Abstract
In good accord with the protein aggregation hypothesis for neurodegenerative diseases, ALS-associated SOD1 mutations are found to reduce structural stability or net repulsive charge. Moreover there are weak indications that the ALS disease progression rate is correlated with the degree of mutational impact on the apoSOD1 structure. A bottleneck for obtaining more conclusive information about these structure-disease relationships, however, is the large intrinsic variability in patient survival times and insufficient disease statistics for the majority of ALS-provoking mutations. As an alternative test of the structure-disease relationship we focus here on the SOD1 mutations that appear to be outliers in the data set. The results identify several ALS-provoking mutations whose only effect on apoSOD1 is the elimination or introduction of a single charge, i.e. D76V/Y, D101N, and N139D/K. The thermodynamic stability and folding behavior of these mutants are indistinguishable from the wild-type control. Moreover, D101N is an outlier in the plot of stability loss versus patient survival time by having rapid disease progression. Common to the identified mutations is that they truncate conserved salt-links and/or H-bond networks in the functional loops IV or VII. The results show that the local impact of ALS-associated mutations on the SOD1 molecule can sometimes overrun their global effects on apo-state stability and net repulsive charge, and point at the analysis of property outliers as an efficient strategy for mapping out new ALS-provoking features.
Highlights
As in other soluble proteins, the charged and polar side chains of SOD1 are found in connection to the protein surface where they protrude freely into the solvent or are involved in solvent-accessible salt links and hydrogen bonds (Fig. 1)
amyotrophic lateral sclerosis (ALS) Mutations Targeting SOD1 Hydrogen Bonds able has a mean age of onset of 46 – 47 years [14], indicating the ALS mechanism in this respect is different from that of Lund-Huntington disease where the length of the poly(Q) additions correlates with age of onset of clinical symptoms [15, 16]
For the majority (76%) of the ALS-associated SOD1 mutations there are less than 5 reported disease cases and this shortage of data is alarming for mutations with long survival times
Summary
As in other soluble proteins, the charged and polar side chains of SOD1 are found in connection to the protein surface where they protrude freely into the solvent or are involved in solvent-accessible salt links and hydrogen bonds (Fig. 1). In good accord with the protein aggregation hypothesis for neurodegenerative diseases, ALS-associated SOD1 mutations are found to reduce structural stability or net repulsive charge.
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