhibited symptoms of viral hemorrhagic fever in South Africa.[28] The disease originated near Lusaka, Zambia and spread to Johannesburg, South Africa, after the first patient was transported to a hospital there. The results of genetic sequencing tests conducted by epidemiologists at Columbia University in New York CIty, USA, and at the Special Pathogens Branch of the Centers for Disease Control in Atlanta, USA, provided evidence that the causative agent of the disease is a virus from the Arenaviridae family, which ultimately resulted in the deaths of four out of the five infected in Zambia and South Africa during the outbreak which began in September 2008.
Arenavirus has also recently pinpointed as the cause of death of three donor organ recipients in Australia who contracted the virus after receiving kidney and a liver donations from a single infected organ donor in late 2006. All three died in the first week of 2007.[29]
WHO and its Global Outbreak Alert and Response Network (GOARN) partners continue to support the Ministries of Health of the two countries in various facets of the outbreak investigation, including laboratory diagnosis, investigations, active case finding and follow-up of contacts.[30]
This virus can be very devastating yet there are very few treatment methods available. The current lack of a licensed vaccine and limited therapeutic options for the Arenavirus make it arguably among the most neglected virus to be dealt with. The only licensed drug for the treatment of human Arenavirus infection is the nucleoside analogue ribavirin.[31] Ribavirin reduces morbidity and mortality in humans who have certain Arenaviruses, such as LASV and JUNV infections, if it is taken in the early stages of the disease. Ribavirin displays mixed success in treating severe Arenaviral disease and is associated with significant toxicities.[32] Effective anti-viral drugs need to be produced at a low cost, taken orally, and able to withstand tropical climates due to the regions where these infections are occurring. For this reason high throughput screening (HTS) of small molecular libraries could be the answer to finding a better remedy. HTS collects libraries of small synthetic molecules that can be used to identify protein promoting “agonist” molecules or protein inhibiting “antagonist” interactions.[31] With HTS sustainable anti-viral drugs can be discovered against possible new human pathogenic viruses.
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リンク元 | 「アレナウイルス科」「arenavirus」 |
拡張検索 | 「Arenaviridae infection」 |
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