Difference between revisions of "Poxviridae"
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− | + | {{unfinished}} | |
+ | |||
+ | {{toplink | ||
+ | |linkpage =Viruses | ||
+ | |linktext =VIRUSES | ||
+ | |pagetype=Bugs | ||
+ | }} | ||
+ | <br> | ||
+ | |||
+ | =Introduction= | ||
+ | Poxviruses are among the most easily recognized of all viruses, owing to the lesion by which they have gained their name. Once inside cell, they cause proliferation then lysis, giving way to a characteristic pock with a necrotic center. Poxviruses have risen to fame both for their ability to be eradicated (small pox) as well as their use in fighting other viruses (canarypox vaccines). | ||
+ | |||
+ | =Morphology= | ||
+ | *Huge (up to 450nm), usually enveloped viruses, with a complex capsid symmetry | ||
+ | *Up to 30 different structural proteins | ||
+ | *Non-structural proteins: | ||
+ | **'''Viral epidermal growth factor''', which stimulates cell growth causing the raised edge of pustule | ||
+ | **'''Viral tumor necrosis factor''', which is non-functioning and acts as an anti-inflammatory by competing with TNF-alpha | ||
+ | **'''Viral IL-10''', which reduces the Th-1 cell mediated response | ||
+ | |||
+ | =Therapeutic Use= | ||
+ | Recombinant Vaccines | ||
+ | *Poxviruses can be used as heat-stable vectors for vaccines against other viruses | ||
+ | *Grown in host cell lines or on the surface of chick chorioallantoic membranes in ovo (primordial ectoderm) | ||
+ | *This was first accomplished by the recombination of cowpox and variola (smallpox) in the creation of the smallpox vaccine (vaccinia) | ||
+ | *More recently, the French used this technique in the creation of the oral rabies vaccine used among the wild fox population: | ||
+ | **Recombinant virus inserts a plasmid encoding rabies gene in place of thymidine kinase gene | ||
+ | *Canarypox vaccines now exist for [[Feline Leukemia Virus (FeLV)|FeLV]] and [[Rhabdoviridae|Rabies]] | ||
+ | **Undergoes a single cycle of replication without producing infectious virus in mammals | ||
+ | |||
+ | =Virulence and Pathogenesis= | ||
+ | *Primary replication in abraded squamous epithelium | ||
+ | *Viremia followed by multiple epidermal infections | ||
+ | *Ballooning then necrosis (hydropic degeneration) of epidermal cells | ||
+ | *Concurrent proliferation or adjacent epidermis (GF driven), creating more cells for the virus to infect | ||
+ | *All three result in classical sequence of lesions: | ||
+ | **Papule (proliferation) | ||
+ | **Vesicle (fluid filled) | ||
+ | **Pustule (lesion breaks) | ||
+ | **Scab formation (healing begins) | ||
+ | *Pock center can succumb to secondary infection | ||
+ | *Resolution in 3-4 weeks | ||
+ | *Some poxviruses can spread to the upper respiratory tract or viscera, causing more serious pathology | ||
+ | |||
+ | =Epidemiology= | ||
+ | *Spread quickly in unhygienic circumstances | ||
+ | *Can survive for years in dust | ||
+ | |||
+ | =Diagnosis= | ||
+ | *Clinical signs | ||
+ | *Histology | ||
+ | *Electron microscopy | ||
+ | *PCR, IIF | ||
+ | |||
+ | =Types and Subtypes= | ||
+ | * 6 Genera, all of which produce pox lesions | ||
+ | *Subdivided based on external structure by EM | ||
+ | |||
+ | =Virus by Species= | ||
+ | *'''[[Cow pox]]''', which also causes cat pox | ||
+ | *Small pox (variola) | ||
+ | *'''[[Orf]]''' | ||
+ | *'''Seal pox''' | ||
+ | **Skin and flipper infection of wild and captive seals | ||
+ | *'''Pig pox''' | ||
+ | **'''Lice''' as vectors (passive host) | ||
+ | **No vaccine | ||
+ | *'''Capripox''' (exotic to EU) | ||
+ | **Sheep and goats | ||
+ | **Highly infectious (airborne and vector), with prolonged survival off the host | ||
+ | **Often fatal with visceral necrotic lesions in addition to epidermal | ||
+ | **Prevalent in Asia, Middle East, Africa, and Mediterranean | ||
+ | **ZOONOTIC, vaccination annually | ||
+ | *'''[[Myxomatosis]]''' | ||
+ | *'''Fowl pox''' | ||
+ | **Pox form on unfeathered skin | ||
+ | **Disease of poor management | ||
+ | **Scarification can produce partial immunity in chickens | ||
+ | *Pigeon pox | ||
+ | *Canary pox | ||
+ | *'''Ectromelia''' | ||
+ | **Affects mouse colonies | ||
+ | **Largely eradicated by the use of specific pathogen free mice and rats | ||
+ | *Camel pox | ||
+ | *Monkey pox | ||
+ | *Lumpy skin disease | ||
+ | **Subsaharan African cattle | ||
+ | *Red squirrel parapox | ||
+ | *Red/Gray squirrel pox |
Revision as of 20:14, 30 October 2008
This article is still under construction. |
|
Introduction
Poxviruses are among the most easily recognized of all viruses, owing to the lesion by which they have gained their name. Once inside cell, they cause proliferation then lysis, giving way to a characteristic pock with a necrotic center. Poxviruses have risen to fame both for their ability to be eradicated (small pox) as well as their use in fighting other viruses (canarypox vaccines).
