Parkinson’s Tremor Linked to Dopamine in Caudate Nucleus – Neuroscience News

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Summary: Rest tremor in Parkinson’s disease is linked to dopamine activity in the caudate nucleus, challenging conventional beliefs about dopamine loss and motor symptoms. Surprisingly, patients with stronger tremor preserved more dopamine in the caudate, highlighting a complex relationship between tremor severity and neural circuits.

This research shows that rest tremor should be studied separately from other motor symptoms, offering insights into PD’s diverse progression patterns. The findings open doors for more targeted therapies by pinpointing specific dopamine pathways involved in tremor.

Key Facts:

  • Rest tremor severity correlates with dopamine levels preserved in the caudate nucleus.
  • Tremor exhibits a “same-side” effect, linking brain and body in an unexpected way.
  • Studying tremor separately from other symptoms may lead to more precise treatments.

Source: Champalimaud Centre for the Unknown

Parkinson’s disease (PD) is a progressive neurological disorder known for its characteristic motor symptoms: tremor, rigidity, and slowness of movement. Among these, rest tremor—a shaking that occurs when muscles are relaxed—is one of the most recognisable yet least understood.

A new study from the Champalimaud Foundation published in npj Parkinson’s Disease, led by the Neural Circuits Dysfunction Lab in collaboration with the Neuropsychiatry and Nuclear Medicine Labs, offers fresh insights into the complex relationship between rest tremor and dopamine, a chemical messenger that plays a key role in coordinating movement.

Dopamine loss in brain regions like the putamen, associated with movement regulation, is a well-established hallmark of PD. Credit: Neuroscience News

The Dopamine Paradox

Dopamine loss in brain regions like the putamen, associated with movement regulation, is a well-established hallmark of PD. However, while some patients experience significant tremor relief with dopamine replacement therapies like L-DOPA, others see little to no improvement, or even a worsening of symptoms.

“Tremor is a common and often debilitating symptom for PD patients, but it has always been a bit of a puzzle”, says Marcelo Mendonça, one of the study’s lead authors.

“We know dopamine is involved, but the way it affects tremor isn’t as direct as with other motor symptoms”.

Conventional wisdom suggests that less dopamine should correspond to more severe symptoms. However, the researchers found the opposite to be true when it comes to rest tremor.

“Paradoxically, we discovered that patients who exhibit tremor have more dopamine preserved in the caudate nucleus, a part of the brain important for movement planning and cognition”, explains Mendonça.

“This challenges our traditional understanding of how dopamine loss relates to PD symptoms”.

An Overlooked Player in Tremor?

Using data from patients at the Champalimaud Clinical Centre and public databases, the researchers analysed information from over 500 patients. This diverse dataset included clinical assessments, DaT scans to visualise dopaminergic neurons, and wearable motion sensors that precisely measure tremor severity.

“Wearable motion sensors gave us a clearer, more objective measurement of tremor”, says co-first author Pedro Ferreira.

“On the surface, patients with and without dopamine loss in the caudate seem similar. However, sensors reveal subtle differences in tremor oscillations that traditional clinical rating scales might miss, and they’re relatively easy to use, allowing us to reliably connect symptoms with what’s happening in the brain”.

“By combining imaging data with measurements from these sensors, we observed a clear link between dopamine function in the caudate nucleus and global severity of resting tremor”, continues Ferreira.

“Our analysis suggests that the more dopamine activity preserved in the caudate, the stronger the tremor”.

Senior author Joaquim Alves da Silva, head of the Neural Circuits Dysfunction Lab, picks up the story: “This is the first large study to clearly show a link between better-preserved dopamine levels in the caudate and the presence of rest tremor.

“Although patients with rest tremor have lost dopamine-releasing nerve endings in the caudate, they actually have more of these nerve endings preserved compared to patients without tremor”.

One of the most intriguing findings of the study was that the more dopamine was preserved in the caudate on one side of the brain (each hemisphere has its own caudate), the more tremor there was on the same side of the body.

