Recovery of Evoked Potentials, Metabolic Activity and Behavior in a Mouse Model of Somatosensory Cortex Lesion: Role of the Neural Cell Adhesion Molecule (NCAM)

doi:10.1093/cercor/bhg131

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Cerebral Cortex March 2004; 14:332-341
© Oxford University Press 2004

Recovery of Evoked Potentials, Metabolic Activity and Behavior in a Mouse Model of Somatosensory Cortex Lesion: Role of the Neural Cell Adhesion Molecule (NCAM)

E. Troncoso¹, D. Muller², K Korodi¹, T. Steimer³, E. Welker⁴ and J.Z. Kiss¹

¹ Department of Morphology, University of Geneva Medical School, 1 rue Michel Servet, CH-1211 Geneva 4, Switzerland, ² Department of Neuropharmacology, University of Geneva Medical School, 1 rue Michel Servet, CH-1211 Geneva 4, Switzerland, ³ Department of Psychopharmacology, University of Geneva Medical School, 1 rue Michel Servet, CH-1211 Geneva 4, Switzerland, ⁴ IBCM, University of Lausanne, Switzerland

Understanding the processes that underlie functional recoveryafter cortical injury is a major challenge for neurobiologyand clinical neurology. The aim of the present study was toestablish a mouse model of functional recovery that would facilitatethe investigation of the molecular and cellular events involvedin cortical dynamics. We show that a focal injury of $~$ 0.5 mmof diameter and 1 mm depth made in the barrel cortex of adultmice induced a transitory deficit that could be characterizedusing somatosensory evoked potential (SEP), metabolic mappingand a behavioral test. SEP recordings of short latency responsesusing an epicranial multi-array system showed a decreased corticalactivity in the peri-lesion regions 2 weeks after the injuryand a partial recovery to normal pattern 6 weeks after the lesion.Delayed SEP signals over the motor cortex were not altered bythe injury. Metabolic mapping with [¹⁴C]deoxyglucose uptakein the surround of the injury reproduced the time course ofdeficit and recovery. Finally, a deficit in vibrissae relatedperformance in a gap-crossing test 1 week after injury was followedby a functional recovery in the following 2 weeks. We show inaddition that the recovery process is deficient and significantlydelayed in NCAM knockout mice lacking all isoforms of NCAM (neuralcell adhesion molecule)and PSA-NCAM. These results support thehypothesis that impairment and recovery of functions after focalcortical lesion involves remodeling of intact circuits surroundingthe lesion and that the NCAM molecule participate in this process.The model opens new possibilities for investigating the roleof candidate molecules in functional recovery using geneticallymodified mice.

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