Difference between revisions of "Paramyxoviridae"
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− | # | + | {{unfinished}} |
+ | |||
+ | {{toplink | ||
+ | |linkpage =Viruses | ||
+ | |linktext =VIRUSES | ||
+ | |pagetype=Bugs | ||
+ | }} | ||
+ | <br> | ||
+ | |||
+ | =Introduction= | ||
+ | |||
+ | =Morphology= | ||
+ | *Single-stranded negative-sense unsegmented RNA virus | ||
+ | *Reassortment and antigenic shift cannot occur | ||
+ | *Spike proteins include | ||
+ | **'''HN''' (Haemagglutinin and Neuraminidase) | ||
+ | **'''F''' (Fusion glycoprotein), which allows the virus to fuse directly to the plasma membrane and release its RNA | ||
+ | ***F also causes syncitium to form, which aids diagnosis | ||
+ | ***Host antibody response to the F protein is the basis for vaccination | ||
+ | |||
+ | =Virulence= | ||
+ | *Paramyxoviruses replicate in the epithelium of the upper respiratory tract as well as occasionally in the gut | ||
+ | **Sites of spike protein cleavage | ||
+ | *Virulence varies by virus, see below | ||
+ | |||
+ | =Types and Subtypes= | ||
+ | Paramoyxoviridae was reclassified in 2000 to include 2 subfamilies and 5 genera: | ||
+ | *''Paramoyxovirinae'': | ||
+ | **[[Paramyxoviridae#Bovine Parainfluenza - 3 (PI-3)| Bovine Parainfluenza 3]] | ||
+ | **[[Paramyxoviridae#Canine Parainfluenza - 2|Canine Parainfluenza 2]] | ||
+ | **[[Paramyxoviridae#Murine Parainfluenza - 1 (Sendai virus)|Murine Parainfluenza 1 (Sendai virus)]] | ||
+ | **[[Paramyxoviridae#Newcastle Disease Virus (NDV)|Newcastle Disease (NDV)]] - avian paramyxovirus serotype 1 | ||
+ | **Avian Paramyxoviruses serotypes 2-9 | ||
+ | **[[Paramyxoviridae#Reptilian Paramyxoviruses|Reptilian Paramyxoviruses]] | ||
+ | **Mumps | ||
+ | **''Morbilliviruses'' | ||
+ | ***[[Paramyxoviridae#Canine Distemper Virus (CDV)|Canine Distemper (CDV)]] | ||
+ | ***Rinderpest | ||
+ | ***Pest de petit ruminant (PPR) | ||
+ | ***Measels | ||
+ | ***Seal virus - phocine distemper | ||
+ | ***Dolphin Morbillivirus | ||
+ | ***[[Paramyxoviridae#Hendra Virus|Hendra virus]] | ||
+ | ***[[Paramyxoviridae#Nipah Virus|Nipah virus]] | ||
+ | *''Pneumovirinae'' | ||
+ | **[[Paramyxoviridae#Bovine Respiratory Syncytial Virus (BRSV)|Bovine Respiratory Syncytial Virus (BRSV)]] | ||
+ | **Turkey Rhinotracheitis Virus | ||
+ | |||
+ | =Antigenic Variation= | ||
+ | *Antigenic conservation allows some cross protection by vaccination: | ||
+ | **Conservation of major virus-specific F/HN antigens means vaccines protect against '''all isolates''' of the same virus | ||
+ | **Minor morbillivirus-specific epitopes on F allows some cross protection between '''canine distemper, measles, and rinderpest''' | ||
+ | *Antigenic "fingerprinting" is possible for some viruses based on minor variable epitopes of HN, F and NP on specific isolates as detected by monoclonal antibodies | ||
+ | **These are detected by immunostaining infected cells | ||
+ | |||
+ | =Paramyxoviridae by Species= | ||
+ | |||
+ | ==Avian== | ||
+ | ===Newcastle Disease Virus (NDV)=== | ||
+ | ====Hosts==== | ||
+ | *Gallinaceous birds, pigeons, parrots, finches | ||
+ | *Subclinical carriers: ducks, ostriches | ||
+ | *Causes conjunctivitis in humans | ||
+ | ====Pathogenesis==== | ||
+ | *Transmission via aerosol and direct contact | ||
+ | *Disease ranges from subclinical [[Respiratory Viral Infections - Pathology|respiratory tract infections]] -> torticollis -> haemorrhages and death | ||
