Difference between revisions of "Feline Immunodeficiency Virus"
TestStudent (talk | contribs) (→Links) |
(→Agent) |
||
(67 intermediate revisions by 3 users not shown) | |||
Line 1: | Line 1: | ||
− | {{ | + | {{unfinished}} |
− | Also known as: | + | Also known as: FIV |
==Description== | ==Description== | ||
Line 7: | Line 7: | ||
==Agent== | ==Agent== | ||
− | |||
− | FIV was first discovered in a cat rescue facility in the United States where cats had been showing similar clinical signs to people with acquired immunodeficiency syndrome | + | FIV is a member of the lentivirus genus of the Retroviridae family. Retrovirus virions are are sensitive to heat, lipid solvents, and detergents but are relatively resistant to damage caused by ultraviolet light<sup>1</sup>. The Retroviridae are enveloped viruses which contain a single-stranded RNA genome within an icosahedral nucleocapsid. Glycoprotein surface spikes are located on the envelope. Unusually, Retroviruses have a diplod genome: two identical copies of their positive-sense ssRNA are found on the virion<sup>1</sup>. During viral replication, reverse transcriptase converts the ssRNA genome to ssDNA. This process is inherently error-prone, and the high rate of mutation gives rise to a wide genetic diversity of virus<sup>1</sup>. A dsDNA can then be made from the ssDNA template. This provirus DNA then becomes integrated into the host genome by the actions of the viral enzyme integrase, and remains latent until transcription is initiated by the host cell machinery<sup>1</sup>. Proviral DNA then serves as a template for the production of progeny ssRNA genomes and messenger RNA. Once the proviral DNA has been transcribe and translated, the virions assemble and are release by budding through the host cell membrane. This does not always cause lysis<sup>1</sup>. |
+ | |||
+ | Many Retrovirus genomes contain oncogenes which may be expressed when integrated to the host genomes. However, oncogenes are not a requirement for tumour induction, and some Retroviruses can cause tumours without carrying oncogenes. The Retroviral genome has four coding regions. The "gag" region codes for the matrix protein, nucleoprotein and capsid, and "pro" encodes a protease<sup>1</sup>. Reverse transcriptase is coded by the "pol" region, whereas "env" gives rise to the envelope and receptor binding. An additional, specific cellular transporter RNA is required for replication and present within the virion. | ||
+ | |||
+ | FIV was first discovered in a cat rescue facility in the | ||
+ | United States where some of the cats had been showing | ||
+ | similar clinical signs to people with acquired immunodeficiency | ||
+ | syndrome (AIDS). The virus has subsequently been | ||
+ | found to be very similar to the retrovirus human immunodeficiency | ||
+ | virus (HIV). It is now known from serological | ||
+ | data that FIV has been in the cat population since at least | ||
+ | the late 1960s. The prevalence of infection varies hugely | ||
+ | from country to country. In the UK, around 7 per cent of | ||
+ | the healthy and 19 per cent of the sick cat population are | ||
+ | infected with the virus (Hosie and others 1989). | ||
+ | Electron micrograph image | ||
+ | of FIV particles (arrows) | ||
+ | released from an adjacent | ||
+ | lymphocyte (1). | ||
+ | Original magnification x 70 000 | ||
+ | Although there are many similarities between HIV and | ||
+ | FIV, the viruses are species specific and there is no | ||
+ | zoonotic risk to people in contact with an FIV-positive cat. | ||
==Transmission and Epidemiology== | ==Transmission and Epidemiology== | ||
− | |||
− | + | The major route of transmission is via saliva, especially through biting, and those cats exhibiting territorial aggression are most at risk of infection. Vertical transmission can also occur but the importance of this is not known. Venereal transmission has not been reported. Within households horizontal transmission can occur but the level of infection can be very variable. In some households only a single cat in a group may be FIV positive, whereas in others nearly every cat may be infected. Overall it appears that if fighting among cats housed together is rare, the prevalence of FIV is likely to be low. | |
− | FIV | + | Seroepidemiological surverys of the prevalence of FIV in the UK have shown that 13-19% of sick cats may be infected with FIV compared to 2-3% of healthy cats. |
==Pathogenesis== | ==Pathogenesis== | ||
− | |||
