Parkinson's: Cancer drug halts disease progression in mice

Evan Walker
Evan Walker TheMediTary.Com |
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A cancer drug has shown promise against Parkinson’s disease in mouse models. Image credit: Michael Siluk/UCG/Universal Images Group via Getty Images.
  • Parkinson’s disease is a condition that affects the nerves in the brain and, in turn, affects movement.
  • People with Parkinson’s disease may also experience cognitive changes and struggle with day-to-day activities.
  • Research is ongoing about the specific components of Parkinson’s disease and what actions may be able to treat the condition.
  • One study found that disrupting the interaction between two proteins may be the key to blocking neurodegeneration in Parkinson’s disease.

Parkinson’s disease is a complex condition that affects nerve function. Researchers are still seeking to understand the brain changes that occur in the condition and what actions could stop these changes from happening.

One area of interest is looking at what mechanisms contribute to the buildup of clumps of the protein alpha-synuclein in the brain of someone with Parkinson’s disease.

A study published in Nature Communicationsfound that two key proteins, Lag3 and Aplp1, interact to facilitate alpha-synuclein toxicity.

The researchers also found that using an anti-lag3 antibody disrupts this protein interaction and helps stop neurodegeneration in mice.

If future research aligns with these findings, this could point to a potential way to stop the progression of Parkinson’s disease.

The researchers used mice to look more at what is involved in the abnormal alpha-synuclein journey. They were able to confirm that two key proteins are involved: Aplp1 and Lag3.

They found that the interaction between these two proteins contributes to the “binding, internalization, transmission, and toxicity of pathologic [alpha-synuclein].” The findings also suggest that Aplp1 and Aplp1-Lag3 interaction contribute to alpha-synuclein’s cell-to-cell transmission.

The research further supported that the genetic deletion of Aplp1 and Lag3 helped preserve dopaminergic neurons — brain cells that release dopamine, the hormone whose production is impaired in Parkinson’s — and eliminate behavior deficits from alpha-synuclein-preformed fibrils.

Study authors Xiaobo Mao, Ph.D., Ted M. Dawson, and Valina L. Dawson summarized some of the key findings of the study thus:

“[Our team] at Johns Hopkins discovered that two proteins, called Aplp1 and Lag3, play an important role in the spread of Parkinson’s disease in the brain. These proteins interact with each other and allow harmful clumps of another protein called alpha-synuclein to enter and kill healthy brain cells. Alpha-synuclein clumps are a hallmark of Parkinson’s disease and are responsible for the progressive loss of dopamine-producing neurons, leading to movement and cognitive impairments.”

With these data in mind, the next step was to look at how stopping the interaction between Aplp1 and Lag3 could help with alpha-synuclein problems and potentially stop neurodegeneration.

The researchers investigated how using the Lag3 antibody 410C9 could help. They found that this antibody was able to disrupt the Aplp1-Lag-3 interaction. This helped prevent alpha-synuclein pathogenesis and transmission, which, in turn, helped prevent neurodegeneration and behavioral deficits.

Parkinson’s disease affects the brain and movement. One characteristic brain change in Parkinson’s disease is the presence of Lewy bodies.

These Lewy bodies are clumps of alpha-synuclein protein that build up inside brain cells. People with Parkinson’s disease can experience movement difficulties such as tremors, imbalance, and gait changes. They may also struggle to remember things or pay attention.

Currently, Parkinson’s disease dies not have a cure, so treatment focuses largely on symptom relief. It can include therapy to help with movement and speech, dietary changes, and the use of medications to help address movement struggles.

Daniel Truong, MD, neurologist and medical director of the Truong Neuroscience Institute at MemorialCare Orange Coast Medical Center in Fountain Valley, CA, who was not involved in the recemt study, explained a little more about how Parkinson’s disease affects the body.

“Parkinson’s disease impacts people in different ways. The disease has motor and nonmotor symptoms as we know now. The motor symptoms cause tremors, rigidity, bradykinesia (slowness of movement), and falling. These symptoms can severely affect daily activities and independence. Falling is most often the cause of death,” he told Medical News Today.

“The nonmotor symptoms cause cognitive decline, mood disorders (such as depression and anxiety), sleep disturbances, and autonomic dysfunction (e.g., constipation, urinary problems). These symptoms lead to declined quality of life [and] increased dependence on care givers, resulting in emotional and financial problems for patient and family. It is a progressive condition with symptoms [that] worsen over time. It has significant emotional and psychological stress for both patients and their caregivers.”

– Daniel Truong, MD

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