Prions Properties Distinctive characteristics Diseases.
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Transcript of Prions Properties Distinctive characteristics Diseases.
Prions
PropertiesProperties
Distinctive characteristicsDistinctive characteristics
DiseasesDiseases
Properties Small, filterable infectious particles that contain
protein but no detectable nucleic acid. Prion proteins (PrPC) are encoded by the host
genome. PrPC is found in neuronal synapses, binds copper,
has unknown function. Prion proteins become infectious and pathogenic
(PrPSc) as a result of protein conformational changes.
PrPSc can catalyze its own formation from PrPC in animals.
PrPSc aggregates and accumulates in diseased brain.
Prions
Diseases Chronic, progressive, invariably fatal central nervous
system degeneration. Brain pathology is spongiform encephalopathy—large
vacuoles in cortex and cerebellum give brain a sponge-like appearance.
Affected areas contain microscopic insoluble amyloid fibrils and macrocrystalline arrays known as amyloid plaques.
No signs of a host immune response. Can arise spontaneously or by ingestion of infected tissue. Affects wild and domesticated ruminants (sheep and goats:
scrapie; cattle: mad cow disease); mink, cats. Experimentally transferred to mice, hamsters, chimpanzees.
Prions
Distinctive characteristics Proteinaceous infectious agent that contains no
nucleic acid and consists only of a single species of protein called PrP.
A new kind of infectious agent that can transmit a disease and replicate itself without the intervention of informational nucleic acids.
Prions
Prions are proteins that cause fatal brain diseases
Prion diseases were first detected in domestic ruminants
BSE, mad cow disease Scrapie in sheep, goat
Human prion diseases can be either inherited or transmitted
Prions
Prions
The infectious agent of prion diseases contains protein but no detectable nucleic acid
PrPSc is encoded by a host cell gene
Prions
Fig. 30.3 Domains and modifications of the prion protein.
Differences between PrPC and PrPSc
Proteinase K treatment of PrPSc gives a proteinase-resistant 27–30 kilodalton core fragment (PrP 27–30) (missing N-terminal aa 23-89) that retains infectivity
PrPSc tends to form oligomers and aggregates detected as fibrils in infected brains
the conformational change from PrPC to PrPSc could involve formation of -helix structure
Prions
Prions
Fig. 30.6 -helical model of PrP 27–30.
Top (a) and side views (b), respectively, of PrP 27–30 modeled with theN-terminal portion of the protein as a left-handed –helix (ribbon arrows displayed in a triangular barrel). The structure of the -helical part (ribbon helices) was derived from the known strucure of the C-terminal region of PrPC.
The prion hypothesis: formation of infectious and pathogenic prions from normal PrPC
Preexisting Prpc is required to propagate infectious prions and cause prin disease
Prions
Is the prion hypothesis correct?
Pathology and diagnosis of prion diseases Tissue abnormalities (insoluble amyloid fifers) of
prion disease are confined to CNS
Prions
Prions
Genetics of prion diseases Encoded by a single exon of unique gene Heterozygosity at 129 protects against both
inherited and infectious prion disease
Prion diseases are not usually transmitted among different species
Prion infectivity depends on sequence similarity between donor and recipient prion proteins
But species barrier is not absolute
Prions
Strain variation and crossing of the species barrier
Human cases of new varient CJD appear to linked to the BSE epidemic in the UK
New varient CJD is distinct from sporadic CJD, caused by different prion strain, less restricted by species barrier
Protein pattern of nvCJD is similar to that of BSE-infected animals
The nature of the prion infectious agent Prions are transmissible, replicable, and variable
disease-causing agents that are distinct from viruses.
Whether we define them as “living” or “nonliving” or as an “infectious enzyme,” we do know the following about them:
(1) they have arisen in organisms during evolution
(2) they are able to propagate themselves and the diseases they cause
(3) they appear to be able to evolve and to adapt themselves to different hosts.
Prions
Key Terms
Amyloid BSE Chlorpromazine Creutzfeldt-Jakob disease (CJD) Dendritic cells Dura mater Kuru
Mad cow disease New variant Creutzfeldt-Jakob
disease (nvCJD or vCJD) Prion Prion disease Quinacrine Scrapie Spongiform encephalopathy Transgene