− | Approximately three weeks after infection, cats may show the "primary phase" of FIV infection with malaise, lymphadenopathy and pyrexia | + | The pathogenicity of FIV is strain dependent, and can vary widely. For all strains, feline lymphocytes and macrophages are the preferred cells for virus replication, and so FIV disrupts the function of the immune system. FIV gains entry to the cell via feline CD134, a surface molecule, and uses various chemokine receptors as secondary receptors<sup>fmc</sup>. In acute infection, the virus spreads from the site of entry to the lymphoid tissues and thymus, where it first infects T-lymphocytes and then macrophages. Although both CD4+ and CD8+ cells can be infected by FIV and lysed in culture, the virus appears to preferentially destroy CD4+ cells. This intially results in a change in the ratio of CD4+ to CD8+ cells, from roughly 2:1 to less than 1:1<sup>fmc</sup>. After several months of infection, an absolute reduction in CD4+ is appreciable. |
+ | |||
+ | Approximately three weeks after infection, cats may show the "primary phase" of FIV infection with malaise, lymphadenopathy and pyrexia. Viraemia peaks at 7-8 weeks and then declines, but increases again in the terminal stages of disease<sup>viro</sup>. The host then remains asymptomatic for an indefinite period until cell-mediated immunity is disrupted by a decrease in the production of Th1 cytokines. In the advanced stages of infection, humoral immunity is also adversely affected. Although clinical signs are primarily due to changes related to T-cell populations, macrophages are the main reservoir of FIV in infected cats<sup>fmc</sup>. These cells are capable of transporting virus to various tissues of the body, and also suffer impairment of function, such as an increase in the production of TNF. Microglia and astrocytes in the brain, and megakaryocytes in the bone marrow, can become infected with FIV<sup>fmc, viro</sup>, and co-infection with feline leukaemia virus can increase the expression of FIV in many tissues, including the kidneys, liver and brain. | ||
==Signalment== | ==Signalment== | ||
− | Feline immunodeficiency virus occurs frequently in cats throughout the world, and similar viruses have been recovered from wild and zoo felids<sup> | + | |
+ | Feline immunodeficiency virus occurs frequently in cats throughout the world, and similar viruses have been recovered from wild and zoo felids<sup>viro</sup>. FIV infection increases in prevalence in older cats, and the average age at diagnosis is 5 years<sup>fmc</sup>. Male cats are more commonly infected than females as they roam more and exhibit a higher degree of territorial aggression. There are no breed predilections. | ||
==Diagnosis== | ==Diagnosis== | ||
− | |||
===Clinical Signs=== | ===Clinical Signs=== | ||
− | |||
− | + | ===Laboratory Tests=== | |
+ | *'''ELISA''' for serum '''antibody''' | ||
+ | **False positives occur, particularly in the presence of maternal Ab | ||
+ | *Positives can be confirmed by lab work (Western blotting) | ||
− | === | + | ===Pathology=== |
− | |||
− | + | On post-mortem examination, lymphadenopathy is seen. Intestinal lesions similar to those seen in feline panleukopenia virus infection may be apparent<sup>fmc</sup>. | |
− | + | In early disease, lymphadenopathy is seen histologically to be due to follicular hyperplasia and infiltration of plasmacytes to surround the cortex. Later in disese, a mixutre of follicular hyperplasia and follicular depletion may exist, and in the terminal stages of FIV infection, follicular involution is the key feature<sup>fmc</sup>. Lymphoplasmacytic infiltrates are seen in the gingiva, lymphoid tissues, spleen, kidney, liver and brain. Brain lesions also include perivascular cuffing, gliosis, neuronal loss, vacuolation of the white matter and, occasionally, the presence of giant cells. | |
− | |||
− | |||
− | === | + | ==Prognosis== |
− | |||
− | + | The long-term prognosis for FIV-infected cats is guarded, but some cats will survive for many years following diagnosis. Around 20% of affected cats die within the first two years after diagnosis; this equates to a 20% mortality rate in the first 4.5-6 years after the estimated time of infection<sup>fmc</sup>. In generally, the more chronic and severe the clinical signs, the worse the prognosis is. | |
==Treatment== | ==Treatment== | ||
− | |||
− | |||
− | |||
− | |||
− | |||
==Control== | ==Control== | ||
− | + | *'''No UK vaccine''' | |
+ | *Healthy positive cats should have diagnose confirmed by further testing | ||
+ | *Isolate and castrate | ||
+ | *Preventative neutering of males | ||
− | + | ==Links== | |
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
*[http://www.fabcats.org/owners/fiv/info.html Feline Advisory Bureau FIV Factsheet] | *[http://www.fabcats.org/owners/fiv/info.html Feline Advisory Bureau FIV Factsheet] | ||
− | |||
==References== | ==References== | ||
#Wise, D J and Carter, G R (2005) ''' A Concise Review of Veterinary Virology''', ''IVIS''. | #Wise, D J and Carter, G R (2005) ''' A Concise Review of Veterinary Virology''', ''IVIS''. | ||
+ | #Tilley, L P and Smith, F W K (2004) '''The 5-minute Veterinary Consult (Fourth Edition)''',''Blackwell''. | ||
#Caney, S (2000) Feline immnunodeficiency virus: an update. ''In Practice'', '''22(5)''', 255-260. | #Caney, S (2000) Feline immnunodeficiency virus: an update. ''In Practice'', '''22(5)''', 255-260. | ||