Morphology
- Huge (up to 450nm), usually enveloped viruses, with a complex capsid symmetry
- Up to 30 different structural proteins
- Non-structural proteins:
- Viral epidermal growth factor, which stimulates cell growth causing the raised edge of pustule
- Viral tumor necrosis factor, which is non-functioning and acts as an anti-inflammatory by competing with TNF-alpha
- Viral IL-10, which reduces the Th-1 cell mediated response
Therapeutic Use
Recombinant Vaccines
- Poxviruses can be used as heat-stable vectors for vaccines against other viruses
- Grown in host cell lines or on the surface of chick chorioallantoic membranes in ovo (primordial ectoderm)
- This was first accomplished by the recombination of cowpox and variola (smallpox) in the creation of the smallpox vaccine (vaccinia)
- More recently, the French used this technique in the creation of the oral rabies vaccine used among the wild fox population:
- Recombinant virus inserts a plasmid encoding rabies gene in place of thymidine kinase gene
- Canarypox vaccines now exist for FeLV and Rabies
- Undergoes a single cycle of replication without producing infectious virus in mammals
Virulence and Pathogenesis
- Primary replication in abraded squamous epithelium
- Viremia followed by multiple epidermal infections
- Ballooning then necrosis (hydropic degeneration) of epidermal cells
- Concurrent proliferation or adjacent epidermis (GF driven), creating more cells for the virus to infect
- All three result in classical sequence of lesions:
- Papule (proliferation)
- Vesicle (fluid filled)
- Pustule (lesion breaks)
- Scab formation (healing begins)
- Pock center can succumb to secondary infection
- Resolution in 3-4 weeks
- Some poxviruses can spread to the upper respiratory tract or viscera, causing more serious pathology
Epidemiology
- Spread quickly in unhygienic circumstances
- Can survive for years in dust
Diagnosis
- Clinical signs
- Histology
- Electron microscopy
- PCR, IIF
Types and Subtypes
- 6 Genera, all of which produce pox lesions
- Subdivided based on external structure by EM
Virus by Species
- Cow pox, which also causes cat pox
- Small pox (variola)
- Orf
- Seal pox
- Skin and flipper infection of wild and captive seals
- Pig pox
- Lice as vectors (passive host)
- No vaccine
- Capripox (exotic to EU)
- Sheep and goats
- Highly infectious (airborne and vector), with prolonged survival off the host
- Often fatal with visceral necrotic lesions in addition to epidermal
- Prevalent in Asia, Middle East, Africa, and Mediterranean
- ZOONOTIC, vaccination annually
- Myxomatosis
- Fowl pox
- Pox form on unfeathered skin
- Disease of poor management
- Scarification can produce partial immunity in chickens
- Pigeon pox
- Canary pox
- Ectromelia
- Affects mouse colonies
- Largely eradicated by the use of specific pathogen free mice and rats
- Camel pox
- Monkey pox
- Lumpy skin disease
- Subsaharan African cattle
- Red squirrel parapox
- Red/Gray squirrel pox