"We definitely found a high level of oxidative stress in the Down syndrome neurons," says Bhattacharyya. "This has been suggested before from other studies, but we were pleased to find more evidence for that. We now have a system we can manipulate to study the effects of oxidative stress and possibly prevent them."
Down syndrome includes a range of symptoms that could result from oxidative stress, Bhattacharyya says, including accelerated aging. "In their 40s, Down syndrome individuals age very quickly. They suddenly get gray hair; their skin wrinkles, there is rapid aging in many organs, and a quick appearance of Alzheimer's disease. Many of these processes may be due to increased oxidative stress, but it remains to be directly tested."
Oxidative stress could be especially significant, because it appears right from the start in the stem cells. "This suggests that these cells go through their whole life with oxidative stress," Bhattacharyya adds, "and that might contribute to the death of neurons later on, or increase susceptibility to Alzheimer's."
Other researchers have created neurons with Down syndrome from induced pluripotent stem cells, Bhattacharyya notes. "However, we are the first to report this synaptic deficit, and to report the effects on genes on other chromosomes in neurons. We are also the first to use stem cells from the same person that either had or lacked the extra chromosome. This allowed us to look at the difference just caused by extra chromosome, not due to the genetic difference among people."
The research, published the week of May 27 in the Proceedings of the National Academy of Sciences, was a basic exploration of the roots of Down syndrome.
|Contact: Anita Bhattacharyya|
University of Wisconsin-Madison