N-terminal acetylation of superoxide dismutase 1 accelerates amyloid formation without general destabilization of the apo-state

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Abstract

Co- and posttranslational modifications can significantly impact the structure, dynamics and function of proteins. In this study we investigate how N-terminal acetylation affects misfolding and self-assembly of the enzyme superoxide dismutase 1 (SOD1), implicated in amyotrophic lateral sclerosis (ALS). Studies of protein inclusions in patient samples and animal models have shown that wild-type SOD1 can form amyloid fibrils even when no mutations are found in the sod1 -gene. This has identified SOD1 amyloid formation as a possible common denominator of ALS and may suggest that co- and posttranslational modifications, like N-terminal acetylation found in human SOD1, can be a factor in disease development. In this work the impact of N-terminal acetylation of SOD1 on stability and aggregation is characterized. Results show that the structure and thermal stability of the apo-state are unaffected by the modification while the amyloid formation rate is significantly enhanced. This is caused by a shortening of the nucleation phase together with an increase of fibril elongation by more than 10-fold upon N-terminal acetylation of SOD1. Collectively the findings demonstrate how regulation by co- and posttranslational modifications can influence protein misfolding and self-assembly.
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Abstract Co- and posttranslational modifications can significantly impact the structure, dynamics and function of proteins. In this study we investigate how N-terminal acetylation affects misfolding and self-assembly of the enzyme superoxide dismutase 1 (SOD1), implicated in amyotrophic lateral sclerosis (ALS). Studies of protein inclusions in patient samples and animal models have shown that wild-type SOD1 can form amyloid fibrils even when no mutations are found in the sod1-gene. This has identified SOD1 amyloid formation as a possible common denominator of ALS and may suggest that co- and posttranslational modifications, like N-terminal acetylation found in human SOD1, can be a factor in disease development. In this work the impact of N-terminal acetylation of SOD1 on stability and aggregation is characterized. Results show that the structure and thermal stability of the apo-state are unaffected by the modification while the amyloid formation rate is significantly enhanced. This is caused by a shortening of the nucleation phase together with an increase of fibril elongation by more than 10-fold upon N-terminal acetylation of SOD1. Collectively the findings demonstrate how regulation by co- and posttranslational modifications can influence protein misfolding and self-assembly. Competing Interest Statement The authors have declared no competing interest. Abbreviations - SOD1 - superoxide dismutase 1 - ALS - amyotrophic lateral sclerosis - Nterm-acetyl-pwtSOD1Δcys - N-terminal acetylated SOD1 C6A/F50E/G51E/C57S/C111A/C146S - pwtSOD1Δcys - SOD1 C6A/F50E/G51E/C57S/C111A/C146S - NAT A - N-terminal acetyl transferase A - NMR - nuclear magnetic resonance - CD - circular dichroism - MS - mass-spectrometry

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License: CC-BY-NC-ND-4.0