#Johnson, C M (2005) Transmission of Feline Immunodeficiency Virus. ''Proceedings of the 56th Annual Meeting of the American College of Veterinary Pathologists and 40th Annual Meeting of the American Society for Veterinary Clinical Pathology''. | #Johnson, C M (2005) Transmission of Feline Immunodeficiency Virus. ''Proceedings of the 56th Annual Meeting of the American College of Veterinary Pathologists and 40th Annual Meeting of the American Society for Veterinary Clinical Pathology''. | ||
− | |||
− | |||
− | |||
#Merck & Co (2008) '''The Merck Veterinary Manual (Eight Edition)''', ''Merial''. | #Merck & Co (2008) '''The Merck Veterinary Manual (Eight Edition)''', ''Merial''. | ||
#Morrision, W B (2002) '''Cancer in dogs and cats: medical and surgical management''', ''Teton NewMedia''. | #Morrision, W B (2002) '''Cancer in dogs and cats: medical and surgical management''', ''Teton NewMedia''. | ||
+ | #Rand, J (2006) '''Problem-based feline medicine''', ''Elsevier Health Sciences''. | ||
− | + | [[Category:Lentiviruses]][[Category:Cat]][[Category:Secondary Immunodeficiency]] | |
− | + | [[Category:To_Do_-_Clinical/Viruses]] | |
− | + | [[Category:To Do - Blood]][[Category:To Do - Lizzie]] | |
− | |||
− | |||
− | [[Category:Lentiviruses]][[Category:Cat | ||
− | [[Category: | ||
− |
Revision as of 12:30, 27 August 2010
This article is still under construction. |
Also known as: FIV
Description
Feline immunodeficiency virus is a retrovirus that causes immunodeficiency disease in the domestic cat.
Agent
FIV is a member of the lentivirus genus of the Retroviridae family. Retrovirus virions are are sensitive to heat, lipid solvents, and detergents but are relatively resistant to damage caused by ultraviolet light1. The Retroviridae are enveloped viruses which contain a single-stranded RNA genome within an icosahedral nucleocapsid. Glycoprotein surface spikes are located on the envelope. Unusually, Retroviruses have a diplod genome: two identical copies of their positive-sense ssRNA are found on the virion1. During viral replication, reverse transcriptase converts the ssRNA genome to ssDNA. This process is inherently error-prone, and the high rate of mutation gives rise to a wide genetic diversity of virus1. A dsDNA can then be made from the ssDNA template. This provirus DNA then becomes integrated into the host genome by the actions of the viral enzyme integrase, and remains latent until transcription is initiated by the host cell machinery1. Proviral DNA then serves as a template for the production of progeny ssRNA genomes and messenger RNA. Once the proviral DNA has been transcribe and translated, the virions assemble and are release by budding through the host cell membrane. This does not always cause lysis1.
Many Retrovirus genomes contain oncogenes which may be expressed when integrated to the host genomes. However, oncogenes are not a requirement for tumour induction, and some Retroviruses can cause tumours without carrying oncogenes. The Retroviral genome has four coding regions. The "gag" region codes for the matrix protein, nucleoprotein and capsid, and "pro" encodes a protease1. Reverse transcriptase is coded by the "pol" region, whereas "env" gives rise to the envelope and receptor binding. An additional, specific cellular transporter RNA is required for replication and present within the virion.
FIV was first discovered in a cat rescue facility in the United States where some of the cats had been showing similar clinical signs to people with acquired immunodeficiency syndrome (AIDS). The virus has subsequently been found to be very similar to the retrovirus human immunodeficiency virus (HIV). It is now known from serological data that FIV has been in the cat population since at least the late 1960s. The prevalence of infection varies hugely from country to country. In the UK, around 7 per cent of the healthy and 19 per cent of the sick cat population are infected with the virus (Hosie and others 1989). Electron micrograph image of FIV particles (arrows) released from an adjacent lymphocyte (1). Original magnification x 70 000 Although there are many similarities between HIV and FIV, the viruses are species specific and there is no zoonotic risk to people in contact with an FIV-positive cat.
Transmission and Epidemiology
The major route of transmission is via saliva, especially through biting, and those cats exhibiting territorial aggression are most at risk of infection. Vertical transmission can also occur but the importance of this is not known. Venereal transmission has not been reported. Within households horizontal transmission can occur but the level of infection can be very variable. In some households only a single cat in a group may be FIV positive, whereas in others nearly every cat may be infected. Overall it appears that if fighting among cats housed together is rare, the prevalence of FIV is likely to be low.