+ | ====Diagnosis==== | ||
+ | Two diagnostic tests currently exist: | ||
+ | *Animal test: | ||
+ | **Samples of trachea and gut of 20 birds are tested in eggs | ||
+ | **'''HI''' using anti-NDV serum (to differentiate '''HA''' caused by [[Orthomyxoviridae#Avian Influenza|avian influenza]] | ||
+ | **Virulence of isolate tested by the speed it kills chicks | ||
+ | *DNA test (which will soon replace the animal test): | ||
+ | **Sequencing the cleavage site of H gene | ||
+ | **The more basic amino acids the more virulent the virus | ||
+ | ====Control==== | ||
+ | *Newcastle Disease is '''NOTIFIABLE''' | ||
+ | *Vaccination of chickens and racing pigeons | ||
+ | *Surveillance of imported exotic birds | ||
+ | *Isolation of infected stock | ||
+ | *Infected premises to be culled and firebreak cull if spread | ||
+ | |||
+ | ==Canine== | ||
+ | ===Canine Parainfluenza - 2=== | ||
+ | *or Parainfluenza - 5 | ||
+ | *Infects '''dogs''' | ||
+ | *May cause mild upper respiratory infection, [[Nasal Cavity Inflammatory - Pathology#Infectious causes of rhinitis|rhinitis]] | ||
+ | **Virus shed for a short time only | ||
+ | *Also part of kennel cough ([[Respiratory Viral Infections - Pathology#Infectious canine tracheitis|Infectious canine tracheitis]]), together with [[Bordetella bronchiseptica and Bordetella avium|''Bordetella bronchiseptica'']] | ||
+ | *Control: | ||
+ | **'''Live attenuated vaccine''' may be incorporated in multivalent vaccines | ||
+ | ***Immunity is short-lived | ||
+ | ***Only reduces severity of clinical signs | ||
+ | |||
+ | ===Canine Distemper Virus (CDV)=== | ||
+ | *Hosts: dogs, ferrets, seals, lions, mink | ||
+ | *Has been a major pathogen of dogs prior to vaccination | ||
+ | *Variable mortality depending on virulence | ||
+ | *May occur subclinically | ||
+ | *Involvement of central nervous system generally results in death | ||
+ | *'''Pathogenesis''': | ||
+ | **Aerosol infection | ||
+ | **Infects alveolar [[Macrophages - WikiBlood|macrophages]] or [[Oropharynx - Pathology|oropharynx]] | ||
+ | **Multiplies in the bronchial and other lymph nodes, infects monocytes and dendritic cells | ||
+ | **Viraemia | ||
+ | **Spreads via monocytes to a variety of epithelium depending upon the strain of virus | ||
+ | **[[Respiratory Viral Infections - Pathology#Canine distemper|Respiratory]] and alimentary tracts, skin and later (1-5 wk. post infection) to the brain | ||
+ | *'''Clinical signs''': | ||
+ | **Mucopurulent oculonasal discharge | ||
+ | **Keratitis | ||
+ | **[[Lungs Inflammatory - Pathology#Interstitial pneumonia|Interstitial pneumonia]] | ||
+ | **Severe clinical pneumonia follows secondary infection with [[Bordetella bronchiseptica and Bordetella avium|''Bordetella bronchiseptica'']] | ||
+ | **Smelly sometimes bloody diarrhoea | ||
+ | **Eruptions on the skin including hyperkeratosis of the nose and pads (hardpad) | ||
+ | **[[PNS Repsonses to Injury - Pathology#Segmental Demyelination|Demyelination]] (especially in cerebellum) -> incoordination or muscle tremors -> paralysis and coma or convulsions -> death | ||
+ | **Encephalitis | ||
+ | **Secondary pyogenic infections associated with immunosuppression and damage to epithelia | ||
+ | **Recovered animals may have persistent or spasmodic chorea | ||
+ | **The severity of the disease may vary; if enough neutralising antibody develops in the early stages, the virus maybe kept restricted largely to the lymph nodes. | ||
