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Transmissible spongiform encephalopathies (TSEs, also known as prion diseases) are a group of progressive conditions that affect the brain and nervous system of humans and animals and are transmitted by prions. Mental and physical abilities deteriorate and myriad tiny holes appear in the cortex causing it to appear like a sponge (hence 'spongiform') when brain tissue obtained at autopsy is examined under a microscope. The disorders cause impairment of brain function, including memory changes, personality changes and problems with movement that worsen over time. Prion diseases of humans include classic Creutzfeldt-Jakob disease, new variant Creutzfeldt-Jakob disease (a human disorder related to mad cow disease), Gerstmann-Sträussler-Scheinker syndrome, fatal familial insomnia and kuru. These conditions form a spectrum of diseases with overlapping signs and symptoms.
Unlike other kinds of infectious disease which are spread by microbes, the infectious agent in TSEs is a specific protein called prion protein. Misshaped prion proteins carry the disease between individuals and cause deterioration of the brain. TSEs are unique diseases in that their aetiology may be genetic, sporadic or infectious via ingestion of infected foodstuffs and via iatrogenic means (e.g. blood transfusion) (reviewed in Prusiner, 1991; Collinge, 2001). Most TSEs are sporadic and occur in an animal with no prion protein mutation. Inherited TSE occurs in animals carrying a rare mutant prion allele, which expresses prion proteins that contort by themselves into the disease-causing conformation. Transmission occurs when healthy animals consume tainted tissues from others with the disease. In recent times a type of TSE called bovine spongiform encephalopathy (BSE) spread in cattle in an epidemic fashion. This occurred because cattle were fed the processed remains of other cattle, a practice now banned in many countries. The epidemic could have begun with just one cow with sporadic disease.
Prions cannot be transmitted through the air or through touching or most other forms of casual contact. However, they may be transmitted through contact with infected tissue, body fluids, or contaminated medical instruments. Normal sterilization procedures such as boiling or irradiating materials fail to render prions non-infective.
|ICTVdb Code||Disease name||Natural host||Prion name||PrP isoform|
|90.001.0.01.001.||Scrapie||Sheep and goats||Scrapie prion||OvPrPSc|
|90.001.0.01.002.||Transmissible mink encephalopathy (TME)||Mink||TME prion||MkPrPSc|
|90.001.0.01.003.||Chronic wasting disease (CWD)||Elk, White-tailed deer, Mule Deer and Red Deer||CWD prion||MDePrPSc|
|90.001.0.01.004.||Bovine spongiform encephalopathy (BSE)||Cattle||BSE prion||BovPrPSc|
|90.001.0.01.005.||Feline spongiform encephalopathy (FSE)||Cats||FSE prion||FePrPSc|
|90.001.0.01.006.||Exotic ungulate encephalopathy (EUE)||Nyala and greater kudu||EUE prion||NyaPrPSc|
|90.001.0.01.008.||Creutzfeldt-Jakob disease (CJD)||Humans||CJD prion||HuPrPSc|
|(New) Variant Creutzfeldt-Jakob disease (vCJD, nvCJD)||Humans||vCJD prion||HuPrPSc|
|90.001.0.01.009.||Gerstmann-Sträussler-Scheinker syndrome (GSS)||Humans||GSS prion||HuPrPSc|
|90.001.0.01.010.||Fatal familial insomnia (FFI)||Humans||FFI prion||HuPrPSc|
Features of TSEEdit
The degenerative tissue damage caused by human prion diseases (CJD, GSS, and kuru) is characterised by four features: spongiform change, neuronal loss, astrocytosis and amyloid plaque formation. These features are shared with prion diseases in animals, and the recognition of these similarities prompted the first attempts to transmit a human prion disease (kuru) to a primate in 1966, followed by CJD in 1968 and GSS in 1981.These neuropathological features have formed the basis of the histological diagnosis of human prion diseases for many years, although it was recognised that these changes are enormously variable both from case to case and within the central nervous system in individual cases.
The clinical signs in humans vary, but commonly include personality changes, psychiatric problems such as depression, lack of coordination, and/or an unsteady gait (ataxia). Patients also may experience involuntary jerking movements called myoclonus, unusual sensations, insomnia, confusion, or memory problems. In the later stages of the disease, patients have severe mental impairment (dementia) and lose the ability to move or speak.
Early neuropathological reports on human prion diseases suffered from a confusion of nomenclature, in which the significance of the diagnostic feature of spongiform change was occasionally overlooked. The subsequent demonstration that human prion diseases were transmissible reinforced the importance of spongiform change as a diagnostic feature, reflected in the use of the term "spongiform encephalopathy" for this group of disorders.
Prions appear to be most infectious when in direct contact with affected tissues. For example, Creutzfeldt-Jakob disease has been transmitted to patients taking injections of growth hormone harvested from human pituitary glands, and from instruments used for brain surgery (Brown, 2000) (prions can survive the "autoclave" sterilization process used for most surgical instruments). It is also believed that dietary consumption of affected animals can cause prions to accumulate slowly, especially when cannibalism or similar practices allow the proteins to accumulate over more than one generation. An example is kuru, which reached epidemic proportions in the mid 20th century in the Fore people of Papua New Guinea, who used to consume their dead as a funerary ritual. Laws in developed countries now proscribe the use of rendered ruminant proteins in ruminant feed as a precaution against the spread of prion infection in cattle and other ruminants.