Seroepidemiological surverys of the prevalence of FIV in the UK have shown that 13-19% of sick cats may be infected with FIV compared to 2-3% of healthy cats.
Pathogenesis
The pathogenicity of FIV is strain dependent, and can vary widely. For all strains, feline lymphocytes and macrophages are the preferred cells for virus replication, and so FIV disrupts the function of the immune system. FIV gains entry to the cell via feline CD134, a surface molecule, and uses various chemokine receptors as secondary receptorsfmc. In acute infection, the virus spreads from the site of entry to the lymphoid tissues and thymus, where it first infects T-lymphocytes and then macrophages. Although both CD4+ and CD8+ cells can be infected by FIV and lysed in culture, the virus appears to preferentially destroy CD4+ cells. This intially results in a change in the ratio of CD4+ to CD8+ cells, from roughly 2:1 to less than 1:1fmc. After several months of infection, an absolute reduction in CD4+ is appreciable.
Approximately three weeks after infection, cats may show the "primary phase" of FIV infection with malaise, lymphadenopathy and pyrexia. Viraemia peaks at 7-8 weeks and then declines, but increases again in the terminal stages of diseaseviro. The host then remains asymptomatic for an indefinite period until cell-mediated immunity is disrupted by a decrease in the production of Th1 cytokines. In the advanced stages of infection, humoral immunity is also adversely affected. Although clinical signs are primarily due to changes related to T-cell populations, macrophages are the main reservoir of FIV in infected catsfmc. These cells are capable of transporting virus to various tissues of the body, and also suffer impairment of function, such as an increase in the production of TNF. Microglia and astrocytes in the brain, and megakaryocytes in the bone marrow, can become infected with FIVfmc, viro, and co-infection with feline leukaemia virus can increase the expression of FIV in many tissues, including the kidneys, liver and brain.
Signalment
Feline immunodeficiency virus occurs frequently in cats throughout the world, and similar viruses have been recovered from wild and zoo felidsviro. FIV infection increases in prevalence in older cats, and the average age at diagnosis is 5 yearsfmc. Male cats are more commonly infected than females as they roam more and exhibit a higher degree of territorial aggression. There are no breed predilections.
Diagnosis
Clinical Signs
Laboratory Tests
- ELISA for serum antibody
- False positives occur, particularly in the presence of maternal Ab
- Positives can be confirmed by lab work (Western blotting)
Pathology
On post-mortem examination, lymphadenopathy is seen. Intestinal lesions similar to those seen in feline panleukopenia virus infection may be apparentfmc.
In early disease, lymphadenopathy is seen histologically to be due to follicular hyperplasia and infiltration of plasmacytes to surround the cortex. Later in disese, a mixutre of follicular hyperplasia and follicular depletion may exist, and in the terminal stages of FIV infection, follicular involution is the key featurefmc. Lymphoplasmacytic infiltrates are seen in the gingiva, lymphoid tissues, spleen, kidney, liver and brain. Brain lesions also include perivascular cuffing, gliosis, neuronal loss, vacuolation of the white matter and, occasionally, the presence of giant cells.
Prognosis
The long-term prognosis for FIV-infected cats is guarded, but some cats will survive for many years following diagnosis. Around 20% of affected cats die within the first two years after diagnosis; this equates to a 20% mortality rate in the first 4.5-6 years after the estimated time of infectionfmc. In generally, the more chronic and severe the clinical signs, the worse the prognosis is.
Treatment
Control
- No UK vaccine
- Healthy positive cats should have diagnose confirmed by further testing
- Isolate and castrate
- Preventative neutering of males
Links
References
- Wise, D J and Carter, G R (2005) A Concise Review of Veterinary Virology, IVIS.
- Tilley, L P and Smith, F W K (2004) The 5-minute Veterinary Consult (Fourth Edition),Blackwell.
- Caney, S (2000) Feline immnunodeficiency virus: an update. In Practice, 22(5), 255-260.
- Johnson, C M (2005) Transmission of Feline Immunodeficiency Virus. Proceedings of the 56th Annual Meeting of the American College of Veterinary Pathologists and 40th Annual Meeting of the American Society for Veterinary Clinical Pathology.
- Merck & Co (2008) The Merck Veterinary Manual (Eight Edition), Merial.
- Morrision, W B (2002) Cancer in dogs and cats: medical and surgical management, Teton NewMedia.
- Rand, J (2006) Problem-based feline medicine, Elsevier Health Sciences.