Anxa1+ dopamine neuron vulnerability defines prodromal Parkinson’s disease bradykinesia and procedural motor learning impairment

By Ioannis Mantas, MD, PhD, Alessandro Contestabile, Vasiliki Skara, MSc, Camille Loiseau, PhD, Ines A Santos, Kaitlyn Cramb, PhD, Roberta Filograna, Richard Wade-Martins, PhD, Peter Magill, PhD and Konstantinos (Dinos) Meletis, PhD

View Published Article View Preprint

Description

Progressive degeneration of dopamine neurons (DANs) defines Parkinson’s disease (PD). However, the identity and function of the most vulnerable DAN populations in prodromal PD remain undefined. Here, we identify substantia nigra DANs with Annexin A1 (Anxa1) expression as selectively vulnerable across multiple prodromal PD models and significantly reduced in patient-derived DANs. We found that Anxa1+ DANs have a unique functional profile, as they do not signal reward or reinforce actions, and they are not necessary for motivated behavior. Instead, activity of Anxa1+ DAN axons correlates with vigorous movements during self-paced exploration, yet their silencing only disrupts a subset of action sequences that mirror a PD bradykinesia profile. Importantly, Anxa1+ DANs are essential for procedural learning in a maze task and for motor learning of dexterous actions. These findings establish the early vulnerability of Anxa1+ DANs in PD, whose function can explain prodromal bradykinesia and impairments in procedural motor learning.

Identifier (DOI)

10.1101/2024.12.22.629963

Tags

6-OHDA
Behavior/Behavioral studies
Dopaminergic neurons
hiPSCs (Human induced pluripotent stem cells)
Prodromal PD

Team

Team Cragg

Program

Collaborative Research Network

Theme

Circuitry and Brain-Body Interactions

Meet the Authors

Ioannis Mantas, MD, PhD

Key Personnel: Team Cragg,

Karolinska Institute
Alessandro Contestabile
Vasiliki Skara, MSc

Key Personnel: Team Cragg,

Karolinska Institute
Camille Loiseau, PhD

Key Personnel: Team Cragg,

Medical Research Council
Ines A Santos
Kaitlyn Cramb, PhD

Key Personnel: Team Cragg,

University of Oxford
Roberta Filograna
Richard Wade-Martins, PhD

Co-PI (Core Leadership): Team Cragg,

University of Oxford
Peter Magill, PhD

Co-PI (Core Leadership): Team Cragg,

University of Oxford
Konstantinos (Dinos) Meletis, PhD

Co-PI (Core Leadership): Team Cragg,

Karolinska Institutet

Anxa1+ dopamine neuron vulnerability defines prodromal Parkinson’s disease bradykinesia and procedural motor learning impairment

Output Details

Meet the Authors

Ioannis Mantas, MD, PhD

Alessandro Contestabile

Vasiliki Skara, MSc

Camille Loiseau, PhD

Ines A Santos

Kaitlyn Cramb, PhD

Roberta Filograna

Richard Wade-Martins, PhD

Peter Magill, PhD

Konstantinos (Dinos) Meletis, PhD

Related Research

6-OHDA mouse model of Parkinson’s disease

Levodopa treatment for low-dose 6-OHDA-treated mice

Source Data for Mendonça et al 2024