The role of glutamate in the mechanism of spinal motor neuron death is not
fully understood. With addition of glutamate to primary culture of 11-day-o
ld rat spinal cord, terminal deoxynucleotidyl transferase-mediated dUTP-bio
tin in situ nick end labeling (TUNEL) positive nuclei were found in spinal
large motor neurons from 24 h, and the number of TUNEL positive large motor
neurons greatly increased at 48 h. In contrast, only a small number of lar
ge motor neurons became TUNEL positive at 48 h with addition of vehicle to
the primary spinal cord culture. The present results show that excessive am
ount of glutamate enhances DNA fragmentation in developing large motor neur
on of cultured spinal cord by involving in apoptotic process of the neurons
.