Could all the experts be wrong about Parkinson's?

Trailblazing medical researcher Dr. Jonathan Sackner-Bernstein offers a new theory about the causes (and potential treatments) for Parkinson’s, which could upend the prevailing treatments for the disease.

This week The Journal of Parkinson’s Disease published a peer-reviewed scientific study by Dr. Jonathan Sackner-Bernstein positing that the standard way to treat Parkinson's might be precisely the opposite of what would be the most effective. The data in this new study show that instead of focusing on increasing brain dopamine in Parkinson’s patients, a more scientifically rational approach would be to reduce the amount of dopamine within the cells in the brain that control movement.

Data from the study of human brain tissue includes many different types of cells and the materials that connect and bathe them. Sackner-Bernstein’s analysis confirmed the marked reduction in tissue dopamine, by 82% in the caudate and 96% in the putamen – the two areas of the human brain most affected by Parkinson’s.

However, the toxicity of dopamine relates to the amount within the dopaminergic brain cells, rather than the concentration surrounding them. To rationally select a therapy, doctors need to know the levels of dopamine inside these cells rather than what happens around these cells. This analysis reports that the dopamine levels inside these cells (called the cytosol) – the part of the brain cells where dopamine produces its toxicity – were higher than normal in the caudate and putamen of the brain in patients with advanced Parkinson’s disease.

Prior to this publication by Sackner-Bernstein, the amount of dopamine inside these vital brain cells had never been reported.

Along with the elevated dopamine levels inside these cells, these brain cells in people with Parkinson’s disease cannot protect themselves from dopamine toxicity. Thus, the toxic effects of dopamine are more pronounced on the very cells people need the most when suffering from Parkinson's.

As Sackner-Bernstein explained, “The function and viability of the nerve cells is what determines the severity and progression of Parkinson’s disease. Because dopamine can be toxic to these nerve cells, scientists and clinicians cannot develop or prescribe therapies to reverse the disease without knowing the amount of dopamine within these cells. For the first time, these new data show us what is going on inside the brain cells that need treatment.”

The study’s findings explain why treatments to increase dopamine don’t slow or reverse disease progression. Sackner-Bernstein continues, “There is already more than enough dopamine inside the cells. In some ways, using dopaminergic therapies is akin to whipping a tired horse; it helps for a few strides but doesn’t affect long-term results.”

Four laboratory studies report that blocking production of dopamine within these brain cells improves cell function and keeps them alive. Such data in the context of this new observation of increased intracellular dopamine establish a new therapeutic path – one that reduces the average level of dopamine in the nerve cells, while preserving the cells’ ability to synthesize dopamine when needed. This approach can be tested now by using the drug metyrosine to partially block the synthesis of dopamine within the nerve cells.

“We’ve lived in the dopaminergic era since the 1970s and that has allowed for millions of people with Parkinson’s to feel some improvement in their symptoms. But the disease worsens inexorably. It’s time to test a new approach, one based on firm science as highlighted by this groundbreaking publication. The clinical trial to assess the potential impact of blocking dopamine could start this year,” concluded Sackner-Bernstein.

To read the scientific publication, click here.  

To read about how Dr. Sackner-Bernstein discovered this new treatment model for Parkinson’s disease, click here.  

For additional information on Dr. Sackner-Bernstein click here.  

Contact Dr. Sackner-Bernstein at [email protected]