Prion protein aggregation assays in the diagnosis of human prion diseases

被引：0

作者：

Green, Alison J. E. ^{[1
]}

机构：

[1] Univ Edinburgh, Natl CJD Res & Surveillance Unit, Edinburgh, Midlothian, Scotland

来源：

FUTURE NEUROLOGY | 2015年 / 10卷 / 03期

基金：

英国医学研究理事会;

关键词：

blood; cerebrospinal fluid; PMCA; prion protein; RT-QuIC; sporadic Creutzfeldt-Jakob disease; transmissible spongiform encephalopathies; urine; variant Creutzfeldt-Jakob disease;

D O I：

10.2217/FNL.15.10

中图分类号：

R74 [神经病学与精神病学];

学科分类号：

摘要：

Sporadic Creutzfeldt-Jakob disease (sCJD) is the most common form of human prion disease and is associated with a progressive cognitive decline and death usually occurs within 6 months. Neuropathologically these diseases are characterized by the deposition of an abnormal form (PrPSc) of a normally expressed protein PrPC. At present there are no disease-specific diagnostic tests for prion diseases. Therefore, a test that will enable accurate and earlier diagnosis is needed. The ability of PrPSc to convert native PrPC into PrPSc has been exploited in a variety of protein aggregation assays such as protein misfolding cyclic amplification (PMCA), and real-time QuIC (RT-QuIC). Cerebrospinal fluid RT-QuIC is rapidly growing in acceptance as a reliable and accurate diagnostic test for sCJD.

引用

页码：217 / 228

页数：12

共 50 条

[1] Cerebrospinal Fluid Total Prion Protein in the Spectrum of Prion Diseases
Villar-Pique, Anna
Schmitz, Matthias
Lachmann, Ingolf
Karch, Andre
Calero, Olga
Stehmann, Christiane
Sarros, Shannon
Ladogana, Anna
Poleggi, Anna
Santana, Isabel
Ferrer, Isidre
Mitrova, Eva
Zakova, Dana
Pocchiari, Maurizio
Baldeiras, Ines
Calero, Miguel
Collins, Steven J.
Geschwind, Michael D.
Sanchez-Valle, Raquel
Zerr, Inga
Llorens, Franc
MOLECULAR NEUROBIOLOGY, 2019, 56 (04) : 2811 - 2821
[2] Cerebrospinal Fluid Total Prion Protein in the Spectrum of Prion Diseases
Anna Villar-Piqué
Matthias Schmitz
Ingolf Lachmann
André Karch
Olga Calero
Christiane Stehmann
Shannon Sarros
Anna Ladogana
Anna Poleggi
Isabel Santana
Isidre Ferrer
Eva Mitrova
Dana Žáková
Maurizio Pocchiari
Inês Baldeiras
Miguel Calero
Steven J. Collins
Michael D. Geschwind
Raquel Sánchez-Valle
Inga Zerr
Franc Llorens
Molecular Neurobiology, 2019, 56 : 2811 - 2821
[3] Distribution of intraneuronal immunoreactivity for the prion protein in human prion diseases
Kovacs, GG
Voigtländer, T
Hainfellner, JA
Budka, H
ACTA NEUROPATHOLOGICA, 2002, 104 (03) : 320 - 326
[4] Amplification techniques and diagnosis of prion diseases
Brandel, J-P
Culeux, A.
Grznaroua, K.
Levavasseur, E.
Lamy, P.
Privat, N.
Welaratne, A.
Denouel, A.
Laplanche, J-L
Haik, S.
REVUE NEUROLOGIQUE, 2019, 175 (7-8) : 458 - 463
[5] Prion protein aggregation
Jain, Shweta
Udgaonkar, Jayant B.
CURRENT SCIENCE, 2011, 101 (10): : 1311 - 1327
[6] The prion protein in human neuromuscular diseases
Kovács, GG
Kalev, O
Gelpi, E
Haberler, C
Wanschitz, J
Strohschneider, M
Molnár, MJ
László, L
Budka, H
JOURNAL OF PATHOLOGY, 2004, 204 (03): : 241 - 247
[7] Accumulation of prion protein in the peripheral nervous system in human prion diseases
Lee, CCM
Kuo, LT
Wang, CH
Scaravilli, F
An, SF
JOURNAL OF NEUROPATHOLOGY AND EXPERIMENTAL NEUROLOGY, 2005, 64 (08): : 716 - 721
[8] Conformational conversion of prion protein in prion diseases
Zhou, Zheng
Xiao, Gengfu
ACTA BIOCHIMICA ET BIOPHYSICA SINICA, 2013, 45 (06) : 465 - 476
[9] Prion Protein Functions and Dysfunction in Prion Diseases
Sakudo, Akikazu
Ikuta, Kazuyoshi
CURRENT MEDICINAL CHEMISTRY, 2009, 16 (03) : 380 - 389
[10] Protein amplification technology: New advances in human prion disease diagnosis
Wu, Jingxing
Chen, Dongdong
Shi, Qi
Dong, Xiaoping
BIOSAFETY AND HEALTH, 2021, 3 (06) : 325 - 332

← 1 2 3 4 5 →