Note that not all encephalopathies are caused by prions, as in the cases of PML (caused by the JC virus), CADASIL (caused by abnormal NOTCH3 protein activity), and Krabbe disease (caused by a deficiency of the enzyme galactosylceramidase). PSL -- which is a spongiform encephalopathy -- is also probably not caused by a prion, although the adulterant which causes it among heroin smokers has not yet been identified (, , , ). This, combined with the highly variable nature of prion disease pathology, is why a prion disease cannot be diagnosed based solely on a patient's symptoms.
Mutations in the PRNP gene cause prion disease. Familial forms of prion disease are caused by inherited mutations in the PRNP gene. Only a small percentage of all cases of prion disease run in families, however. Most cases of prion disease are sporadic, which means they occur in people without any known risk factors or gene mutations. Rarely, prion diseases also can be transmitted by exposure to prion-contaminated tissues or other biological materials obtained from individuals with prion disease.
The PRNP gene provides the instructions to make a protein called the prion protein (PrP). Normally, this protein may be involved in transporting copper into cells. It may also be involved in protecting brain cells and helping them communicate. 24 Point-Mutations in this gene cause cells to produce an abnormal form of the prion protein, known as PrPSc. This abnormal protein builds up in the brain and destroys nerve cells, resulting in the signs and symptoms of prion disease.
Familial forms of prion disease are inherited in an autosomal dominant pattern, which means one copy of the altered gene in each cell is sufficient to cause the disorder. In most cases, an affected person inherits the altered gene from one affected parent.
In some people, familial forms of prion disease are caused by a new mutation in the PRNP gene. Although such people most likely do not have an affected parent, they can pass the genetic change to their children.
These spontaneous disorders in humans are very rare affecting only about one person per million worldwide each year. However, transmissible TSEs can reach epidemic proportions as was seen in the UK BSE outbreak of the 80s and 90s. It is very hard to map the spread of the disease due to the difficulty of identifying individual strains of the prions. This means that if animals start to show the disease after an outbreak on a nearby farm then you cannot show that it is the same strain affecting both, suggesting transmission, or that the second outbreak came from a completely different source.
Possible cure or vaccineEdit
Recent research from the University of Toronto and Caprion Pharmaceuticals have discovered one possible avenue which might lead to quicker diagnosis, a vaccine or possibly even treatment for prion diseases. The abnormally folded proteins which cause the disease have been found to expose a side chain of amino acids which the properly folded protein does not expose. Antibodies specifically coded to this side chain amino acid sequence have been found to stimulate an immune response to the abnormal prions and leave the normal proteins intact. 
Another idea involves using custom peptide sequences. Since some research suggests prions aggregate by forming beta barrel structures, work done in vitro has shown that peptides made up of beta barrel-incompatible amino acids can help break up accumulations of prion. Yet a third idea concerns genetic therapy, whereby the gene for encoding protease-resistant protein is considered to be an error in several species, and therefore something to be inhibited.
- ↑ Jeffrey M, Goodbrand IA, Goodsir CM (1995). Pathology of the transmissible spongiform encephalopathies with special emphasis on ultrastructure. Micron 26 (3): 277-98. PMID 7788281.
- ↑ Collinge J (2001). Prion diseases of humans and animals: their causes and molecular basis. Annu Rev Neurosci 24: 519-50. PMID 11283320.
- ↑ Collins S, McLean CA, Masters CL (2001). Gerstmann-Straussler-Scheinker syndrome, fatal familial insomnia, and kuru: a review of these less common human transmissible spongiform encephalopathies. J Clin Neurosci 8 (5): 387-97. PMID 11535002.
- This entry incorporates public domain text originally from the National Institute of Neurological Disorders and Stroke, National Institutes of Health  and the U.S. National Library of Medicine 
- Brown P, Preece M, Brandel JP, Sato T, McShane L, Zerr I, Fletcher A, Will RG, Pocchiari M, Cashman NR, d'Aignaux JH, Cervenakova L, Fradkin J, Schonberger LB, Collins SJ (2000). Iatrogenic Creutzfeldt-Jakob disease at the millennium. Neurology 55 (8): 1075-81. PMID 11071481.
- Montagna P, Gambetti P, Cortelli P, Lugaresi E (2003). Familial and sporadic fatal insomnia. Lancet Neurol 2 (3): 167-76. PMID 12849238.
- Prusiner SB (2001). Shattuck lecture--neurodegenerative diseases and prions. N Engl J Med 344 (20): 1516-26. PMID 11357156.
- Weissmann C (2004). The state of the prion. Nat Rev Microbiol 2 (11): 861-71. PMID 15494743.
- Transmissible Spongiform Encephalopathy
- Neurodegenerative Disease.
- Neurodegenerative disease: Encephalopathy.
- UK CJD Surveillance Unit Statistics for prion disease in the UK, information on TSEs, and a comprehensive list of other links.
- Creutzfeldt-Jakob Disease Foundation Offers support and information concerning Creutzfeldt-Jakob Disease.
- Mad Cow Disease Info from the Center for Global Food Issues
- The Pathological Protein - Mad Cow, Chronic Wasting, and Other Deadly Prion Diseases (2003, updated online 2005). Philip Yam, Scientific American magazine writer and News Editor.
- European Symposium
- American Symposium