There's also the non-typical BSE - or BSE that is spontaneous. Typically this only affects older cattle.
The interesting thing is that for other prions like scapie and CWD are thought to spread through body fluids and feces and be available in the environment for years. But I don't see any of these concerns listed with BSE. Makes me wonder how much is guess work and how much is confirmed about any of them. But I suspect environmental contamination could be a possible vector. If spread through stuff like urine and feces, CAFOs could be a significant source. This could be a problem if they can be infected for years before symptoms arise, while time to market is 18 months.
I think your theory makes a lot of sense if you reverse the causality: Mammals have evolved to not engage in cannibalism to avoid prions. Other diseases as well, of course.
Also not a biologist, but as I understand it: Every living creature synthesizes proteins. Every time you synthesize a protein, there is a tiny tiny chance that it synthesizes "backward". Backward proteins are physically incompatible with "forward" proteins, and also increase the risk that more proteins synthesize backward. It leads to a cascade of errors where lots of proteins synthesize backward and the cells and internal structures can no longer function. It's like you fall apart due to half your Lego bricks being upside-down. And, this is all a statistical probability that could occur in any moment to any living organism.
The evolutionary defenses are to break apart all incoming proteins and reassemble them yourself, and have a cycle of life that starts new organisms from scratch. Large carnivores can't hope to break apart every incoming protein, though. So, basically our lifespans and reproduction method of growing up from a single cell are the evolutionary defenses against the natural phenomenon of prions. But yes, prion disease is probably what forces all higher foodchain animals to avoid cannibalism.
This is not at all how it works. Prion diseases are not at all to do with synthesising proteins 'backwards'. It's entirely because of one protein found in the brain which has a very stable misfolded form which will induce other copies of it to misfold as well (and this misfolds all stick together into something the body struggles to break down, which is what eventually causes the damage). It's not something that can happen to just any protein (lots of other proteins do misfold or are otherwise not made correctly, all the time. But they don't induce other proteins to misfold and the body can easily break them down or otherwise get rid of them)
(in fact, the misfolded form is so stable it can survive cooking, autoclaving(!), sitting in soil for years, and digestion. The main reason it's not a big threat is that it needs to somehow get from the environment into the brain, generally via the gut, which is not a particularly easy process for an inert clump of amino acids: a significant percentage of UK residents actually have detectable levels of this prion in their gut already, but only a very small fraction will develop the disease)
So that has raised an interesting question in my mind. But as far as I know the only significant case of prion disease amongst human beings, excluding CJD which seems to be generically determined, was the instance of Kuru among the Papau New Guinea tribes; however we know other societies practiced cannibalism at a certain scale such as the Aztecs in which people were eating other people all over the place, yet we don't have widespread evidence of Kuru.
Is there something distinct about Brian tissue which puts it at a higher risk for prion disease formation?
Just a bystander shooting from the hip, but does the fact that brain nerve cells aren't recycled and rebuilt but live as long as the person does mean they are more prone to accumulating bad proteins?
Other tissue like skin or muscle that regularly break down and regrow would offer a lot more opportunity for the body to filter out the prions, but once in the brain cells, there's nothing for them to do but accumulate.
It's because the prion protein is in the brain. As in, there is basically only one protein in mammals which actually has this problem (that we know of), it's not a general issue with proteins. The variants which exist are essentially because of the small variations in this protein across species, or specific inheritable mutations which make sponteneous formation of the misfolded form more likely.
(this protein, by the way, is not essential for life, but lacking it seems to slow brain development in mice)
A thing eating dead instances of its same family is already a near ideal situation for passing disease, no fancy evolutionary mechanism required. Frankly, hard to imagine a better one.
If mammals needed a ‘anti cannibalism’ evolutionary mechanism there are plenty of other mechanisms - like disgust responses - that would actually prevent disease.
The interesting thing is that for other prions like scapie and CWD are thought to spread through body fluids and feces and be available in the environment for years. But I don't see any of these concerns listed with BSE. Makes me wonder how much is guess work and how much is confirmed about any of them. But I suspect environmental contamination could be a possible vector. If spread through stuff like urine and feces, CAFOs could be a significant source. This could be a problem if they can be infected for years before symptoms arise, while time to market is 18 months.