Promising results have been found in the quest for a treatment to halt nerve cell degeneration in disorders like Parkinson’s disease, by preventing their mitochondria from breaking apart with a particular peptide.
The research, published in Brain, examined how the long axons that carry messages between nerve cells in the brain can break down, which causes increasingly worse tightening of the leg muscles, leading to imbalance and eventually paralysis, in addition to other symptoms.
Animal studies have shown it may be a problem with the mitochondria that leads to the axons breaking down or not growing long enough. Since studying human nerve cells is difficult, the researchers made use of human stem cells they modified to become nerve cells with the genetic disorder for a particular type of hereditary spastic paraplegia.
“What we found was that the mitochondria in these cells were breaking apart, what we call mitochondrial fission, and that caused the axons to be shorter and less effective at carrying messages to the brain,” study leader Prof Xue-Jun Li said. “We then looked at whether a particular agent would change the way the nerve cells function — and it did. It inhibited the mitochondrial fission and let the nerve cells grow normally and also stopped further damage.”
What this means for the thousands of people affected by this type of genetic disorder is that this peptide could prove to be useful for a drug or other therapy to stop the nerve cells from becoming damaged or possibly even reverse the course of the damage. Additionally, gene therapy could also prevent mitochondrial damage, the researchers suggested, which would provide another strategy to reverse the nerve damage.
Source: University of Illinois Chicago