+ | *'''Diagnosis''': | ||
+ | **May present as series of infections | ||
+ | **'''Immunocytochemistry''' of inclusion bodies | ||
+ | ***Intracytoplasmic inclusions may be found in most affected tissues | ||
+ | ***Inclusions persist longest in the brain (may be intranuclear) and the alveolar macrophages | ||
+ | ***Sections of fixed bronchial tissue, lung, macrophages, bladder may be used or nasal or conjunctival epithelium from live animals | ||
+ | **Giant cells may be seen in the alveoli | ||
+ | *'''Control''': | ||
+ | **Live attenuated virus vaccines given at 10 and 12 weeks of age | ||
+ | ***Some now given at 7 and 10 weeks to allow socialisation | ||
+ | **Homeopathic vaccines do not work | ||
+ | **Live attenuated vaccines may kill some wildlife therefore '''Iscom vaccine''' is used in seal sanctuaries | ||
+ | |||
+ | *Can contribute to [[Respiratory Viral Infections - Pathology#In Dogs|Infectious canine tracheitis]] | ||
+ | *May be involved in [[Pancreas Inflammatory - Pathology#Chronic interstitial pancreatitis|chronic interstitial pancreatitis]] | ||
+ | *May cause [[Bones Developmental - Pathology#Retention of elongated primary trabeculae|growth retardation lattice]] | ||
+ | *May also trigger latent [[Tissue cyst-forming coccidia|Toxoplasmosis]] due to suppressing effect on lymphoid tissue | ||
+ | |||
+ | ==Bovine== | ||
+ | ===Bovine Parainfluenza - 3 (PI-3)=== | ||
+ | *Virulence varies with isolates | ||
+ | *Cessation of [[Respiratory System General Introduction - Pathology#Mucociliary escalator|ciliary clearance]] and epithelial necrosis predisposes to secondary bacterial infections -> cough | ||
+ | *May cause [[Respiratory Viral Infections - Pathology#Parainfluenza- 3|rhinitis]] of cattle | ||
+ | *With other agents causes [[Respiratory Bacterial Infections - Pathology#Enzootic pneumonia of calves|calf pneumonia ]] | ||
+ | **Together with managemental factors (overcrowding, poor ventilation, high humidity, deprivation of colostrum and stress caused by transport or mixing of stock) | ||
+ | *'''Diagnosis''' | ||
+ | **Diseased lung tissue from dead animals or centrifuged cells from lung lavage | ||
+ | **Virus is too fragile for cell culture isolation (often inactivated intransport) | ||
+ | **Antigen detection by ''' immunocytochemistry''' for intracytoplasmic viral inclusions containing labelled viral protein | ||
+ | **Serology: 4-fold rise in ELISA antibody in paired serum samples from several animals | ||
+ | *'''Control''' | ||
+ | **Improve managemental factors | ||
+ | **All-in, all-out systems | ||
+ | **Some vaccination | ||
+ | ***Temperature sensitive mutant that replicates at 34<sup>o</sup>C but not at 37<sup>o</sup>C | ||
+ | ***Re-infection is common | ||
+ | |||
+ | ===Bovine Respiratory Syncytial Virus (BRSV)=== | ||
+ | *'''Pathogenesis''': | ||
+ | **More serious than [[Paramyxoviridae#Parainfluenza -3 (PI-3)|PI-3]] | ||
+ | **Causes [Respiratory Viral Infections - Pathology#Respiratory syncytial virus|respiratory infection]] | ||
+ | **Replicates in nasal epithelium -> throughout upper respiratory tract -> bronchial tree | ||
+ | **Syncytia form -> shed into bronchioles | ||
+ | **Complications include [[Lungs Ventilation - Pathology#Emphysema|emphysema]] and [[Lungs Circulatory - Pathology#Pulmonary oedema|oedema]], drop in milk yield in adult cattle | ||
+ | *'''Epidemiology''': | ||
+ | **Subclinical reinfections are important in spreading disease | ||
