Abstract
This review explores the intricate processes of motor unit remodeling with a specific focus on the influence of reactive oxygen species (ROS) and oxidative stress on the primary cellular components: nerves/axons, muscle fibers, and muscle-resident glial cells. Emphasizing the role of redox biology, we highlight how oxidative stress impacts motor unit adaptation, injury response, and aging. By synthesizing findings from recent studies with seminal works, including investigations of myelin and terminal Schwann cells and neuromuscular junction (NMJ) dynamics, this review provides a comprehensive understanding of the molecular mechanisms underpinning motor unit maintenance and repair. The goal is to elucidate how oxidative stress influences these processes and to explore potential therapeutic strategies for neuromuscular disorders.