JOURNAL ARTICLE
RESEARCH SUPPORT, U.S. GOV'T, P.H.S.
Add like
Add dislike
Add to saved papers

In vitro conversion of mammalian prion protein into amyloid fibrils displays unusual features.

Biochemistry 2005 Februrary 23
The "protein only" hypothesis of prion propagation postulates that the abnormal isoform of the prion protein, PrP(Sc), acts as a causative and transmissible agent of prion disease. In attempt to reconstitute prion infectivity in vitro, we previously developed a cell-free conversion protocol for generating amyloid fibrils from a recombinant prion protein encompassing residues 89-231 (rPrP 89-230) [Baskakov et al. (2002) J. Biol. Chem. 277, 21140]. When inoculated into transgenic mice, these amyloid fibrils induced prion disease, which can be efficiently transmitted to both wild-type and transgenic mice [Legname et al. (2004) Science 305, 673]. Here we show that the polymerization of rPrPs into the fibrils displays a number of distinctive kinetic features that are not typical for polymerization by other amyloidogenic polypeptides. Specifically, the lag phase of polymerization showed only modest dependence on protein concentration, and the conversion reaction displayed a dramatic volume-dependent threshold effect. To explain these unique kinetic features, we proposed that the conversion reaction is regulated by the dynamics between the rates of multiplication and deactivation of self-propagating fibrillar isoforms. Our further studies demonstrated that surface-dependent sorption of fibrillar isoforms is responsible for their deactivation in vitro, while fibril fragmentation seems to account for the multiplication of the active centers of polymerization. Our findings support the hypothesis that development of prion disease is controlled by a fine dynamic balance between self-propagation and clearance/deactivation of PrP(Sc).

Full text links

We have located links that may give you full text access.
Can't access the paper?
Try logging in through your university/institutional subscription. For a smoother one-click institutional access experience, please use our mobile app.

For the best experience, use the Read mobile app

Mobile app image

Get seemless 1-tap access through your institution/university

For the best experience, use the Read mobile app

All material on this website is protected by copyright, Copyright © 1994-2024 by WebMD LLC.
This website also contains material copyrighted by 3rd parties.

By using this service, you agree to our terms of use and privacy policy.

Your Privacy Choices Toggle icon

You can now claim free CME credits for this literature searchClaim now

Get seemless 1-tap access through your institution/university

For the best experience, use the Read mobile app