+ | **More than 70% of cattle in the UK have antibodies to BRSV | ||
+ | *'''Diagnosis''' is same as for [[Paramyxoviridae#Parainfluenza -3 (PI-3)|PI-3]] | ||
+ | *'''Control''' | ||
+ | **Improve husbansry as in [[Paramyxoviridae#Parainfluenza -3 (PI-3)|PI-3]] | ||
+ | **Vaccines are available but not effective as need to stimulate [[Lymphocytes - WikiBlood#Cytotoxic CD8+|cytotoxic T-cells]] | ||
+ | *<small>'''Reference''': Bryson, 1999, Update on calf pneumonia, CPD Veterinary Medicine, 1,3, 90-95</small> | ||
+ | |||
+ | ==Equine== | ||
+ | ===Hendra Virus=== | ||
+ | *Equine Paramyxovirus | ||
+ | *Causes [[Respiratory Viral Infections - Pathology#Hendra virus|respiratory infections]] with respiratory distress and paralysis | ||
+ | *Potentially zoonotic (beware palpating inside the throat for obstruction) | ||
+ | |||
+ | ==Porcine== | ||
+ | ===Nipah Virus=== | ||
+ | *Infects pigs and humans | ||
+ | *Humans exposed to pig blood are at risk | ||
+ | |||
+ | ==Reptiles== | ||
+ | ===Reptilian Paramyxoviruses=== | ||
+ | *Infect central nervous system and lungs | ||
+ | *Kill particularly '''snakes''' | ||
+ | *Healthy reptiles may be carriers | ||
+ | *Testing by serology - '''HI test''' | ||
+ | *Aim to keep virus free collection and prevent spread back into the wild | ||
+ | |||
+ | ==Rodentia== | ||
+ | ===Murine Parainfluenza - 1 (Sendai virus)=== | ||
+ | *Endemic in many '''mouse''' colonies | ||
+ | *Most mice show no symptoms due to maternal antibodies | ||
+ | *But minor respiratory lesions may invalidate carcinogenic or toxicological studies | ||
+ | *Immunological studies also confused due to virus activating [[Lymphocytes - WikiBlood#Natural Killer (NK) Cells|NK cells]] via high circulating [[Innate Immune System - WikiBlood#Interferons|IF]] 3-4 days post-infection | ||
+ | *Control achieved by: | ||
+ | **Purchasing specific pathogen free (SPF) mice | ||
+ | **Kill whole colony in an outbreak -> disinfection -> formalin fumigation | ||
+ | |||
+ | =Other resources= | ||
+ | *[http://www.pitt.edu/~super1/lecture/lec3401/index.htm On line Paramyxoviridae lecture by P. Russell] | ||
+ | |||
+ | |||
+ | <big><center>[[Viruses|'''BACK TO VIRUSES''']]</center></big> |
Revision as of 18:14, 13 October 2008
This article is still under construction. |
|
Introduction
Morphology
- Single-stranded negative-sense unsegmented RNA virus
- Reassortment and antigenic shift cannot occur
- Spike proteins include
- HN (Haemagglutinin and Neuraminidase)
- F (Fusion glycoprotein), which allows the virus to fuse directly to the plasma membrane and release its RNA
- F also causes syncitium to form, which aids diagnosis
- Host antibody response to the F protein is the basis for vaccination
Virulence
- Paramyxoviruses replicate in the epithelium of the upper respiratory tract as well as occasionally in the gut
- Sites of spike protein cleavage
- Virulence varies by virus, see below
Types and Subtypes
Paramoyxoviridae was reclassified in 2000 to include 2 subfamilies and 5 genera:
- Paramoyxovirinae:
- Bovine Parainfluenza 3
- Canine Parainfluenza 2
- Murine Parainfluenza 1 (Sendai virus)
- Newcastle Disease (NDV) - avian paramyxovirus serotype 1
- Avian Paramyxoviruses serotypes 2-9
- Reptilian Paramyxoviruses
- Mumps
- Morbilliviruses
- Canine Distemper (CDV)
- Rinderpest
- Pest de petit ruminant (PPR)
- Measels
- Seal virus - phocine distemper
- Dolphin Morbillivirus
- Hendra virus
- Nipah virus
