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Web edition: June 19, 2012
Print edition: July 14, 2012; Vol.182 #1 (p. 5)
The Alzheimer’s-related protein amyloid-beta is an infectious instigator in the brain, gradually contorting its harmless brethren into dangerous versions, new evidence suggests. The study adds to the argument that A-beta is a prion, a misfolded protein that behaves like the contagious culprits behind Creutzfeldt-Jakob disease in people, scrapie in sheep and mad cow disease.
There’s no evidence that Alzheimer’s can spread from person to person, but thinking of Alzheimer’s as a prion disease could change the way researchers approach treatment and prevention strategies. The results also raise troubling implications for people who participated in a clinical trial in which they received a form of A-beta made in the lab, Stanley Prusiner of the University of California, San Francisco and colleagues write online June 18 in the Proceedings of the National Academy of Sciences.
In the study, the researchers injected purified A-beta protein to seed one side of mice’s brains and monitored it with a fluorescent molecule that became visible as the protein accumulated. After about 300 days, the A-beta had accumulated throughout the brain, similar to what happens in Alzheimer’s. “It really does spread,” says study coauthor Kurt Giles of UCSF. “We inoculate in one part of the brain but the pathology spreads through the whole brain.”
The most devastating kind of A-beta was that taken directly from the brains of other mice and purified, the team shows. But a synthetic version also spread, albeit slower than the brain-derived A-beta. Previous studies have hinted that A-beta acts like a prion, but no one had successfully shown that, on its own, synthetic A-beta could kick off a cascade of misfolding among the brain’s native A-beta. By demonstrating this, the researchers prove that A-beta can act as a seeding agent, says neurobiologist Mathias Jucker of the University of Tübingen in Germany. “It’s very, very beautifully shown.”
The team couldn’t determine the actual shapes of the A-beta injected into the mice, nor did researchers look for behavioral changes in the mice, but plan to study those issues in the future.
Neuroscientist George Bloom of the University of Virginia in Charlottesville points out that the study doesn’t rule out an alternative explanation for the effect of the A-beta inoculations. The extra A-beta could be changing the flux of A-beta production or clearance, which would then result in A-beta accumulation, he says. But the data are convincing, he says. “It sure looks and smells a lot like prion disease.”
From the study, it’s not clear what form of A-beta is responsible for the prionlike activity. Small forms called oligomers or large clumps of fibrils could be to blame for the spreading. Nor is it known what accounts for the different potencies of the brain-derived and synthetic A-beta.
In a clinical trial halted in 2002, people with mild to moderate Alzheimer’s were immunized with synthetic A-beta in an effort to clear their brains of A-beta buildup. If synthetic A-beta behaves like a prion, these people could face a heightened risk for A-beta buildup, Giles and colleagues write. There’s currently no evidence of this, says pathologist Eliezer Masliah of the University of California, San Diego. “Even though it’s something to be aware of, I think the likelihood of that is very small.”
Back Story | SHAPE-SHIFTING PROTEINS AND DISEASE
Bacteria, viruses and parasites can cause infections, but so can misshapen proteins called prions. Prions’ infectivity comes from a self-propagating change in shape. In prions, the innocuous form of a protein often contains helical twists that can be converted to flat beta-sheets (although this can be a normal form for proteins too). For unknown reasons, this flat conformation can incite other proteins of that species to shape-shift too, sometimes forming toxic deposits. For amyloid-beta protein, the suspected culprit in Alzheimer’s disease, the exact shape change isn’t known. But new work suggests that Alzheimer’s can be added to a growing list of brain disorders that share some key features with prion diseases. In the June 22 Science, Stanley Prusiner of UCSF argues that a prion-based explanation unites a wide array of neurodegenerative diseases, all of which may stem from misfolded proteins self-propagating through the brain.
Illustration: T. Dubé; Source (table): S. Prusiner/Science 2012
Citations
J. Stöhr et al. Purified and synthetic Alzheimer’s amyloid beta(Aβ) prions. Proceedings of the National Academy of Sciences. doi: 10.1073/pnas.1206555109. [Go to]
Suggested Reading
T. Hesman Saey. Neuron Killers. Science News, Vol. 174, August 16, 2008, p. 20. Available online: [Go to]
L. Sanders. Prions complicit in Alzheimer’s disease. Science News, Vol. 175, March 28, 2009, p. 10. Available online: [Go to]
Please alert Science News to any inappropriate posts by clicking the REPORT SPAM link within the post. Comments will be reviewed before posting.
In the case of Alzheimer's, the metastable configuration system may be more susceptible to the problem when surrounding biochemistry goes outside its optimum range as a result of aging or some sort of damage. Such predisposing factors may or may not be necessary for the spread of previously characterized prion diseases such as BSE.
"Basically, for four decades, some researchers have continued to suspect bacteria or virus to be involved in TSE diseases. However, in the early 1980s some researchers were frustrated by the inability to specifically identify a bacterial or viral origin and hence proposed a non-biotic process as creating these diseases, AKA non- DNA coded prions (proteinaceous infectious particles). Through very adroit and expert PR manipulation, the theory (initially nixed by the scientific community) caught on and eventually led to a Nobel Prize for Dr. Stan Pruisner. Since then, research monies have flowed like water, but the results have been less than stellar. Prion theory has major flaws, some seemingly fatal, e.g., multiple strains of disease (21 kinds of sheep scrapie), animal-to-animal transmission but no detectable transferring agent, a suppression of the disease by tetracycline (an antibiotic), the presence of foreign DNA within diseased cells, and so on.
As such, when my own animals contracted CWD (I had 350 elk, 3 of which got the disease) I watched the disease progression very closely. Using basic scientific observation skills (I am a geologist-geochemist, a noted elk expert and national championship level elk antler grower) I tried to better understand the disease. Then, over the next year I read all I could find from the National Institute of Health library, and discovered that not everyone believes in prions. A Tulane University professor had very interesting proofs that TSE may be caused by bacteria.
The gist of this theory (actually Dr. Bastian's, as he originally proposed it some 35 years ago) is founded and explained with my disease "symptom chart" found about two-thirds of the way into the paper. There are twenty-one symptoms of TSE disease and a bacteria can cause all 21 of them! Every symptom of TSE disease can be explained by a very peculiar bacteria which is very poorly understood by most medical personnel. Sprioplasmas were only "discovered" in the mid-1970s. All my proofs are from independently documented sources. When presented in the whole (for the first time in my paper) the evidence is, in my humble opinion, overwhelming. This is the first time anyone will have seen all this information in one place. This makes a compelling case!"
Ed Gehrman
These are standard criteria, used every day in laboratories around the world. Until such evidence is available, a route of infection has not been established.
Yes, Dr. Frank Bastian has cultured spiroplasma and then injected these wall deficient bacteria into lab animals and
they all exhibited the symptoms of TSE. Their brains were then injected into other lab animals
and they too experienced the same TSE symptoms. Dr. Bastian has published many research
papers on the subject but his main message hasn't been well received. Do a search on Dr. Frank Bastian and you see some of his research and my articles on the subject and email address. Rich Forest, know as Deerfarmer, is a CWD researcher who also
thinks Dr. Bastian is on the right path. He wrote the quote I used in my first post.Contact me for Dr. Bastian's latest
research, hot off the press. There is ample evidence, albeit ignored by the establishment,
that spiroplasma are responsible for all TSE, including Alzheimer's. Prions are a red herring. They are the result of infection,
not the cause or the agent of transmission. Check out Dr.Bastian's elegant research and you'll soon be convinced, too.
Ed Gehrman, Dr. Bastian may or may not be correct, but it is my understanding (I am a biochemist) that Dr. Bastian's work has not been fully and independently replicated by any other laboratory. While his work does provide interesting evidence that Spiroplasma can infect mice, I could find no independent duplication of his work published in a peer-reviewed professional journal. Moreover, a few publications in professional, peer-reviewed journals have cited a complete inability to find any signature of Spiroplasma in tested animal models or in human patients with Cruzfeldt-Jacob disease. Your research and Dr. Bastian's may or may not be correct, but until and unless independent (and that IS a key word) confirmatory evidence is provided, the prion hypothesis, despite its many flaws, remains the stronger explanation of the data. Independent confirmation of published experimental results is still a necessary part of the scientific method.
Dr. Bastian has been studying TSE for over thirty years
and has published many research papers linking Spiroplasma
to TSE. I realize that links are not allowed in this comments section but if you send me an email at egehrman@gotsky.com I'll send you a link to his latest research, which I'm sure you'll find fascinating.
Also Rich Forest, a deerfarmer, has been researching CWD
and his web site argues convincingly for the spiroplasma/TSE connection.
Ed Gehrman
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