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Thursday, August 31, 2017

Parkinson's: Stem cells restore nerve function in monkeys

August 31, 2017   

A new study shows promise for using stem cells to create neurons that can replace the ones damaged by Parkinson's disease


Using stem cells, scientists have managed to restore nerve function in monkeys with Parkinson's disease. The findings may change therapeutic practices in humans. 
new study recently published in the journal Nature Communications shows promise for treating Pariknson's disease with induced pluripotent stem cells (iPSCs).
iPSCs are cells that have been taken from a child or an adult's tissue and genetically modified to resemble embryonic stem cells - that is, to be able to take the form of any other adult cell types. 
In the case of Parkinson's, scientists have been using iPSCs to form a certain type of brain cell that is damaged by the condition: the so-called dopaminergic neurons located in the midbrain. 
These brain cells are the primary source of dopamine - the neurotransmitter that helps to regulate voluntary movement, mood, stress, and reward, among other things. 
Previously, researchers have been able to restore motor function in rats and primates with Parkinson's-like symptoms by implanting dopaminergic neurons derived from human iPSCs. But until now, no studies have investigated the long-term impact of such a practice in primates.
In this context, a team of researchers led by Jun Takahashi, of the Center for iPS Cell Research and Application at the Kyoto University in Japan, set out to implant these neurons in the brains of long-tailed macaques and evaluate the safety and functionality of such a practice over time.

Therapy safe and effective in monkeys

Takahashi and colleagues transplanted cells from both healthy human adults and adults with Parkinson's into the primates' brains. To simulate Parkinson's disease in the primates, the researchers treated them with MPTP - a neurotoxin commonly used to induce Parkinsonian syndrome in animals. 
The scientists used a neurological rating scale to assess the neurological effect of the transplant, as well as video recordings to analyze the primates' spontaneous movements.
Additionally, to evaluate the "survival, expansion, and function" of the transplanted neurons and the immune response from the primates' brain, the researchers used magnetic resonance imaging (MRI) and positron emission tomography (PET).
To assess the safety of the procedure, the researchers clinically followed the primates for 2 years. 
Cell analyses revealed that the dopaminergic neurons, when they reached maturity, extended their axons and dendrites into the striatum of the host.
The researchers found that "human [iPSC-]derived dopaminergic progenitor cells survived and functioned as midbrain dopaminergic neurons, [increasing] spontaneous movement of the monkeys after transplantation."
Additionally, over a period of 2 years, Takahashi and team did not find any cell-derived tumors in the brain of the primates, nor did they register any strong immune response to the transplant. 
In another article published in the journal Nature Communications, the authors show how the immune response can be improved even further. 
By matching a group of proteins called major histocompatibility complex proteins (MHCs) of the iPSCs to the MHC of the host, the neuron survival is improved, and the immune response against the neurons is reduced, write the researchers.
Overall, the findings suggest that, although more research is needed, such translational techniques could soon be used to treat human patients. The authors conclude:
"This preclinical study using a primate model indicates that human iPS cell-derived dopaminergic progenitors are clinically applicable for the treatment of patients with PD."

http://www.medicalnewstoday.com/articles/319172.php?utm_source=newsletter&utm_medium=email&utm_campaign=daily-us 

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