SOD1 prions transmit templated aggregation and fatal ALS-like disease

Amyotrophic lateral sclerosis (ALS) is an adult-onset fatal neurodegenerative disease characterized by a progressive degeneration of the upper and lower motor neurons. The resulting paresis begins focally, usually in one muscle, and spreads contiguously, leading to muscle wasting, progressive paralysis and eventually death. 90% of all ALS cases are sporadic, with no genetic background (sALS), while 10% are hereditary or familial (fALS). The first identified cause of ALS was mutations in the gene encoding the enzyme superoxide dismutase 1 (SOD1), which are found in 3-6% of the ALS patients. Mutations in SOD1 confer a cytotoxic gain of function on the enzyme. Cytosolic inclusions containing aggregated SOD1 in motor neurons are a hallmark of ALS, both in patients and transgenic (Tg) mice carrying mutant human SOD1s (hSOD1). These inclusions have also been reported in sporadic and familial ALS cases without SOD1 mutations, suggesting a broader role of this protein in the ALS pathology. However, the mechanism of SOD1 misfolding and aggregation, and their contribution to the disease pathogenesis, is unclear. Our research group has recently identified two structurally different strains of hSOD1 aggregates (denoted A and B) in the central nervous system of Tg murine models expressing full-length hSOD1 variants. The aim of this thesis is to investigate if the SOD1 aggregation is a collateral byproduct in the process of the disease, or if it drives ALS pathogenesis. In addition, this work investigates the spreading characteristic of the disease in vivo . Human SOD1 A and B seeds were prepared from spinal cords of terminally ill hSOD1 Tg mice by ultracentrifugation through a density gradient. Minute amounts of the aggregate seeds were micro-inoculated into the lumbar spinal cord of asymptomatic recipient Tg mice, overexpressing G85R mutant hSOD1 (hSOD1 G85R ). Mice inoculated with A or B aggregates developed early-onset fatal ALS-like disease, becoming terminally ill around 100 days after inoculation. This is nearly 200 days earlier than hSOD1 G85R Tg mice inoculated with a control preparation or non-inoculated mice. Concomitantly, exponentially growing templated hSOD1 aggregation developed in the recipient mice, spreading all along the neuraxis. The pathology provoked by the A and B strains differed in aggregation growth rates, disease progression rates, aggregate distribution along the neuraxis, rates of weight loss, end-stage amounts of aggregates, and histopathol