“This was quite unexpected”, says Alves da Silva.

“Usually, each side of the brain controls movement on the opposite side of the body”. Their computational model found that this “same-side” effect could arise spuriously from two factors: the generally higher dopamine in both caudates in tremor patients and the uneven way PD affects each side of the brain.

Challenging Conventional Classifications

This study builds on earlier work by the same team, published last month in Neurobiology of Disease, which showed the value of treating rest tremor separately from other motor symptoms—a departure from traditional approaches that have lumped these symptoms together.

Their prior research revealed that rest tremor varies with the type of PD progression: tremor, particularly when resistant to treatment, is more common in patients presenting a “brain-first” PD, while those without tremor present a symptom pattern more aligned with a “gut-first” PD, where the disease process starts in the gut and spreads to the brain.

This new study extends that line of inquiry, showing that the severity of rest tremor may be linked to specific brain circuits.

“Dopamine loss in PD is not uniform—different patients may lose dopamine in distinct circuits”, notes Alves da Silva.

“By focusing on rest tremor in isolation, we are in a better position to pinpoint the specific neural pathways involved. For instance, could tremor result from an imbalance in dopamine between the caudate and putamen?

“Identifying reliable biological correlates for individual symptoms is critical, as it paves the way for more targeted therapies aimed at relieving them”.

“Not all dopamine cells are alike”, adds Mendonça. “They have different genetic makeups, connections, and functions. This means that which cells a patient loses or keeps could affect their symptoms.

“For example, tremor might be tied to the loss or preservation of specific dopamine populations that connect to certain brain areas. This variation in cell type loss could further explain the wide range of symptoms among PD patients”.

Implications for Treatment and Future Research

The team is already looking ahead, says Alves da Silva. “It’s difficult to establish causality between dopamine preservation in the caudate and rest tremor in humans, which is why we’d like to test this in animal models, where we can manipulate specific cells and observe the effects on tremor.

“We’d also like to use advanced imaging techniques, like high-resolution dopamine PET scans and MRI, to identify key nodes in the dopamine system and link them to specific motor symptoms. This approach could help us better understand why PD symptoms differ from one patient to another”.

The research highlights the importance of looking beyond general classifications in PD and underscores the need for more nuanced approaches informed by underlying biology.

“By identifying the specific neural circuits involved, we hope to clear the mist surrounding the heterogeneity of PD symptoms and contribute to more precise interventions that can improve the quality of life for those affected by this disease”, concludes Mendonça.

About this Parkinson’s disease research news

Author: Hedi Young
Source: Champalimaud Centre for the Unknown
Contact: Hedi Young – Champalimaud Centre for the Unknown
Image: The image is credited to Neuroscience News

Original Research: Open access.
Integrity of dopaminergic terminals in the caudate nucleus is relevant for rest tremor in Parkinson’s disease” by Marcelo Mendonça et al. npj Parkinson’s Disease


Abstract

Integrity of dopaminergic terminals in the caudate nucleus is relevant for rest tremor in Parkinson’s disease

Resting tremor (RT) is a Parkinson’s disease (PD) symptom with an unclear relationship to the dopaminergic system. We analysed data from 432 subjects from the Parkinson’s Progression Markers Initiative, 57 additional PD patients and controls and 86 subjects referred for dopamine transporter single-photon emission computed tomography (DaT-SPECT).

Caudate binding ratio (CBR), but not putamen binding ratio, was higher in RT patients. Furthermore, higher baseline CBR was linked to RT development. In the smaller cohorts, a 4–6 Hz oscillation-based metric from inertial sensors correlated with RT amplitude, distinguished controls from patients with reduced DaT binding and correlated with CBR in the latter group.

In silico modelling uncovered that higher CBR in RT patients explained correlations between RT and DaT-SPECT found in several datasets, supporting a spurious origin for ipsilateral correlations between CBR and RT.

These results suggest that caudate dopaminergic terminals integrity is a feature of RT with potential pathophysiological implications.

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