Scientists find important causes of Parkinson’s disease and Lewy body dementia

Credit: Unsplash+

Parkinson’s disease and Lewy Body Dementia (LBD) are two devastating neurodegenerative conditions affecting millions of people in the United States.

Both diseases result in the loss of dopamine-producing brain cells, which causes movement problems, tremors, and eventually, memory loss.

Although these diseases have been studied for years, new research from Scripps Research has uncovered important insights into how they develop and progress.

The Role of Nitrogen Molecules and Protein Clumps

Scientists have long understood that Parkinson’s disease and LBD involve the production of highly reactive nitrogen molecules, including nitric oxide.

These molecules can interfere with a process known as autophagy, which is vital for keeping cells healthy by clearing out harmful protein clumps. In these conditions, the problem centers on a specific protein called alpha-synuclein.

Normally, healthy cells efficiently remove alpha-synuclein. However, in people with Parkinson’s and LBD, this protein builds up in sticky clumps, damaging brain cells. The buildup of alpha-synuclein is one of the key factors leading to the symptoms of these diseases.

The Key Protein p62

A protein called p62 plays a central role in maintaining cellular health by supporting autophagy and helping cells get rid of harmful proteins like alpha-synuclein.

However, in Parkinson’s disease, researchers discovered that p62 is modified by nitrogen molecules, specifically through a process called S-nitrosylation. This change prevents p62 from working properly, leading to a buildup of alpha-synuclein inside the cells.

As these protein clumps accumulate, they begin to damage the cells, setting off a chain reaction that makes it harder for nearby brain cells to stay healthy.

How Disease Spreads in the Brain

The accumulation of alpha-synuclein within one brain cell doesn’t stay isolated. The clumps can be released from the affected cell and taken up by neighboring neurons, spreading the damage throughout the brain.

This explains how Parkinson’s disease and LBD gradually worsen over time. The discovery of how p62 is affected by nitrogen molecules may be a key factor in triggering this chain reaction.

Potential for New Treatments

The finding that S-nitrosylation disrupts p62 function opens up new possibilities for treatment. By preventing this modification of p62, researchers might be able to stop the buildup of harmful alpha-synuclein clumps.

This could prevent or slow down the progression of Parkinson’s disease and LBD, offering hope for more effective therapies.

Additionally, there is growing interest in the potential benefits of vitamins E and D for brain health, particularly in preventing or treating Parkinson’s disease. Further research in this area could lead to additional strategies for managing these conditions.

Conclusion

Parkinson’s disease and Lewy Body Dementia are challenging conditions that impact millions of people. Recent discoveries about the role of nitrogen molecules and the protein p62 bring new understanding to how these diseases develop and spread.

By uncovering the mechanisms behind protein clumping and cell damage, researchers are paving the way for new treatments that may one day improve the lives of those affected by these debilitating disorders.

While more work is needed, these findings provide hope for a future with better treatments and possibly even prevention strategies for Parkinson’s and LBD.

If you care about Parkinson’s disease, please read studies that Vitamin B may slow down cognitive decline, and Mediterranean diet could help lower risk of Parkinson’s.

For more information about brain health, please see recent studies that blueberry supplements may prevent cognitive decline, and results showing Plant-based diets could protect cognitive health from air pollution.

Copyright © 2024 Knowridge Science Report. All rights reserved.