Last year, a multidisciplinary team of scientists from two Danish institutions, Aarhus University and the University of Copenhagen, began using pigs to study Alzheimer's. But not just any pigs. The researchers created transgenic pigs—animals whose genomes contain genes from another species. In this case, human genes.
The team introduced the human gene for the heritable form of Alzheimer's into porcine fibroblasts, the skin cells most often used for cloning because they multiply quickly. The researchers chose the heritable form of the disease, which develops early in life, because it can be detected genetically, rather than the more common, nonheritable form of Alzheimer's, which manifests later in life and has not been linked to a specific gene. They then used a unique cloning technique to make seven genetically identical pigs with the Alzheimer's gene.
According to Arne Lund Jørgensen, who is leading the study at Aarhus, pigs could suffer from Alzheimer's as humans do. "A porcine model shows that the pig brain has the metabolic pathway to produce Alzheimer's-like pathology," he says. This could offer an improved understanding of the mechanisms involved in the disease and bring scientists closer to better treatments or even the ever-elusive cure.
Making Transgenic Pigs
The researchers achieved two firsts: Their transgenic pigs are the first to carry a human Alzheimer's gene, and they're the first pigs produced by a relatively new method called handmade cloning.
Vajta then fused the fibroblast carrying the Alzheimer's gene with the egg cell, which was electrically and chemically stimulated to ultimately become a blastocyst, an embryonic phase. The team produced 40 to 50 identical blastocysts using Alzheimer's fibroblasts that had multiplied from the original. Veterinarians implanted these blastocysts into a sow.
The impregnation resulted in seven identical piglets born in the summer of 2007. Three months later, an autopsy on one piglet showed that the Alzheimer's gene was indeed active in its brain. The researchers will now watch the remaining pigs age, with the hope that the disease will progress in the same way it does in humans.
What We Know So Far
The heritable form of the disease, also known as early-onset Alzheimer's, is the result of a genetic mutation passed down in families. It is the cause of between 5 and 10 percent of cases. Late-onset Alzheimer's, which appears after age 60 in people who usually don't have a family history of the disease, accounts for the rest. Both forms lead to the destruction of nerve cells and neural connections in the cerebral cortex of the brain. The condition destroys memory and causes confusion, disorientation and, eventually, death. Despite intensive research, Alzheimer's disease is poorly understood, and doctors still lack medical treatments to prevent the brain damage it causes.
The process of neurodegeneration begins when enzymes snip a component of nerve cells into small pieces. The resulting protein, called beta-amyloid, accumulates in clumps between the cells. Some of these clumps eventually become large plaques. According to Samuel Gandy, a professor of Alzheimer's-disease research at the Mount Sinai School of Medicine in New York City, amyloid protein outside the nerve cells causes the formation of what are called neurofibrillary tangles inside neurons. Here, a normal component called tau protein accumulates in the twisted fiber proteins. As the disease progresses, brain cells die and the brain itself shrinks, although it's unknown exactly how the two proteins influence cell death. The disease starts in the hippocampus, a part of the brain involved in learning and memory, and later spreads to the rest of the brain.
Although these major steps have been mapped through brain scans and autopsies, scientists need to study how the disease progresses. That's where the pigs come into play. If all goes as planned, the pigs should show signs of brain pathology at age two, which in pig years corresponds to the age when people with early-onset Alzheimer's begin to exhibit symptoms.
Tracking the Disease
Mouse models for Alzheimer's have never been able to simulate anything comparable to the last stages of the disease. "Plaque-forming mice do not show extensive nerve-cell death," Gandy says. "It's nothing like human Alzheimer's." But the research group has good reason to believe that their work in pigs will be more successful than the studies in mice. Research indicates that pigs' nerve cells may possess the biochemical machinery needed to trigger the disease, Jørgensen says. The scientists will use computerized axial tomography and positron-emission tomography (PET) scanners—the same devices that help diagnose Alzheimer's in humans—to detect the two destructive proteins, beta-amyloid and tau, in early stages. To find beta-amyloid, for instance, the scientists can inject a chemical substance into the bloodstream that attaches to the protein deposits in the brain. If amyloid clumps are present, the substance will accumulate there and be detectable on PET scans. In the later stages of the disease, researchers will be able to follow the progressive death of neurons in the brain using the scanners.
The technology will allow researchers to study for the first time the long-term effects of the disease. "Because the cloned pigs are genetically identical, we expect the pathological changes we find in one pig to be present in the others," Jørgensen says. This will enable researchers to correlate pathological- disease development with changes in behavior.
One very early behavioral symptom the researchers will look for is a diminished sense of smell. They will also test for a loss of memory and spatial recognition by placing the pigs in a room with four compartments, one of which contains a reward. Healthy pigs quickly learn which compartment contains the reward and go right to it. The pigs with Alzheimer's, however, will probably have a harder time remembering which compartment holds the reward.
To further test memory, the pigs will be put in a room with two toys. The following day, one of the two toys will be replaced. Healthy pigs spend more time examining new objects, but once the diseased pigs' memories begin to diminish, it's expected that they will spend the same amount of time sniffing both the old and new toys.
If Alzheimer's progresses in pigs as it does in humans, the animals will give us more than just a better understanding of the disease. Transgenic pigs may also one day become test subjects for Alzheimer's drugs, helping scientists develop better treatments for humans.
Thanks to their longevity, pigs will ideally provide new possibilities for understanding and treating diseases in which an organ's function slowly degrades. Currently, pig genetic sequencing is conducted on an experiment-by-experiment basis—a costly, lengthy process. In 2001, scientists began sequencing the complete pig genome which the international Swine Genome Sequencing Consortium expects to publish by early 2010. With both this and the human genome in hand, transgenic pig models are expected to accelerate. According to Jørgensen, drug and treatment testing of human diseases on transgenic pigs and other large-animal models may eventually be the world standard.
Maybe this is one of those areas or diseases where nano-technology could help... maybe tackling it with the idea of treatment when the disease is already in the latter stages then attempting to cure it is not the way to treat it... maybe if early symptoms have been detected (the disease is still at its infancy or beginning to occur, then maybe something could be done to prevent it from rapidly progressing or totally halting it).
Since these "plaques" tend to form clumps in the brain, maybe some sort of scanner could be used and mandated for people at a certain age (for Alzheimers due to old age) or from childhood (for those types that are not brought about by old age). It's a protein right? Am thinking of some way of halting the protein build up that causes the clumps by some chemical that would leave the other types of protein untouched but would remove the clumps. Maybe the answer is just so simple that we fail to discover because we need a certain "paradigm shift" on things. Just like the movie Lorenzo's Oil which was based on real life, I believe, maybe the cure or solution would be something like that, something so simple.
It's like there's an article before here in Popular Science wherein they featured nano-technology delivered medicine that's supposed to eliminate cancer cells but leaves good cells unharmed. I dunno much about biological stuff, but I hope that this would help.
In addition, if there would be resveratrol pills in the near future, then maybe this cou
(Sorry my comment got messed up...)
In addition, if there would be resveratrol pills in the near future, then maybe this could help as well for those cases wherein the Alzheimer's is brought about by old age.
You can do it guys....so many beautiful minds wasted by this disease. Good luck guys, and please keep us posted on this.
Btw, I search for some health news at www.worldhealth.net
Unfortunately they don't have a place for comments... some of the stuff I don't understand, but they have articles on radical treatments (that works) for certain types of diseases as well as prevention, diet, supplements, etc.
Thanks Popular Science for allowing me to share the website. Please visit it guys and gals if you have some time.