Role of EphA4 and EphrinB3 in local neuronal circuits that control walking.

Klas Kullander Simon J B Butt James M Lebret Line Lundfald Carlos E Restrepo Anna Rydström Rudiger Klein Ole Kiehn

Science

Department of Medical Biochemistry, Gothenburg University, Medicinaregatan 9 A, 405 30 Gothenburg, Sweden.

Published: March 2003

Central pattern generators (CPGs) in the spinal cord are responsible for coordinating the limb movements necessary for walking.
Mice missing the EphA4 receptor or its ligand ephrinB3 exhibit a loss of normal left-right limb alternation and display uncoordinated synchrony during locomotion.
The research highlights EphA4-positive neurons as essential excitatory components of the locomotor CPG, revealing that genetic changes can significantly impact locomotion and identifying key genes important for normal walking behavior.

Local circuits in the spinal cord that generate locomotion are termed central pattern generators (CPGs). These provide coordinated bilateral control over the normal limb alternation that underlies walking. The molecules that organize the mammalian CPG are unknown. Isolated spinal cords from mice lacking either the EphA4 receptor or its ligand ephrinB3 have lost left-right limb alternation and instead exhibit synchrony. We identified EphA4-positive neurons as an excitatory component of the locomotor CPG. Our study shows that dramatic locomotor changes can occur as a consequence of local genetic rewiring and identifies genes required for the development of normal locomotor behavior.

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http://dx.doi.org/10.1126/science.1079641	DOI Listing

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