Aggregation modulating elements in mutant human superoxide dismutase 1

Mutations in superoxide dismutase 1 (SOD1) cause some forms of familial amyotrophic lateral sclerosis (fALS). Affected tissues of patients and transgenic mouse models of the disease accumulate misfolded and aggregated forms of the mutant protein. In the present study we have identified specific sequences in human SOD1 that modulate the aggregation of fALS mutant proteins. From our study of a panel of mutant proteins, we identify two sequence elements in human SOD1 (residues 42–50 and 109–123) that are critical in modulating the aggregation of the protein. These sequences are components of the 4th and 7th β-strands of the protein, and in the native structure are normally juxtaposed as elements of the core β-barrel. Our data suggest that some type of intermolecular interaction between these elements may occur in promoting mutant SOD1 aggregation.

Research highlights► Mutations in human superoxide dismutase 1 induce aggregation of the protein. ► A cysteine residue at position 111 in concert with surrounding amino acids plays an important role in modulating aggregation. ► Additional amino acids between positions 42 and 50 interact with the region surrounding cysteine 111 to promote aggregation of mutant protein.