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Alzheimer’s disease is the most common form of neurodegenerative disease. