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Biotech Science

Artificial Prion Created 496

jabberjaw writes "Nature is reporting that researchers at the University of California San Diego have created a synthetic prion which, when injected into mice will bring about symptoms similar to those displayed by cattle suffering from bovine spongiform encephalopathy, aka mad cow disease. The researchers first crafted healthy prion proteins using bacteria. They then shook these proteins until they resembled the tangled structure of an unhealthy prion. Afterwords, these prions were injected into the brains of mice who fell ill two years later. Perhaps someone who is more familiar with this field of research would care to fill us in on the details as the article was rather light."
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Artificial Prion Created

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  • whoo hoo? (Score:5, Funny)

    by grasshoppa ( 657393 ) on Thursday July 29, 2004 @11:46PM (#9840650) Homepage
    We gave mice mad cow disease! Yay!

    This is the first step, I'm sure, to giving it to politicians.

    On perhaps a bit more serious of a note, what does this do for us? Is this highlighting that we now know HOW the disease is created, so we can start developing a cure? Or am I wrong. Again. :)
    • Re:whoo hoo? (Score:5, Insightful)

      by MadBiologist ( 657155 ) on Thursday July 29, 2004 @11:54PM (#9840713)
      That's most likely... by creating a model disease in a biological system, different drugs can be tried out on it to test efficacy.

      There are all sorts of protocols like this already... ie, EAE (Experimental Allergic EncephaloMyelitis) where they give mice... um... artificial MS, then test drug canidates out on them to see what the effect is. It's not very nice to watch.

      That's why I'm glad that I'm in molecular studies. However, it's done to help people with these diseases, and animal reseach is really the only way to conduct some of these tests.

      Peace...
      • Re:whoo hoo? (Score:3, Interesting)

        by syousef ( 465911 )
        It seems to me that creating a new version of a highly contagious disease is a dubious way to go about trying to cure it. What happens if the new disease escapes into the wild? The plague was carried by mice and their flees after all.

        Am I way off base here?
        • Re:whoo hoo? (Score:3, Informative)

          by DeeBs ( 755536 )
          Creutzfeldt-Jakobs disease (spelling?) is not highly contagious. Far from it. The risks of a person contracting it from tainted meat are blown out of proportion by politicians looking for reasons to hinder imports of meat from other countries. Even among cattle, where it is *most* common, it is still rare. The entire North American herd has only had, I believe, 2 confirmed cases of BSE in something close to 50 years. I would hardly call that common.
          • Re:whoo hoo? (Score:3, Informative)

            by kanthoney ( 80093 )
            Yes, but there have been 150 *human* deaths (so far) from vCJD due to the BSE outbreak here in Britain. Of course, the reason it spread through cattle here is because we put the remains of dead cows in their feed as a protein supplement. As long as they don't do that in the US then there won't be any problem.
          • You Sir (Score:5, Informative)

            by Seraphim_72 ( 622457 ) on Friday July 30, 2004 @08:52AM (#9843166)
            ...are an idiot.

            Current research believes that 50% or more of Alzheimers patients are really a form of prion degredation of the brain. It has nothing to do with politics. It is not most common in cattle, it is most seen sheep. And the entire US herd has zero cases of BSE (Bovine Spongiform Encephalopathy). Canada has had 1, and one is unconfirmed. This however is trival. BSE is already in the food supply, of this there is no doubt. Current testing ability cannot find BSE in low levels. The only question is - are you at risk? I dunno, but -

            Eat all the beef you want to, I only hope that you don't get an infected cow. A Neurosurgeon I heard speak(who has treated CJD personally) said it is the worst way to die he has ever seen - this from a guy that sees brain damage every day.

            Sera
            • Re:You Sir (Score:3, Insightful)

              by maximilln ( 654768 )
              The parent isn't an idiot. Yes, Alzheimer's and Parkinson's may be closely related to CJD.

              No... No one has ever conclusively demonstrated that you can take a prion from one species and use it to induce a prion state in another species. The current article fails to show any significant effect on mice using sheep scrapie Sc237 in mice. There have been one or two other research groups who have practically saturated one species with the prion of another and then claimed to find evidence of interspecies cros
              • Re:You Sir (Score:3, Insightful)

                by Hatta ( 162192 )
                There have been one or two other research groups who have practically saturated one species with the prion of another and then claimed to find evidence of interspecies crossing. That research is dubious at best.

                Hey, that's the same standard of proof we have for MDMA neurotoxicity.
            • Re:You Sir (Score:4, Funny)

              by Profane MuthaFucka ( 574406 ) <busheatskok@gmail.com> on Friday July 30, 2004 @09:20AM (#9843425) Homepage Journal
              I've seen worse ways to die than CJD. Yes, I read Stile Project and Consumption Junction.

        • Re:whoo hoo? (Score:5, Informative)

          by BrokenHalo ( 565198 ) on Friday July 30, 2004 @03:00AM (#9841484)
          Am I way off base here?

          Yes.

          Prion diseases (to oversimplify a bit) are caused by incorrectly folded proteins that induce "correctly" folded proteins to assume the prion form. They are typically communicated by ingestion of meat (or meat products) from infected animals.

          Bubonic plague is a bacterial infection by Yersinia pestis.

        • Re:whoo hoo? (Score:3, Informative)

          It seems to me that creating a new version of a highly contagious disease is a dubious way to go about trying to cure it. What happens if the new disease escapes into the wild? The plague was carried by mice and their flees after all.

          Am I way off base here?

          Completely.

          Prions are proteins that are found (in at least their harmless, unfolded, flexible state) in most (if not all) plants and animals on the planet. If the harmful (folded and rigid) prions are introduced into an organism, they either (a) conv

      • you're right (Score:3, Informative)

        by Tangurena ( 576827 )
        >It's not very nice to watch. You are right. I had an uncle die of vCJD (mad cow disease when a person gets it) back in the early 80s. AIDS merely kills you, vCJD destroys what makes you human before it kills you. It basically destroys your brain bit by bit, until it finally destroys the part that controls your breathing and heartbeat (and you stop/forget breathing at that point).

        It is the most scary thing I have ever seen or experienced in my life. I've seen folks with advanced AIDS and other fatal di

    • Re:whoo hoo? (Score:2, Informative)

      by nilius ( 637512 )
      "On perhaps a bit more serious of a note, what does this do for us? Is this highlighting that we now know HOW the disease is created, so we can start developing a cure?"

      Acording to a genetic biologist that I briefly "dated", there has been a long standing debate over whether prions are the cause of or end result of brain wasting type diseases. So I believe the answer to your question is yes.

      Which is fairly ironic since her masters research was based on searching for hiden viri that could posibly be af
    • Re:whoo hoo? (Score:5, Informative)

      by mrfunnypants ( 107364 ) on Friday July 30, 2004 @12:23AM (#9840881)
      This is huge because it was still not very clear that Prions even existed. Many people in the field didn't agree with the very existence and this group has basically just proven that in fact proteins can cause disease. In the world if you had started sprouting off that proteins caused disease in as late as the 80's scientist would laugh and remove you from any future funding. Just to give you an idea, read this link at UCSD where Prions are discussed:

      ucsd link [ucsd.edu]

      As for your question of how the disease works. Theories were made about how this was possible, dealing with stereochemistry of the prion proteins causing your natural protein to switch its stereochemistry to the unnatural state found within the Prions in a cascade effect resulting in death. It appears this group may have verified this theory.

      • Re:whoo hoo? (Score:4, Informative)

        by maximilln ( 654768 ) on Friday July 30, 2004 @08:42AM (#9843068) Homepage Journal
        This is huge because it was still not very clear that Prions even existed

        This isn't _that_ huge.

        About 30% of Tg196 mice develop spontaneous illness at ~550 days of age.

        The transgenic mice being studied are already susceptible to this genetic defect and the researchers antagonized it by adding the purified product of the genetic defect. Is there any surprise that more mice became more sick more quickly?

        Additionally one must look closely at the graphs on page 674. I can't locate in the article what "RML" is, but apparently administering RML caused conditions and antagonized the CNS of the mice even more than the purified MoPrP(89-231). 100% of the RML group experienced CNS dysfunction after less than 200 days. On top of that the researchers haven't proven that there's a clear prion effect. Immunoblot analysis of a brain tissue puree is hardly a characteristic identifier of MoPrP(P101L). The RML and PBS lanes are nearly identical to the lanes of mice which received the bacterial broth.

        The authors acknowledge that 30% of their mice will develop spontaneous disease at ~550 days but they try to pooh-pooh that fact when they begin to discuss their findings

        In earlier studies, uninoculated Tg9949 mice lived for more than 500 days without any signs of neurologic dysfunction... In the study reported here, Tg9949 mice were healthy at ~670 days of age and failed to show any signs of disease at 620 days after inoculation or 525 days with SHa Sc237 prions.

        Then, on page 675

        When the healthy Tg9949 mice inoculated with the Sc237 prions were killed at 525 days after inoculation, five of the seven Tg9949 mice inoculated with the seeded amyloid were already ill.

        That's probably because Sc237 is the prion protein for sheep scrapie. While Europe was busy killing ever cow in sight, sane scientists were trying to tell them that the chance of a prion crossing the interspecies barrier is minimal. Conveniently, there is no immunoblot of the Sc237 inoculated mice. I wouldn't be surprised if it looks the same as the 9949 and RML lanes.

        Does anyone else read these things critically?
        • Re:whoo hoo? (Score:5, Insightful)

          by Sgt York ( 591446 ) <jvolm@earthli[ ]net ['nk.' in gap]> on Friday July 30, 2004 @10:18AM (#9843964)
          Does anyone else read these things critically?

          Well, seeing as that it's in Science, it probably was reviewed. RML is a purifed prion preparation (made by Rocky Mountain Labs), and is a common positive control in prion studies. To the grandparent: the scientists that still dismiss prion disease are few and far between. The majority of the scientific community accepts the prion mechanism of transmission now. This was not the case a few years ago, but it's an accepted mechanism now.

          All that said, I do think it's a bit of a stretch to call these "synthetic prions". I only skimmed the paper so far, but as far as I can tell, they state that these are only infectious in mice that already overexpress an aberrant protein (16 fold!) in the CNS.

          The big thing that gets me is the lack of controls. This is a Science paper; where is the CD1 mouse infected with the 'synthetic prion'? My guess is that it didn't get disease, so they excluded the data. Fig 1C starts to show this a little, but still lacks proper controls. Here, they show that brain homogenate from 9949 mice hit with seeded protein can induce disease in normal (FVB) mice. They still don't do complete controls, though. Where is the homogenate + CD1 mouse? The FVB + vehicle mouse? Heck, where are the loading controls? Come on, a Science paper without loading controls???? It's not exactly the kind of thing that belongs in "unpublished data".

          The positive side is that they seem to have confirmed the role of beta-rich regions in prion disease, and the importance of crystal/amyloid formation (which has been downplayed recently due to gross pathologic findings; this suggests that micro-plaques will also cause disease). Hammering out the structural domains responsible for disease is an important step.

    • by bcrowell ( 177657 ) on Friday July 30, 2004 @12:27AM (#9840900) Homepage
      We gave mice mad cow disease! Yay!
      The lesson is clear. If someone comes at you with a big long needle, and wants to stick it in your brain, don't let him!
  • by Anonymous Coward on Thursday July 29, 2004 @11:47PM (#9840653)
    Don't eat the beef that comes from those experimental mice.
  • two years?? (Score:5, Funny)

    by Anonymous Coward on Thursday July 29, 2004 @11:47PM (#9840661)
    they should get an award just for keeping mice alive for two years. When I was a kid my pet mice lasted like two months and I kept good care of them too. I'm not as interested in the mad cow/mice disease as I am in the mouse longevity.
    • by Anonymous Coward
      If you'd just stop felching them they would live longer. "ARMAGEDDON!"
    • I'm not as interested in the mad cow/mice disease as I am in the mouse longevity.
      Your spam filter must be set too high, I've been getting M.o-USsC-Le L0-N.G.eEVi-T.yY offers via email for several years now...
  • 1. Turn mice into gigantic mad cows 2. ??? 3. Profit!!
  • by airbie ( 767806 ) on Thursday July 29, 2004 @11:52PM (#9840702) Homepage Journal
    because prions are more basic and fundamental than even germs/viruses. most modern methods of treating diseases and fighting virus involve disrupting the replication process of the virus/germs, usually by the means of inhibiting certain proteins. however prions themselves are malformed proteins that malform other good proteins. this mechanism is quite hard to stop because it is so simple, there is no complicated repoduction chain to disrupt like a virus. there is only one way to stop this chain, which is to basically burn the protein to a crisp.
    • I was under the impression that prions could not be denatured by heat.
    • More scary (Score:4, Interesting)

      by Joe 'Nova' ( 98613 ) on Friday July 30, 2004 @01:12AM (#9841094) Homepage
      Somewhere else in thread, someone asks if this is a first step to a cure. Not wanting to sound alarmist, but I will anyway.

      Suppose some not-so-nice people find a way to medicate the symptoms away(needing injections/pills/treatments) to make you functional, do you think they(he-who-would-profit) would create a cure? Look at diabetes. Nasty. If there was money in a cure, nobody would need insulin shots. Truth is, cutting down on sugar intake is a better preventative.
      This(BSE) however, is insidious. It takes years to manifest, and by that time, you could be done for. Another worst case-if you have a treatment for the condition, if you displease someone who wants you gone, all it takes is for them to MAKE the prion fold wrong(tampering with the treatment to cause it) instead of mitigate the bad folded ones, you would be none the wiser, and it wouldn't show for years. Not saying that Pharmas have ethical problems...*cough*
      I see it as a tool, and how this tool will be used will determine what the outcome is.
      And a short blurb about Alzheimers. It appears some of the people diagnosed with it actually have CJD(human equivalent). I'll leave it up to newsies/linker types to Google it.
      Oh, FYI-the prion 'dies' at around 1000 C. You'd kill any patient you try to 'clean'. Perhaps it resonates at a different frequency than the normal folded sequence. Detection(absorption) and irradication(more power) might be possible.
      Yeah, it creeps me way out. Appologies for bad grammar, spelling-it's late. Sweet dreams...
      • by Moraelin ( 679338 ) on Friday July 30, 2004 @04:34AM (#9841808) Journal
        Wasn't feeling like /. without some idiotic conspiracy theory. And hey, look, it's the old favourite: those evil pharma corporations are all refusing to develop a cure.

        Never mind that:

        1. There _is_ money in a cure. If you had a cure for, say, Cancer and a 20 year patent on it, you could sell it for any sky-high amount of money you'd want to. It's the perfect extortion scheme. You pay up or you die a slow painful death.

        2. Lo and behold, they did make cures and vaccines for a metric buttload of diseases.

        3. Most importantly: there are doctors, pharmacists, managers at pharmaceuticals corporations, etc, who die of Cancer every year. Or have a bad case of diabetes. Or whose _child_ is dying of some disease.

        Now you're telling me no less than they'll rather patiently wait for their own death -- or the death of those they love -- rather than break the conspiracy oath and divulge the cure. Doesn't that strike you as a completely retarded idea? If _you_ could make a cure, and you'll _die_ if you don't, wouldn't you just make the stupid cure already?

        4. We're talking millions of doctors, pharmacists and researchers world wide. Some in countries where they don't even have private enterprise as you know it. (E.g., until recently the USSR and to some extent still China.) Or where it's not even easy to keep in touch with a western conspiracy. (E.g., the USSR block was pretty much isolated and guarded by a paranoid secret police.) And which invested hundreds of billions in researchs. (E.g., in developping their own nuclear weapons, sattellites, chemical weapons, biological weapons, ICBMs, etc.)

        Yet you'd want me to believe that _all_ those are part of the same global conspiracy to keep some diseases untreated.

        You know what? There's a medical name for that. It's called "Paranoia".
        • by SydShamino ( 547793 ) on Friday July 30, 2004 @09:26AM (#9843487)
          >> You know what? There's a medical name for that. It's called "Paranoia".

          There are treatments for paranoia, but I know the world government is keeping the best of them hidden from us... ;p
        • preface: I'm from the US. "the country" / "the government" / etc = "the US [whatever]"

          1. There isn't money in a cure. 20 years of drug therapy and pills that cost $800/month = $192,000. Unless you can convince people and insurance companies to shell out $192K per patient cured, you can't sell the cure. Take into consideration again that a good number of the people who have cancer can barely afford their monthly medication, and unless medicare/social security/etc were willing to pay for curing people, the d
      • Re:More scary (Score:3, Informative)

        by Idarubicin ( 579475 )
        Oh, FYI-the prion 'dies' at around 1000 C. You'd kill any patient you try to 'clean'. Perhaps it resonates at a different frequency than the normal folded sequence. Detection(absorption) and irradication(more power) might be possible.

        It doesn't take a thousand degrees to eliminate a protein. Diamond will ignite at less than that temperature.

        Extended autoclaving at 135 C or immersion in 1.0 N sodium hydroxide will positively disinfect prion-contaminated objects. Granted, those conditions would also kil

  • protein folding! (Score:3, Informative)

    by TheWordOfB ( 696275 ) on Thursday July 29, 2004 @11:53PM (#9840705)
    I've not read the article.. but a little synopse of how BSE works... Everyone already has the protein for BSE in their brain. Except in its natural form in the brain.. its meta-table.. Meaning it can unfold and refold into its original shape. The interesting thing about BSE is its super-stable fold of the protein. What makes this dangerous is proteins can learn new and unique ways of folding.. so if in contact with a BSE protein it'll learn to fold the BSE way. Meaning.. it'll learn to fold superstable.. which is basically a knot you can't untie. Proteins are the messengers of the body.. and if they can't unfold to be read.. its basically dead weight. After a couple years too many proteins have been retrained, leading to loss of cognitive abilities.. tada... your cow has the mad shakes!
    • How does a molecule 'learn'? Is there some permanent rearrangement of the molecules in the protein? Is it the case that the energy of the molecule has several local minima, and the process of 'learning' is actually making the protein jump into a new 'energy valley'? I'm curious.
      • Re:protein folding! (Score:4, Informative)

        by JanneM ( 7445 ) on Friday July 30, 2004 @12:39AM (#9840966) Homepage
        IANABC. The "molecules" or parts (a protein is all one molecule, really) don't move around of course; they sit in the same sequence in the chain as always. But, as you say, since a protein tends to be a pretty complex thing, there is usually more than one minimum in the energy landscape for it. Our eyes depend on this, for instance: there's a protein in our vision cells that will jump into another (somewhat unstable) minimum when prodded with energy (=light). In its new shape, it will tend to catalyst a reaction that it otherwise doesn't, and the product of this reaction in turn triggers a nerve signal. This local minimum is not very stable though (it is "shallow"), so after a short while, the protein will revert back to its normal shape, ready to react again when light strikes.

        In the case of prions, it seems they can act as templates for each other. As they bump into each other, they will tend to act as a mold, effectively lowering the barrier between the two states. The new state is "narrower" but "deeper", so it is easier for one of the normal prions to slip over to the rouge state when molded than the other way around.
    • Re:protein folding! (Score:2, Informative)

      by mnelson ( 17017 )
      and if they can't unfold to be read.. its basically dead weight

      Close, but backwards... Proteins have many functions, and their folded shape is what helps determine their funtion. The way a protein folds creates areas that like water (hydrophilic) and don't like water(hydrophobic), etc. These regions help determine which chemical compounds are structurally compatible with the protein, and lead to all kinds of reactions...
      Check out Folding@home http://www.stanford.edu/group/pandegroup/folding/s cien [stanford.edu]
    • so if in contact with a BSE protein it'll learn to fold the BSE way.

      So this sounds very close to an Ice 9 [barnesandnoble.com] like scenario, with this particular molecule in a brain. Is that the kind of model you're describing?

    • Not really. (Score:5, Informative)

      by Tim ( 686 ) <timr@@@alumni...washington...edu> on Friday July 30, 2004 @02:05AM (#9841285) Homepage
      What makes this dangerous is proteins can learn new and unique ways of folding.. so if in contact with a BSE protein it'll learn to fold the BSE way. Meaning.. it'll learn to fold superstable.. which is basically a knot you can't untie. Proteins are the messengers of the body.. and if they can't unfold to be read.. its basically dead weight.

      I'm not sure what you think you mean by "messengers of the body", but proteins are not information storage devices. They are products of genes, which are encoded by DNA, which is the information-carrying molecule of living organisms.

      Proteins are functional or structural objects -- they act as scaffolding, motors and chemical reaction centers. They can be modified in ways that allow the transmission of information (e.g. phosphorylation), but that's a secondary responsibility.

      That said, your description of BSE is incorrect. Proteins are not unfolded for "reading." They fold to assume their functional shape, and unfolding destroys their function. It's not something that happens to healthy, useful proteins. In fact, the cell has mechanisms to hunt down and destroy unfolded proteins, lest they do some sort of damage.

      BSE is the result of a rarity in the protein universe -- a protein that has two stable folds. Most proteins have only a single, naturally stable conformation, but the protein responsible for BSE has another. What's more, this oddball protein fold can actually catalyze the folding of other proteins into it's own shape, thus destroying their previous function. What ultimately causes the disease, however, is the propensity of these misfolded proteins to aggregate, forming solid clumps that kill the cells in which they accumulate.

      BSE has nothing to do with proteins "learning" of new ways to fold. Proteins don't learn. Proteins fold correctly, or they don't -- and in this case, failing to fold correctly has a nasty consequence.
    • Re:protein folding! (Score:4, Informative)

      by jd0g85 ( 734515 ) on Friday July 30, 2004 @03:00AM (#9841482)
      This is incorrect. It is the shape of proteins that allows them to function. Their shape is specific for what they do. They are not "read" in the sense that DNA and RNA are read. Once the amino acid string is translated from RNA, it assumes it's folded form. In general, proteins cannot refold once they are denatured (unfolded). It is true that infections prions cause their normally healthy counterparts to fold incorrectly. Once this happens, they are dead weight b/c they do not interact correctly with other molecules in the cell.
  • We know how to create it I assume its easier to cure it?? Or create a vaccine? I'm not sure?
    Was it a problem trying to replicate it in a lab or was it too costly to have a lab full of mad cows, just easier with mice?

    of course the Mad cow Link [funnyjunk.com]
  • "Perhaps someone who is more familiar with this field of research would care to fill us in on the details as the article was rather light."
    • Okay ... Think of prion like television. You can watch a little and it's got a negligeble effect. You can mix it up ... change the channel, no big deal. Now consider changing the channel to the WB. There's no plot ... no recognizable actors ... people are speaking in words you've never heard of. That's like shaking up prion and injecting it into your brain. The on
    • by Dachannien ( 617929 ) on Friday July 30, 2004 @02:26AM (#9841372)
      Actually, prions are more like reality television. Normally, you have regular functioning TV shows being produced constantly by your big networks. However, the introduction of reality TV is dangerous because, due to its very low cost of production (you don't have to pay your actors anymore, since they are now "contestants"), it starts changing every other show on TV into a reality TV show. Over time, these reality shows aggregate throughout prime-time until eventually you have nothing but a hideous brain-destroying mass of crap.

  • by WindBourne ( 631190 ) on Thursday July 29, 2004 @11:56PM (#9840731) Journal
    is that we have more of a problem then previously realized. Here in colorado, we are heavily infected with Chronic wasting disease in our elk and deer. The first problem is that these deer/elk are intermingling with cattle to obtain water and grain (we are in a severe drought). About 3 year ago (pre 9/11), the state went after funding to research more of CWD/MCD/CJD/Scappies/etc. The GWB admin shot it down and then last year allocated the same program at UT to research the problem here. Amazing.
  • by kaoshin ( 110328 ) on Thursday July 29, 2004 @11:58PM (#9840741)
    "the U.S. government has refused to support widespread testing of the nation's cattle herds."
    "Those representing the U.S. meat industry say the U.S. government's testing program is more than adequate."
    -CNN

    One more reason to stop eating meat [goveg.com]

  • Link to abstract (Score:3, Informative)

    by A1kmm ( 218902 ) on Friday July 30, 2004 @12:02AM (#9840761)
    The abstract for the original Science article is here [www.sciencemag.org]. However, you need to register(free to see abstracts) first. You can also pay to see the fulltext.
  • by pepax ( 748182 ) on Friday July 30, 2004 @12:02AM (#9840762)
    I know people have been struggling to show that a synthetic prion can cause a disease, thereby proving beyond any doubt that it really is the prion protein (no virus, no bacterium) that causes the disease, and this may be the proof. But at 2 years of age mice are usually about to die, so this doesn't seem that convincing... It will depend on the details. Btw., there is a lot of other evidence that prions cause the mad cow disease and the human variant Creutzfeld-Jakob's disease, but if this report is true, that really nails it. Another btw.: the original paper was published in Science, Nature only refers to the Science article.
    • Read the article carefully. This is what it says:

      The mice developed BSE-like symptoms one to two years later, the team report in Science1. They became weak and shaky, and post-mortem analysis revealed that their brains were full of holes and rogue prion proteins.

      Critically, when the mouse brains were ground up and injected into healthy rodents, they too became ill. This is the acid test for any prion disease, says Legname.

      Note that the mice didn't just die. They developed BSE-like symptoms and the

  • by Anonymous Coward on Friday July 30, 2004 @12:03AM (#9840765)
    This was done at UCSF, not UCSD. Read the article

    There are still a few people the dis-believe the prion theory of disease put forward by Pruisner. For those who aren't familiar with the subject, prions are essentially misfolded proteins that can induce their mis-folding by interacting with copies of themselves. So, if protein A become randomly misfolded into A', it can bump into other copies of A and induce them to form A'. In many of the disease cases, these misfolded proteins can form plaques or tangles which then disrupt or rupture and kill cells.

    While Pruisner's evidence for such a mechanism is more or less overwhelming there were still a couple people who didn't buy the story. The experiment talked about here (and I haven't seen the actual paper yet, but look forward to reading it) is rather difficult to do and is pretty much the last nail in the coffin of those disagreeing with prion theory. They do complain that the protein activities of the mutants were really low and that the mice used were not of the ideal strain buut this is missing the forest through the trees. As far as all of us whose opinions matter are concerned, the case is no more than closed and the pro-Pruisner side has won.

    BTW, I've heard Pruisner say that a lot of neurological diseases are really prion based...but that case is far from being closed...so keep your ears open for such discussions in the future.

    -Devon (who should disclose that he's a neuro grad student at UCSF, but works on neurogenetic diseases and not prions)
    • by silentbozo ( 542534 ) on Friday July 30, 2004 @12:25AM (#9840887) Journal
      The analogy I like to use is that prions are the protein version of "The Living Dead". One zombie protein will convert any healthy proteins it comes into contact with, those newly created zombie proteins will convert other ones, etc., until there aren't any healthy proteins left. It doesn't hurt that the analogy involves brains...
  • by theluckyleper ( 758120 ) on Friday July 30, 2004 @12:06AM (#9840779) Homepage
    Yes, I am a microbiologist, and I've done research on prions.

    Basically, prions are proteins which are able to act upon other proteins and thereby create functional copies of themselves (identical copies are not needed). BSE (mad cow disease) and CJD (essentially the human version) are caused by 'rogue' prions which destroy tissue by converting large quantities of protein into more prions. Prions are basically the most elementary form of an infectious disease (as they are simply protein, no genetic material required).

    Now, what these researchers have done is to prove that prions can spontaneously develop, without the need for viral or bacterial infection. Random changes in protein structure MAY result in prion creation. You needn't eat some mad cow (nor cannibalize some CJD gray matter) to contract CJD or some other prion-induced malady. Nor is a viral/bacterial infection required; the disease may develop spontaneously.

    Hopefully this makes sense... I've had a few too many Schooners (beer).
    • Have scientists now just created [prion] life from scratch[protein], or am I just confused?
  • by Animats ( 122034 ) on Friday July 30, 2004 @12:13AM (#9840821) Homepage
    This resolves a major argument in biology - can prions, all by themselves, transmit a disease? A few years ago, most biologists would have agreed that disease transmission by prions alone was impossible [pbs.org] - they're simple protein molecules, not even alive. One can argue over whether viruses are alive, too, but proteins are even lower level. They have no DNA or RNA at all. Biologists are still arguing over this.

    So direct synthesis of a prion, and demonstrating that it was disease-causing, was a useful research project. Now we know.

  • They then shook these proteins until they resembled the tangled structure of an unhealthy prion.

    Right. Won't catch me dead on this protein-shaking carnie ride, then: The Zipper+Roller Coaster [thrillride.com]. Sweet jesus, you'd be sure to develop mad cow disease!
  • by CodeBuster ( 516420 ) on Friday July 30, 2004 @12:22AM (#9840867)
    There are some rumors that the prions which cause mad cow disease were developed as part of the extensive biological and chemical weapons programs of the former Soviet Union. Agencies such as: Biopreparat [fas.org], the FSB (formerly the KGB), and the Soviet Military were all involved.

    In another chilling development, Vozrozhdeniye Island [mhhe.com] in the Aral Sea, where much testing of biological agents including anthrax, bubonic plague, glanders, and other extremely infectious agents occurred supposedly contains massive amounts of anthrax hastily buried by Russian scientists amidst the collapse of the Soviet Union in 1989. More fodder for the conspiracy theorists out there...
    • by Anonymous Coward on Friday July 30, 2004 @01:04AM (#9841068)
      There's no reason to suspect the involvement of the Soviet (or any other) bioweapons program. The prion disease scrapie has existed in sheep for many decades (see www.ag.state.co.us/animals/livestock_disease/scrap ie.html), and is presumed to be the source of the infection that started the mad cow epidemic.

      And even before BSE, it was known through the work of Carleton Gajdusek and others (www.nobel.se/medicine/laureates/1976/gajdusek-lec ture.html)
      that the prion disease kuru in humans could be transmitted by eating infected tissue.

      So it's all natural, in a sense. Which doesn't make it any less scary.

      Kluge
    • by value_added ( 719364 ) on Friday July 30, 2004 @01:28AM (#9841139)
      Maybe if we'd consider the crazy idea that in nature, herbivores don't eat other herbivores, but when fed a regular diet made up of their friends and family, weird shit might happen?

      • by Johan Veenstra ( 61679 ) on Friday July 30, 2004 @02:54AM (#9841459)
        The same thing was known in kanabalistic tribes, if you eat to many brains, you go crazy.

        Those prions are nothing special, they have always been there, but not in enough quantity to do any (as far as we know) harm. Those species at the end of the food chain receive some more prions through their diet, but still not in hazardess quantities.

        When we started feeding cows to cows(yes, money makes prople do strange things), we created a loop in the food chain, in effect stretching the food chain infinitly. The species in the loop (cows) and those at the end of the food chain developed a new disease because of the overdose of prions.
  • I'm curious.

    Does this have the potential to develop into a weapon?
  • Like Ice-Nine (Score:4, Interesting)

    by tritone ( 189506 ) on Friday July 30, 2004 @12:30AM (#9840918) Homepage
    The way in which a prion can influence a protein to mis-fold and become a prion is oddly reminiscent of the way an Ice-Nine molecule could make ordinary water molecules crystallize into a form which was solid at room temperature. To clarify: Ice-Nine was a fictional concept described in Kurt Vonnegut's novel "Cats Cradle." I wonder if it could have had any influence in real science, as opped to science fiction.
  • Shaking (Score:5, Interesting)

    by wsherman ( 154283 ) * on Friday July 30, 2004 @12:31AM (#9840927)
    Back when I was doing research on how individual proteins clump together to form the "amyloid" type of deposits found in diseases like Alzheimer's and diabetes, I had results from looking at the deposit formation in test tubes suggesting that deposit formation was promoted by shaking.

    The guy in charge of the project wasn't interested in pursuing the results because the intersection of protein dynamics and hydrodynamics wasn't somewhere he wanted to go.

    It will be interesting to see if they can develop anything more than handwaving explanations for how the shaking is causing the prions to change structure. Standard molecular dynamics simulations of proteins don't model mixing behavior of the water molecules surrounding the protein. Part of this may be due to the different time scales of the two phenomena.

    • Very thanks for the explanation! Now I have a really scientific reason to avoid dancing, action sports and other non-geek activities: shaking is so dangerous to mental health...
    • That would make for a great computational study... looking at aberrant ways a protein can be refolded from its original conformation. AFAIK most protein-folding simulations start from denaturized state and work from there.

      Does anyone know if prions are quaternary structure protiens? i.e. complexes of tertiary folded proteins, for instance hemoglobin.

  • Great! (Score:3, Insightful)

    by dj245 ( 732906 ) on Friday July 30, 2004 @12:33AM (#9840935) Homepage
    The solution to this problem lies not with preventing prions, but with containing their spread and reversing them. Now that they can create them artificially, they can experiment with tecniques to stop their spread and reverse their overtaking of the normal proteins.

  • by WOV ( 652967 ) on Friday July 30, 2004 @12:46AM (#9840997)

    As has been hinted at in other entries here, a prion is an alternate, stable, but nonworking and here's the kicker *infectious* conformation of a normal brain protein.

    Proteins fold and twist, combine, etc., into little functional specially-shaped nuggets, sheets, strands, etc. What's strangely intuitive about functional proteins is how many of them function based on their shape. No obscure chemsistry or quantum effects here; they make little socket wrenches, funnels, motors, lock-and-key assemblies, etc.

    However, that's not to say that because their core function doesn't have to do with their electronic properties, that these aren't important. Since their individual atoms do still have charge effects, they can be deformed, ("denatured",) reshaped, etc. They can also do this to each other. E.g. certain enzymes have two "sockets": the one that would normally work on a target molecule is bent out of shape and inactive until some other "cofactor" atom or molecule snicks into the back of the enzyme, bending it differently and opening up the active area.

    So proteins are a little flexible, and can affect each other's shapes if they're close enough. As previously mentioned, the kicker: you can take certain sheet-like molecules in the brain and mutate them so that not only do they no longer work right, but they generate a charge field around themselves that will eff up other, similar molecules that encounter them, *and so on*

    So you end up with this Night of Living Dead effect where as soon as you make a legit molecule of this kind, it goes off all peppily into the brain, doing its deal, until it encounters a zombie prion, and hey, you don't look right...but...somehow..seductive...yes! I will join you in your plaque pile! I must tell others! So you get scrapie or CWD or mad cow or some others.

    What I have always thought strange is that no one seems to have looked at prions as a possible cause of Alzheimers', another poorly-understood neurological disease marked by pileups of nonfunctional protein plaques in the brain.

    The reason this is significant? Folks, I thought this was one of your core beliefs! The only way to really truly understand something complex (a cake, a compiler, a neuropathic protein) is to build one that works.

    • by RandomCoil ( 88441 ) on Friday July 30, 2004 @01:37AM (#9841187)
      I'm sorry to say this, but yours is not one of the better descriptions of prions and proteins that has been posted in response to this article.

      There's more than enough chemistry and quantum mechanics in the folding of proteins. Hydrogen bonds, the sharing of electrons between electron-rich atoms and electron-poor hydrogens, is the key element holding proteins together. Actually, 'forcing' them together is rather more accurate since the "hydrophobic effect" that is the reason most proteins collapse into a structure is really just due water preferring to interact with itself rather than non-polar portions of a protein, thus forcing those portions to, in-effect, "hide" from the solvent.

      That proteins denature or deform has more to do with subtlety of their arrnagement than to the "charge effets" of "individual atoms" that you refer to. Proteins may be denatured (unfolded) in a variety of ways: by heat, (which induces so much kinetic energy that stabilizing structures are overcome), by polar salts (which screen stabilizing charge interactions), by using a different proteins (some large proteins are thought to help 'fix' misfolded proteins by engulfing them and exposing them to a non-polar environment), or even by pressure.

      That they "generate a charge field around themselves" is an especially worrisome comment. A better description of the way a prion protein could cause another to misfold is that it presents a surface with a series of hydrophobic and charged patches that the 'healthy' protein could interact with and catalyze the formation of its misfolded state.

      As for the relation to Alzheimer's, the curiousity of prions is less that they form amyloid plaques in the brain and more that they act as an infectious agent for this type of disease. I'm not aware of any evidence of Alzheimer's spreading like a communicable disease, making the need to find an infectious agent minimal. That said, any treatment designed to block or reverse plaque formation in the brain will likely be able to treat Alzheimer's or prion-induced diseases.
  • by servognome ( 738846 ) on Friday July 30, 2004 @12:55AM (#9841042)
    Inject the protein into the mice first, then shake them until they become twisted.
    Hmm anybody want to fund my experiment, just need $80 for some mice, a paint can, and a paint mixer.
  • by wilgamesh ( 308197 ) on Friday July 30, 2004 @01:05AM (#9841071) Homepage
    Koch's postulates [wsu.edu] are the classic rules by which causative agents of diseases can be determined. although the molecular bases of many modern diseases no longer fit the implicit requirements of Koch's postulates (e.g. no microorganisms are implicated in certain cancers), the spirit and basic framework of the postulates can still be applied to dissect the causes of diseases.

    That being said, in this prion story, we have an some example of postulates 2-4. The Prusiner team synthesized an artificial agent that's implicated in disease, and used it to infect and create new diseased organisms. This is a scientific step forward. Previously, the prion agent itself correlative with disease, but as to whether it is the causative agent, it was unclear.

    The brief criticisms in the NY Times articles may have some merit though. It's still possible that the disease has some other underlying cause, and the artificial prion only hastened onset. This is an important point, because the signs of aggregate prions (the amyloid plaques) are found in BOTH healthy and diseased animals, thereby violating the first Koch postulate in some sense. However, I warn the reader that my knowledge is deficient here. Perhaps the amyloid plaques are composed of misfolded variants of other proteins also.

    This is a rough summary of what I know. I hope I haven't offended any experts who know the details. Please feel free to correct what I'm sure are numerous mistakes.

  • by Anonymous Coward on Friday July 30, 2004 @02:37AM (#9841403)
    For those of you who don't study biochemistry, here is some background information regarding the importance of this discovery:
    For starters, an enzyme is a protein which specializes in catalyzing a specific reaction (lowering the amount of energy input needed to allow a reaction to occur). Proteins/enzymes are synthesized from DNA/RNA templates. The synthesis occurs in a linear fashion producing a long chain of amino acids which will eventually fold to become the protein/enzyme. The structure is classified according to proximity (primary, secondary, tertiary, quaternary). The primary structure is the amino acid sequence. Secondary structure is folding that occurs over short distances due mostly to polar attractions; this includes alpha helices and beta barrels. Tertiary structure is more of the overall shape that results forming a subunit. Quaternary stucture is the association of the subunits to create the overall protein/enzyme. Hemoglobin, for example, consists of 2 alpha subunits and 2 beta subunits around a heme (iron) core to create the complete enzyme.
    The interesting thing about prions is that they are not malformed proteins due to a mutation in the primary structure as is seen in most diseases (sickle cell anemia, cancer). A prion has the exact same amino acid sequence as its healthy and properly formed counterpart; the prion simply folded in the incorrect way. When amino acid sequences are processed through molecular modelling programs to determine their final 3D conformation, often times there are multiple conformations which are thermodynamically equivalent.
    When a prion is present it causes enzymes with the same primary structure within proximity to adapt its misfolded shape, thus spreading itself. The concept is similar to "ice nine" that Kurt Vonnegut Jr. describes in "Cat's Cradle" where a single crystal of ice nine is the seed which causes all other water molecules to crystalize into ice.
    The significance of artificially creating a prion is that medicine may one day be able to create prions to correct enzymatic problems rather than create them. This could lead to a cure for vCJD/BSE and other undiagnosed disorders due to prions (although I do not know if it could ever correct primary structure mutations such as sickle cell anemia).
    Matt
  • by KidSock ( 150684 ) on Friday July 30, 2004 @03:28AM (#9841570)
    Life at the molecular level is a very interesting topic. It's mysterious, it's a great unexplored frontier, and understanding it has direct consequences on our lives. I think you'll feel the same way if you read the following article. It's written specifically to be more accessible to the average reader but I assure you as a biochem major it is not a trivial explaination. You'll really understand what prions are and just how protein mis-folding is responsible for mad-cow and alzheimers.

    Unraveling the Mystery of Protein Folding by W. A. (Bill) Thomasson
    http://www.faseb.org/opar/protfold/protein.html [faseb.org]

    Enjoy!
  • by NerveGas ( 168686 ) on Friday July 30, 2004 @03:45AM (#9841641)

    A lot of people have heard of "Mad Cow". Some of them have even heard of BSE or CFD. And most people don't realize that this is nothing novel, nothing new, and not at all limitted to cows.

    The result of these prions in the brain is spongiform encephaly - literally, holes being eaten in your brain by the prion's interaction. Not a very fun thing!

    Now, prion-caused sponfigorm encephalies have been found in a good number of animals. At a minimum, humans, goats, sheep, cows, squirrels, deer, elk, etc..

    In cows, the condition is called "BSE" ("Bovine Spongiform Encephaly"). In humans, it's usually called Creutzfelt-Jacob's Disease (I'm sure I murdered the spelling). Those are merely terms for the resultant condition from the prion infection.

    Now, the prion responsible for BSE isn't all that bad, as far as infectious prions go. First, it's not really transmissible in cows without the direct ingestion of infected nervous tissue. That means that if we just didn't feed cows ground up cows or ground up sheep, a very large part of the problem is solved.

    However, there are other prion agents that are a bit nastier. In the case of CWD and scrapie, the prions have been shown to be transmissible to other individuals through the environment if (a) a n infected carcass or (b) excreta from an infected animal is in the area. Even better, even after all of the animals have left the area, CWD and scrapie agents have been shown to remain and still be contagious to other individuals years later.

    Here's the good part: Researchers have already found genes that cause resistance to prion infections, or at least to certain types of them. The genes are found most commonly (and most heavily) in populations that practiced (or still practice) cannibalism. On the down side, it's not something as nice as getting infected and developping an immunity - we're talking about the cannibalistic societies being mostly wiped out by prion-based diseases, leaving only those (luckily) able to resist as the sole survivors, to pass along the genes to their offspring.

    steve
  • Ok... (Score:3, Funny)

    by cdemon6 ( 443233 ) on Friday July 30, 2004 @06:02AM (#9842093) Homepage
    Everybody (else) who read "pr0n" instead of prion, please sit down and think about what's going on in your life...
  • by a-aiyar ( 528921 ) on Friday July 30, 2004 @07:25AM (#9842395) Homepage
    I couldn't respond yesterday, as I was stuck all day at meetings.

    Anyway, while these results from Prusiner and colleagues go a long way toward demonstrating the infectivity of prions, there are still some problems with the experiment before one can conclude that Koch's postulates [wsu.edu] have been satisfied.

    I've listed some of the problems (potential and real) with the experiment here:

    • The strain of mice used is a transgenic strain that expresses 16 times the normal level of the prion protein (PrP). There are some in the field who say that the high level of PrP expression in this strain makes them unusually sensitive to developing neurological disease to ANY environmental perturbation.
    • Prusiner's lab has many other prion strains. Laura Manuelidis, a neuropathologist at Yale, has said that the pathology of brain samples from these mice closely resemble RML scrapie. It is very important to eliminate the possibility that they developed disease by cross-contamination from another prion strain. Recall that the goal of the research is prove one of Koch's postulates that PrP is directly infectious, rather than any nucleic acid associated with a prion.
    • Finally, injection of the same recombinant (E. coli produced) PrP fragments into normal mice that do not produce 16 times the amount of PrP do not produce disease. Producing disease in normal mice would be the best demonstration of Koch's postulates.

    BTW, my scientific background is not in prions. I direct a lab that works on Epstein-Barr virus [northwestern.edu].

  • by ntr0py ( 205472 ) <lee.dashf@com> on Friday July 30, 2004 @08:21AM (#9842862) Homepage
    The only reason I clicked through to the comments is because I thought the headline said, "Artificial Pron Created"
  • by maximilln ( 654768 ) on Friday July 30, 2004 @10:57AM (#9844437) Homepage Journal
    There are technical hurdles to using mouse models to study prion diseases. Ideally a researcher would take a completely healthy mouse and induce a prion disease with the administration of a misfolded protein. Unfortunately for researchers most healthy mice don't have a lifespan long enough to develop a prion disease from scratch. The best that the researchers are able to do is take a transgenic strain of mice (Tg196), which are known to have a DNA defect which leads to prion related disease, and administer additional amounts of the prion in order to antagonize the disease state.

    The researchers in this case leave too many questions unanswered that could have been easily addressed.

    1>
    The Tg196 transgenic mice express a low level of MoPrP(P101L) which is said to cause the CNS dysfunction. The researchers brew E. coli to produce a large amount of MoPrP(89-230) which they will use to spike the mice. To ensure that the additional disease effects are really attributable to the E. coli produced MoPrP(89-230), why do they not use a control group of mice which receive an extract from an E. coli broth which does _not_ produce MoPrP(89-230)?

    2>
    I keep pointing this out and apparently there aren't enough scientists on /. who can answer it. The authors of the article note that Tg196 mice exhibit spontaneous disease in 30% of their population at ~550 d. The status of the control group is fairly glossed with only a single line which meantions that, as of 670 d, the control mice were still healthy. If that means _all_ the control mice why is there a deviation from the known standard? If that means _some_ of the control mice why did the peer reviewers not ask about it?

    3>
    The bottom line worry is that a prion disease in your cow or sheep will end up in your supermarket and cause a mass plague in humans. The researchers in this study did administer Sc237 (sheep scrapie prion) to some of their mice and saw no ill effects. Paranoid people and others with a political agenda need to give up on the hype.

    4>
    The results are statistically fuzzy. While the authors note that 30% of a population of Tg196 mice are known to be dysfunctional at ~550 days they don't have any expected dysfunctional population % for 670 days. Their own experimental groups have a range of 380-600 and 500-670 d for unseeded and seeded groups, respectively. Additionally, at the 550 d point, both experimental groups were exhibiting about 60% CNS dysfunction in the population. The researchers have shown that administering a prion, for which the mice are known to be susceptible, will hasten their illness. It may be a good bit of lab work but it's not a surprise.

    5>
    The immunoblots are pretty but don't say much. The control group lacks many of the spots that the test groups have, but even the experimental group which received nothing more than the extraction/folding broth (PBS? PBH? I left the PDF on my desk) shows some of the additional bands present in the animals which received actual prions. Additionally there's the RML group. I couldn't find the definition for RML in the paper but noticed that the RML group exhibited 100% population CNS dysfunction by about 180 days. Is this really a prion effect if "RML" is more effective than the prions? Finally, where are the immunoblots for the Sc237 subjects? Ideally they would look like the control group immunoblots since the Sc237 subjects did not exhibit CNS dysfunction. My better sense tells me that the immunoblots for the Sc237 subjects would look more like the mice that received the blank extraction/folding buffer or even closer to the 9949. This would raise some obvious questions about the specificity of the immunoblot for active, MoPrP and inactive PrP from another species. This ties in with <3>.

    6>
    The /. headline reads "Artificial prion created". That's true. The researchers brewed a batch of MoPrP(89-230) which is a truncated form of the natu
  • by Paul the Bold ( 264588 ) on Friday July 30, 2004 @04:56PM (#9848455)
    You want details? The article refers to a study published in science. The citation is presented at the end of the article. Here it is:

    Legname G., et al. Science, 305. 673 - 676 (2004).

    Look for university libraries in your area. You don't need a library card to go to the current journals and photocopy pages. If you are at a university and your university has subscribed to the electronic journal, go to http://www.sciencemag.org and find the link.

    It is full of a lot of details that most of us (certainly not me) don't need. Read the abstract, the introduction, and the conclusion. If your interest is piqued, you might read the body and chase some references.

    I doubt that anybody will read this. The comment count has exceeded 400 (thanks to the WMD discussion--really people, they INJECTED IT INTO THE BRAINS OF THE MICE). I also like to shout at airplanes.

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