- Pneumovirinae
- Bovine Respiratory Syncytial Virus (BRSV)
- Turkey Rhinotracheitis Virus
Antigenic Variation
- Antigenic conservation allows some cross protection by vaccination:
- Conservation of major virus-specific F/HN antigens means vaccines protect against all isolates of the same virus
- Minor morbillivirus-specific epitopes on F allows some cross protection between canine distemper, measles, and rinderpest
- Antigenic "fingerprinting" is possible for some viruses based on minor variable epitopes of HN, F and NP on specific isolates as detected by monoclonal antibodies
- These are detected by immunostaining infected cells
Paramyxoviridae by Species
Avian
Newcastle Disease Virus (NDV)
Hosts
- Gallinaceous birds, pigeons, parrots, finches
- Subclinical carriers: ducks, ostriches
- Causes conjunctivitis in humans
Pathogenesis
- Transmission via aerosol and direct contact
- Disease ranges from subclinical respiratory tract infections -> torticollis -> haemorrhages and death
Diagnosis
Two diagnostic tests currently exist:
- Animal test:
- Samples of trachea and gut of 20 birds are tested in eggs
- HI using anti-NDV serum (to differentiate HA caused by avian influenza
- Virulence of isolate tested by the speed it kills chicks
- DNA test (which will soon replace the animal test):
- Sequencing the cleavage site of H gene
- The more basic amino acids the more virulent the virus
Control
- Newcastle Disease is NOTIFIABLE
- Vaccination of chickens and racing pigeons
- Surveillance of imported exotic birds
- Isolation of infected stock
- Infected premises to be culled and firebreak cull if spread
Canine
Canine Parainfluenza - 2
- or Parainfluenza - 5
- Infects dogs
- May cause mild upper respiratory infection, rhinitis
- Virus shed for a short time only
- Also part of kennel cough (Infectious canine tracheitis), together with Bordetella bronchiseptica
- Control:
- Live attenuated vaccine may be incorporated in multivalent vaccines
- Immunity is short-lived
- Only reduces severity of clinical signs
- Live attenuated vaccine may be incorporated in multivalent vaccines
Canine Distemper Virus (CDV)
- Hosts: dogs, ferrets, seals, lions, mink
- Has been a major pathogen of dogs prior to vaccination
- Variable mortality depending on virulence
- May occur subclinically
- Involvement of central nervous system generally results in death
- Pathogenesis:
- Aerosol infection
- Infects alveolar macrophages or oropharynx
- Multiplies in the bronchial and other lymph nodes, infects monocytes and dendritic cells
- Viraemia
- Spreads via monocytes to a variety of epithelium depending upon the strain of virus
- Respiratory and alimentary tracts, skin and later (1-5 wk. post infection) to the brain
- Clinical signs:
- Mucopurulent oculonasal discharge
- Keratitis
- Interstitial pneumonia
- Severe clinical pneumonia follows secondary infection with Bordetella bronchiseptica
- Smelly sometimes bloody diarrhoea
- Eruptions on the skin including hyperkeratosis of the nose and pads (hardpad)
- Demyelination (especially in cerebellum) -> incoordination or muscle tremors -> paralysis and coma or convulsions -> death
- Encephalitis
- Secondary pyogenic infections associated with immunosuppression and damage to epithelia
- Recovered animals may have persistent or spasmodic chorea
- The severity of the disease may vary; if enough neutralising antibody develops in the early stages, the virus maybe kept restricted largely to the lymph nodes.
