Expansive gene transfer in the rat CNS rapidly produces amyotrophic lateral sclerosis relevant sequelae when TDP-43 is overexpressed.

Improved spread of transduction in the central nervous system (CNS) was achieved from intravenous administration of adeno-associated virus serotype-9 (AAV9) to neonatal rats. Spinal lower motor neuron transduction efficiency was estimated to be 78% using the highest vector dose tested at a 12-week interval. The widespread expression could aid studying diseases that affect both the spinal cord and brain, such as amyotrophic lateral sclerosis (ALS). The protein most relevant to neuropathology in ALS is transactive response DNA-binding protein 43 (TDP-43). When expressed in rats, human wild-type TDP-43 rapidly produced symptoms germane to ALS including paralysis of the hindlimbs and muscle wasting, and mortality over 4 weeks that did not occur in controls. The hindlimb atrophy and weakness was evidenced by assessments of rotarod, rearing, overall locomotion, muscle mass, and histology. The muscle wasting suggested denervation, but there was only 14% loss of motor neurons in the TDP-43 rats. Tissues were negative for ubiquitinated, cytoplasmic TDP-43 pathology, suggesting that altering TDP-43's nuclear function was sufficient to cause the disease state. Other relevant pathology in the rats included microgliosis and degenerating neuronal perikarya positive for phospho-neurofilament. The expression pattern encompassed the distribution of neuropathology of ALS, and could provide a rapid, relevant screening assay for TDP-43 variants and other disease-related proteins.