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Literature DB >> 19602567

The consequences of pathogenic mutations to the human prion protein.

Abstract

Prion diseases, in which the conformational transition of the native prion protein (PrP) to a misfolded form causes aggregation and subsequent neurodegeneration, have fascinated the scientific community as this transmissible disease appears to be purely protein-based. Disease can arise due to genetic factors only. At least 30 single point mutations have been indicated to cause disease in humans. Somehow, these mutations must influence the stability, processing and/or cellular interactions of PrP, such that aggregation can occur and disease develops. In this review, the current evidence for such effects of single point mutations is discussed, indicating that PrP can be affected in many different ways, although questions remain about the mechanism by which mutations cause disease.

Entities: Disease Gene Species

Mesh：

Substances：
Prions

Year: 2009 PMID： 19602567 PMCID： PMC2719504 DOI： 10.1093/protein/gzp039

Source DB: PubMed Journal: Protein Eng Des Sel ISSN： 1741-0126 Impact factor: 1.650

109 in total

1. The D178N (cis-129M) "fatal familial insomnia" mutation associated with diverse clinicopathologic phenotypes in an Australian kindred.

Authors: C A McLean; E Storey; R J Gardner; A E Tannenberg; L Cervenáková; P Brown
Journal: Neurology Date: 1997-08 Impact factor: 9.910

2. Separation of scrapie prion infectivity from PrP amyloid polymers.

Authors: H Wille; G F Zhang; M A Baldwin; F E Cohen; S B Prusiner
Journal: J Mol Biol Date: 1996-06-21 Impact factor: 5.469

3. Familial mutations and the thermodynamic stability of the recombinant human prion protein.

Authors: W Swietnicki; R B Petersen; P Gambetti; W K Surewicz
Journal: J Biol Chem Date: 1998-11-20 Impact factor: 5.157

4. Theoretical studies of sequence effects on the conformational properties of a fragment of the prion protein: implications for scrapie formation.

Authors: S L Kazmirski; D O Alonso; F E Cohen; S B Prusiner; V Daggett
Journal: Chem Biol Date: 1995-05

5. A transmembrane form of the prion protein in neurodegenerative disease.

Authors: R S Hegde; J A Mastrianni; M R Scott; K A DeFea; P Tremblay; M Torchia; S J DeArmond; S B Prusiner; V R Lingappa
Journal: Science Date: 1998-02-06 Impact factor: 47.728

6. Prion protein aggregation reverted by low temperature in transfected cells carrying a prion protein gene mutation.

Authors: N Singh; G Zanusso; S G Chen; H Fujioka; S Richardson; P Gambetti; R B Petersen
Journal: J Biol Chem Date: 1997-11-07 Impact factor: 5.157

7. Influence of amino acid substitutions related to inherited human prion diseases on the thermodynamic stability of the cellular prion protein.

Authors: S Liemann; R Glockshuber
Journal: Biochemistry Date: 1999-03-16 Impact factor: 3.162

8. Familial prion disease mutation alters the secondary structure of recombinant mouse prion protein: implications for the mechanism of prion formation.

Authors: R Cappai; L Stewart; M F Jobling; J M Thyer; A R White; K Beyreuther; S J Collins; C L Masters; C J Barrow
Journal: Biochemistry Date: 1999-03-16 Impact factor: 3.162

9. Phenotypic variability of Gerstmann-Sträussler-Scheinker disease is associated with prion protein heterogeneity.

Authors: P Piccardo; S R Dlouhy; P M Lievens; K Young; T D Bird; D Nochlin; D W Dickson; H V Vinters; T R Zimmerman; I R Mackenzie; S J Kish; L C Ang; C De Carli; M Pocchiari; P Brown; C J Gibbs; D C Gajdusek; O Bugiani; J Ironside; F Tagliavini; B Ghetti
Journal: J Neuropathol Exp Neurol Date: 1998-10 Impact factor: 3.685

10. Prion protein NMR structure and familial human spongiform encephalopathies.

Authors: R Riek; G Wider; M Billeter; S Hornemann; R Glockshuber; K Wüthrich
Journal: Proc Natl Acad Sci U S A Date: 1998-09-29 Impact factor: 11.205

22 in total

1. Direct observation of multiple misfolding pathways in a single prion protein molecule.

Authors: Hao Yu; Xia Liu; Krishna Neupane; Amar Nath Gupta; Angela M Brigley; Allison Solanki; Iveta Sosova; Michael T Woodside
Journal: Proc Natl Acad Sci U S A Date: 2012-03-15 Impact factor: 11.205

Review 2. Structural requirements for efficient prion protein conversion: cofactors may promote a conversion-competent structure for PrP(C).

Authors: Andrew C Gill; Sonya Agarwal; Teresa J T Pinheiro; James F Graham
Journal: Prion Date: 2010-10-20 Impact factor: 3.931

3. Influence of pH on the human prion protein: insights into the early steps of misfolding.

Authors: Marc W van der Kamp; Valerie Daggett
Journal: Biophys J Date: 2010-10-06 Impact factor: 4.033

4. Simulations of membrane-bound diglycosylated human prion protein reveal potential protective mechanisms against misfolding.

Authors: Chin Jung Cheng; Heidi Koldsø; Marc W Van der Kamp; Birgit Schiøtt; Valerie Daggett
Journal: J Neurochem Date: 2017-05-22 Impact factor: 5.372

Review 5. PrP assemblies: spotting the responsible regions in prion propagation.

Authors: Stéphanie Prigent; Human Rezaei
Journal: Prion Date: 2011-04-01 Impact factor: 3.931

Review 6. Probing the role of structural features of mouse PrP in yeast by expression as Sup35-PrP fusions.

Authors: Lyne Jossé; Ricardo Marchante; Jo Zenthon; Tobias von der Haar; Mick F Tuite
Journal: Prion Date: 2012-07-01 Impact factor: 3.931

7. Pathogenic mutations in the hydrophobic core of the human prion protein can promote structural instability and misfolding.

Authors: Marc W van der Kamp; Valerie Daggett
Journal: J Mol Biol Date: 2010-10-07 Impact factor: 5.469