The search for the holy grail: Promising strategies for slowing, stopping, or reversing Parkinson’s disease12/02/2019
Understanding of the processes involved in Parkinson’s disease (PD) degeneration has vastly improved over the last 20 years. In this insightful review, published in the special supplement to the Journal of Parkinson’s Disease, experts consider which of the existing strategies to slow down or stop the degenerative processes of PD are most likely to be successful over the next 20 years.
PD is a slowly progressive disorder that affects movement, muscle control, and balance. “Our understanding of PD pathophysiology has vastly improved compared to what we knew 20 years ago,” explained authors Tom Foltynie, MBBS, Ph.D., Department of Clinical and Movement Neurosciences, UCL Institute of Neurology & The National Hospital for Neurology and Neurosurgery, London, UK, and J. William Langston, MD, Associate Director, Stanford Udall Center, Department of Pathology, Stanford University, Stanford, CA, USA. “We believe we can be optimistic that the next 20 years will see major breakthroughs towards the discovery of therapies that may slow, stop, or reverse PD.”
The authors summarize recent advances, including identification of the major genetic risks for PD; development of more representative animal models of the disease; early successes using Antisense Oligonucleotide and vaccination approaches in other neurodegenerative diseases; and a translational pipeline of a broad range of repurposed drugs showing the first signals of potential efficacy, which are being driven forward through the various clinical trial stages.
“Slowing disease progression in PD has been described as the ‘holy grail’ of research,” Looking forward, the authors identify several promising developments, including:
- New therapeutic targets following the discovery of genetic risk factors, such as autosomal dominant mutations in the LRRK2 gene; and the enzyme glucocerebrosidase (GCase), which is reduced in patients with mutations in the GBA gene—including treatment with Ambroxol, a drug already licensed for lung surfactant deficiency.
- Targeting “non-motor” features of PD such as cognitive, speech, gait, and balance difficulties and autonomic failure, which may precede the onset of motor symptoms, and could provide an even earlier window to start therapy, with an opportunity to slow or stop the development of even the first motor symptoms of PD.
- Treatment with glucagon-like peptide 1 (GLP-1) receptor agonists that are licensed for the treatment of type 2 diabetes and have neuroprotective properties across the whole range of animal models of PD, including two alpha-synuclein models. There are plans for a phase 3 trial of exenatide, and there is growing interest in exploring other drugs in this class for their potential disease-modifying properties;
- Repurposing drugs used in other therapies such as those used to treat primary biliary cirrhosis and chronic myelocytic leukemia, and agonists of the beta adrenoceptor (Salbutamol, Clenbuterol).
- Use of immunomodulatory therapies to prevent or slow disease progression, including, for example, Azathioprine and Sargramostim.
- And finally, the authors mention the prospects for harnessing nanotechnology. “The grand vision would be to develop a therapy that would accurately target alpha-synuclein pathology, dissolve the toxic aggregates, and push the equilibrium back towards normal monomeric alpha-synuclein.”
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