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Monday, December 18, 2017
New Findings Point to Potential Therapy for Parkinson’s Disease
Partial inhibition of the interaction between calcineurin and FKBP12, with low doses of the FDA-approved compound Tacrolimus, protect neurons against the toxic effects of a-synuclein, a protein critically implicated in Parkinson’s disease.
A new study, published in Proceedings of the National Academy of Sciences (PNAS), sheds light on a mechanism underlying Parkinson’s disease and suggests that Tacrolimus — an existing drug that targets the toxic protein interaction explored in the study — could be used as a novel treatment.
Parkinson’s disease is a progressive neurological disorder marked by the loss of dopaminergic neurons. There is no cure, and current treatments to help control the symptoms of Parkinson’s — including tremor, slow movement and loss of balance — are limited.
Although the fundamental cause of Parkinson’s disease is unknown, dysfunction of a protein called alpha-synuclein has long been thought to play an important role.
Previous investigations by Caraveo Piso and collaborators had established that increased activity of an enzyme called calcineurin is associated with the alpha-synuclein toxicity seen in Parkinson’s.
In the current study, the scientists built upon those discoveries to demonstrate, for the first time, that a protein called FKBP12 is a major regulator of calcineurin activity, and thus contributes to alpha-synuclein toxicity.
Gabriela Caraveo Piso, PhD, assistant professor of Neurology in the Division of Movement Disorders, was the corresponding author of the paper published in Proceedings of the National Academy of Sciences.
“Our new mechanistic findings have revealed that FKBP12 is the protein that tunes calcineurin activity,” Caraveo Piso said. “It’s very reminiscent of the Goldilocks story: In the context of alpha-synuclein, both too much and no calcineurin activity are detrimental — but an intermediate level of activity is protective.”
The scientists also investigated whether reducing the functional interaction between calcineurin and FKBP12 might be protective against alpha-synuclein toxicity in vivo.
To do so, they employed an already well-established, FDA-approved inhibitor of this interaction, called Tacrolimus. The drug is currently used clinically in high doses to prevent organ rejection after a transplant, a process in which calcineurin also plays a critical role.
In an animal model of Parkinson’s disease, the investigators demonstrated that Tacrolimus — when administered in low doses to achieve partial reduction of calcineurin activity — led to improvements in the functional features of dopaminergic neurons, and hence behavioral phenotypes.
Caraveo Piso noted that the discovery has strong potential for future clinical applications.
“We provide robust animal evidence for a feasible treatment against Parkinson’s by repurposing Tacrolimus at low, sub-immunosuppressive doses,” Caraveo Piso said. “Since Tacrolimus has high brain penetrance and can be given safely, a clinical trial of Tacrolimus in patients with early-stage Parkinson’s would likely pose no serious logistical or regulatory difficulties.”
The findings might also have implications for other related neurological diseases, such as Alzheimer’s, Caraveo Piso notes, an area where calcineurin also plays an important role.
Sofia Zaichick, MD, PhD, a research associate in Caraveo Piso’s lab, was also a co-author of the paper.
Susan Lindquist, PhD, the senior author, was previously a professor of Biology at The Massachusetts Institute of Technology and director of the Whitehead Institute for Biomedical Research, where Caraveo Piso conducted most of the study as a postdoctoral associate before joining Northwestern.
The study was supported by funds from the Jeffry M. and Barbara Picower Foundation, funds from the RJG Foundation–Judy Goldberg, a Howard Hughes Medical Institute (HHMI) Collaborative Innovation Award, National Institutes of Health grant 5P50NS38372, WIBR funds for the study of regenerative biology, and a gift from Ofer Nemirovsky.
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