Nature Medicine homepage
Advanced search
 Journal home > Archive > Table of Contents > Article > Abstract
Journal home
Advance online publication
Current issue
Archive
Press releases
Supplements
Focuses
Guide to authors
Online submissionOnline submission
For referees
Free online issue
Contact the journal
Subscribe
Advertising
work@npg
Reprints and permissions
About this site
For librarians
 
NPG Resources
Nature
Nature Reviews
Nature Immunology
Nature Cell Biology
Nature Genetics
news@nature.com
Nature Conferences
Dissect Medicine
NPG Subject areas
Biotechnology
Cancer
Chemistry
Clinical Medicine
Dentistry
Development
Drug Discovery
Earth Sciences
Evolution & Ecology
Genetics
Immunology
Materials Science
Medical Research
Microbiology
Molecular Cell Biology
Neuroscience
Pharmacology
Physics
Browse all publications
Article
Nature Medicine  7, 612 - 618 (2001)
doi:10.1038/87945

TGF-bold beta1 promotes microglial amyloid-bold beta clearance and reduces plaque burden in transgenic mice

Tony Wyss-Coray1, 2, Carol Lin1, Fengrong Yan1, Gui-Qiu Yu1, Michelle Rohde1, Lisa McConlogue4, Eliezer Masliah5 & Lennart Mucke1, 2, 3

1  Gladstone Institute of Neurological Disease, University of California, San Francisco, California, USA

2  Department of Neurology, University of California, San Francisco, California, USA

3  Neuroscience Program, University of California, San Francisco, California, USA

4  Elan Pharmaceuticals, South San Francisco, California, USA

5  Departments of Neurosciences and Pathology, University of California, San Diego, La Jolla, California, USA

Correspondence should be addressed to Tony Wyss-Coray twysscoray@gladstone.ucsf.edu
Abnormal accumulation of the amyloid-beta peptide (Abeta) in the brain appears crucial to pathogenesis in all forms of Alzheimer disease (AD), but the underlying mechanisms in the sporadic forms of AD remain unknown. Transforming growth factor beta1 (TGF-beta1), a key regulator of the brain's responses to injury and inflammation, has been implicated in Abeta deposition in vivo. Here we demonstrate that a modest increase in astroglial TGF-beta1 production in aged transgenic mice expressing the human beta-amyloid precursor protein (hAPP) results in a three-fold reduction in the number of parenchymal amyloid plaques, a 50% reduction in the overall Abeta load in the hippocampus and neocortex, and a decrease in the number of dystrophic neurites. In mice expressing hAPP and TGF-beta1, Abeta accumulated substantially in cerebral blood vessels, but not in parenchymal plaques. In human cases of AD, Abeta immunoreactivity associated with parenchymal plaques was inversely correlated with Abeta in blood vessels and cortical TGF-beta1 mRNA levels. The reduction of parenchymal plaques in hAPP/TGF-beta1 mice was associated with a strong activation of microglia and an increase in inflammatory mediators. Recombinant TGF-beta1 stimulated Abeta clearance in microglial cell cultures. These results demonstrate that TGF-beta1 is an important modifier of amyloid deposition in vivo and indicate that TGF-beta1 might promote microglial processes that inhibit the accumulation of Abeta in the brain parenchyma.

 Top
Abstract
Previous | Next
Table of contents
Full textFull text
Download PDFDownload PDF
Send to a friendSend to a friend
Save this linkSave this link

Open Innovation Challenges

naturejobs

More science jobs
Post a job for free
Figures & Tables
See also: News and Views by Weninger & Yankner
Export citation
natureproducts

Search buyers guide:

 
ADVERTISEMENT
 
Nature Medicine
ISSN: 1078-8956
EISSN: 1546-170X		 Journal home | Advance online publication | Current issue | Archive | Press releases | Supplements | Focuses | For authors | Online submission | For referees | Free online issue | About the journal | Contact the journal | Subscribe | Advertising | work@npg | Reprints and permissions | About this site | For librarians
Nature Publishing Group, publisher of Nature, and other science journals and reference works©2001 Nature Publishing Group | Privacy policy