Glial cell line-derived neurotrophic factor (GDNF) is a trophic factor for several neuronal populations involved in motor control. The present study evaluates the trophic actions of GDNF on corticospinal neurons, an important central nervous system motor projection into the spinal cord. Death of spinal motoneurons and corticospinal neurons is observed in the neurodegenerative disease amyotrophic lateral sclerosis. Axotomy of adult rat corticospinal neurons at internal capsule levels induces half of them to die, and the surviving population displays severe atrophy. To examine the trophic effects of GDNF on corticospinal neurons, Fast Blue-labelled corticospinal neurons were stereotaxically axotomized at internal capsule levels and GDNF was infused intracortically to lesioned corticospinal neurons at total doses of 2, 4, 10, 20, 40, 100 and 300 microg for 7 days. GDNF prevented axotomy-induced death of corticospinal neurons at doses between 2 and 40 microg and abolished or attenuated their atrophy at all doses examined. In addition, treatment with 8 microg GDNF for the first 2 weeks after axotomy resulted in the long-term survival of corticospinal neurons for 42 days. With regard to the development of treatment strategies for upper motoneuron degeneration in amyotrophic lateral sclerosis, application of GDNF via the cerebrospinal fluid may be more relevant than intracortical delivery as its diffusion within the brain parenchyma is limited. Intraventricular as well as intracisternal infusion of GDNF (300 microg over 7 days) completely prevented corticospinal neuron death. These results show that GDNF promotes the long-term survival of corticospinal neurons and has a positive effect on their size in vivo. Furthermore, the survival-promoting effect of GDNF on corticospinal neurons after delivery via cerebrospinal fluid has important clinical implications for potential treatment of the upper motoneuron degeneration seen in amyotrophic lateral sclerosis.