Delayed application of IGF-I and GDNF can rescue already injured postnatal motor neurons

Abstract

IGF-I, GDNF, and other neurotrophic factors, when applied at the time of injury, can protect postnatal motor neurons from slow glutamate injury in organotypic spinal cord. However, in human spinal cord diseases, motor neuron injury is already established when treatment could begin. We tested whether neurotrophic factors can protect already-injured motor neurons, and whether combinations of factors can further lengthen the therapeutic time window. Our data show that during a 7–8 week process of slow neurodegeneration either IGF-I or GDNF treatment, though delayed up to 4 weeks, still allowed substantial rescue of already injured motor neurons. However, the combination of both factors additively provided better neuroprotection than either factor alone, even after a 4-week delay. This proof of principle is relevant to the potential of IGF-I and GDNF as therapy for acquired disorders affecting motor neurons.