There are many drugs and therapies for Parkinson’s, but none halt progression of the disease. This is partly because we still do not understand exactly what causes Parkinson’s, so it is hard to figure out how to prevent it or slow it down. One potential target for new therapies is alpha-synuclein, a protein found in the human brain that is associated with the development of PD. Scientists are looking at ways to clear abnormal forms of alpha-synuclein from the brain using various immune therapies. Dr. Mark Guttman discusses these approaches based on what is known and unknown about Parkinson’s today. Download
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For all of our Substantial Matters podcast episodes, visit parkinson.org/podcast.
About This Episode
Released: August 1, 2017
If you’ve heard of A protein in the human brain that is associated with the development of Parkinson’s. It is the main component of Lewy bodies., it was likely in the context of Lewy bodies. Lewy bodies are abnormal clumps of alpha-synuclein that are found in the parts of the brain that control movement, thinking, and behavior, and they are related to the development of Parkinson’s. Lewy body dementia is a general term that includes both Parkinson’s disease A term used to describe a group of brain disorders that cause a broad complex of symptoms such as disorientation, confusion, memory loss, impaired judgment and alterations in mood and personality. (when you have Parkinson’s and dementia develops later on) and A progressive, neurodegenerative disease that shares symptoms of both Alzheimer’s disease and Parkinson’s. Unlike Parkinson’s disease dementia, cognitive symptoms are present before or within one year of noticing movement symptoms. The central features of DLB include progressive cognitive decline, changes in alertness and attention, visual hallucinations and parkinsonian motor symptoms such as slowness of movement, difficulty walking or rigidity. (when dementia comes on before or within one year of Parkinson’s motor symptoms).
Another term used in this episode that you might not be familiar with is “ligand.” A ligand is a molecule that binds to another molecule. Ligands are used in imaging, such as PET scans, to help doctors visualize different parts of the body, including the brain. Currently there is no ligand for alpha-synuclein to let us see how Lewy bodies are forming, or how they might be cleared by a potential therapy.
Dr. Guttman remarks that the alpha-synuclein story is the most exciting development to date in terms of potential for altering the progression of Parkinson’s. It has taken the PD community a long time to reach this point. The first revolution in Parkinson’s care came in the 1960s, with the discovery that Parkinson’s is a disease of A chemical messenger (neurotransmitter) that regulates movement and emotions.. One hundred and fifty years after James Parkinson’s Essay on the Shaking Palsy, researchers developed a treatment to greatly improve PD symptoms. Over time, many variations of levodopa have provided additional modest benefits for people with PD, and now new delivery methods for levodopa promise to improve outcomes.
Decades later the next breakthrough in care came when the FDA approval deep brain stimulation for the treatment of PD. Today, we know that Parkinson’s is a synucleinopathy – a disease of alpha-synuclein – which brings us to the therapeutic approaches being discussed in this episode.
If you have questions about this or anything else Dr. Guttman mentioned, let us know at Parkinson.org/feedback, and we will provide answers in future podcast episodes.
Mark Guttman, MD
Dr. Guttman is a movement disorder neurologist at the Centre for Movement Disorders in Toronto, Canada. He provides specialized neurological services to people with movement disorders and is involved with clinical research at the Centre and at the University of Toronto.