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Journal Article
The state of the prion
2004
Overview
Key Points
Since the early 1950s researchers have been studying slow and invariably fatal diseases such as scrapie (sheep), Creutzfeldt–Jakob disease and kuru (humans), bovine spongiform encephalopathy (cattle and sheep) and chronic wasting disease (deer) that are now known to be caused by transmissible agents dubbed 'prions'. After decades of investigation the precise structure of the prion is still debated.
The 'protein-only' hypothesis posits that prions are congruent with PrP
Sc
, a misfolded form of the naturally occurring 'cellular prion protein' (PrP
C
). PrP
C
is encoded by the
Prnp
locus and is normally attached to the cell surface by a glycosylphosphatidyl inositol (GPI) anchor. Replication of the prion is attributed to PrP
Sc
-catalysed conversion of PrP
C
to PrP
Sc
. The 'virus' and 'virino' hypotheses propose that the infectious agent contains an informational nucleic acid; however, despite the best efforts of many laboratories, no such molecule has been identified so far.
Infectivity purified from infected brain material contains aggregates of PrP
Sc
as the major protein component, bundled together with other substances including glycosaminoglycans and polysaccharides. Solubilization of the aggregates by denaturants causes loss of infectivity, which so far is irreversible.
The replication of prions is discussed, together with experimental evidence obtained from whole organisms, cell lines and cell-free
in vitro
systems. Research into so-called 'yeast prions', self-propagating conformational isoforms of certain yeast proteins, has added experimental support to the protein-only hypothesis.
Differences in strains and factors that affect prion transmission are considered in light of the protein-only prion hypothesis. Expression of cellular PrP is essential for susceptibility to prion disease and for prion replication, but other genes also have a modulating role. The spread of prions within organisms also requires expression of the cellular form PrP
C
, both within and outside the central nervous system. Certain cells of the immune system serve as amplification sites in prion spread.
The origin and evolution of prions are considered. Misfolded PrP may have evolved to serve a useful purpose and at the same time acquired a pathogenic potential that, in early evolutionary times, when the human life span was short, did not confer a selective disadvantage. Alternatively, prions could be derived from ancient exogenous pathogens that are now fully integrated into host chromosomes. More trivially, prions are misfolded proteins that by coincidence have the ability to invade a host through the digestive tract, make their way into the lymphoreticular system where they are amplified and transfer themselves into the central nervous system, which they then destroy.
There is little doubt that the main component of the transmissible agent of spongiform encephalopathies — the prion — is a conformational variant of the ubiquitous host protein PrP
C
, and that the differing properties of various prion strains are associated with different abnormal conformations of this protein. The precise structure of the prion is not yet known, nor are the mechanisms of infection, conformational conversion and pathogenesis understood.
Publisher
Nature Publishing Group UK,Nature Publishing Group
Subject
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