ALS-CSF-induced structural changes in spinal motor neurons of rat pups cause deficits in motor behaviour.

Amyotrophic lateral sclerosis (ALS) is a late-onset, neurodegenerative disease associated with the loss of motor neurons in the spinal cord, brain stem and primary motor cortex. Deficit in the motor function is one of the clinical features of this disease. However, the association between adverse morphological alterations in the spinal motor neurons and motor deficit in sporadic ALS (SALS) is still debated. The present study has sought to investigate the effects of serial intrathecal injections of ALS-CSF into rat pups, at post-natal (P) days 3, 9 and 14, on the motor neuronal (MN) morphology at the cervical and lumbar levels of the spinal cord at P16 and P22. The present study used Cresyl violet and Golgi-Cox staining methods to determine the progressive changes in the morphology of spinal MNs in both cervical and lumbar extensions. The study found a loss of motor neurons in the spinal cord (36% for P16 in cervical and 41.7% in P16 lumbar and 49.57% for P22 cervical and 44.63% for P22 lumbar) and reduced choline acetyl transferase (ChAT) expression after repeated infusion of ALS-CSF. Significant increase in the soma area was also found in ALS-CSF rats (around 21% in P22 cervical and 26.4% in P22 lumbar). Soma hypertrophy was associated with increased dendritic arborization of MNs at both cervical and lumbar levels of the spinal cord. The data also showed a direct correlation between ALS-CSF induced changes in the MN number in the spinal cord and motor behavioral deficits. The loss of MNs, reduced ChAT, changes in soma and dendritic morphology with declined rotarod performance, thus, confirming the pathological phenotypes as seen in ALS patients.