- Diagnosis:
- May present as series of infections
- Immunocytochemistry of inclusion bodies
- Intracytoplasmic inclusions may be found in most affected tissues
- Inclusions persist longest in the brain (may be intranuclear) and the alveolar macrophages
- Sections of fixed bronchial tissue, lung, macrophages, bladder may be used or nasal or conjunctival epithelium from live animals
- Giant cells may be seen in the alveoli
- Control:
- Live attenuated virus vaccines given at 10 and 12 weeks of age
- Some now given at 7 and 10 weeks to allow socialisation
- Homeopathic vaccines do not work
- Live attenuated vaccines may kill some wildlife therefore Iscom vaccine is used in seal sanctuaries
- Live attenuated virus vaccines given at 10 and 12 weeks of age
- Can contribute to Infectious canine tracheitis
- May be involved in chronic interstitial pancreatitis
- May cause growth retardation lattice
- May also trigger latent Toxoplasmosis due to suppressing effect on lymphoid tissue
Bovine
Bovine Parainfluenza - 3 (PI-3)
- Virulence varies with isolates
- Cessation of ciliary clearance and epithelial necrosis predisposes to secondary bacterial infections -> cough
- May cause rhinitis of cattle
- With other agents causes calf pneumonia
- Together with managemental factors (overcrowding, poor ventilation, high humidity, deprivation of colostrum and stress caused by transport or mixing of stock)
- Diagnosis
- Diseased lung tissue from dead animals or centrifuged cells from lung lavage
- Virus is too fragile for cell culture isolation (often inactivated intransport)
- Antigen detection by immunocytochemistry for intracytoplasmic viral inclusions containing labelled viral protein
- Serology: 4-fold rise in ELISA antibody in paired serum samples from several animals
- Control
- Improve managemental factors
- All-in, all-out systems
- Some vaccination
- Temperature sensitive mutant that replicates at 34oC but not at 37oC
- Re-infection is common
Bovine Respiratory Syncytial Virus (BRSV)
- Pathogenesis:
- More serious than PI-3
- Causes [Respiratory Viral Infections - Pathology#Respiratory syncytial virus|respiratory infection]]
- Replicates in nasal epithelium -> throughout upper respiratory tract -> bronchial tree
- Syncytia form -> shed into bronchioles
- Complications include emphysema and oedema, drop in milk yield in adult cattle
- Epidemiology:
- Subclinical reinfections are important in spreading disease
- More than 70% of cattle in the UK have antibodies to BRSV
- Diagnosis is same as for PI-3
- Control
- Improve husbansry as in PI-3
- Vaccines are available but not effective as need to stimulate cytotoxic T-cells
- Reference: Bryson, 1999, Update on calf pneumonia, CPD Veterinary Medicine, 1,3, 90-95
Equine
Hendra Virus
- Equine Paramyxovirus
- Causes respiratory infections with respiratory distress and paralysis
- Potentially zoonotic (beware palpating inside the throat for obstruction)
Porcine
Nipah Virus
- Infects pigs and humans
- Humans exposed to pig blood are at risk
Reptiles
Reptilian Paramyxoviruses
- Infect central nervous system and lungs
- Kill particularly snakes
- Healthy reptiles may be carriers
- Testing by serology - HI test
- Aim to keep virus free collection and prevent spread back into the wild
Rodentia
Murine Parainfluenza - 1 (Sendai virus)
- Endemic in many mouse colonies
- Most mice show no symptoms due to maternal antibodies
- But minor respiratory lesions may invalidate carcinogenic or toxicological studies
- Immunological studies also confused due to virus activating NK cells via high circulating IF 3-4 days post-infection
- Control achieved by:
- Purchasing specific pathogen free (SPF) mice
- Kill whole colony in an outbreak -> disinfection -> formalin fumigation
Other resources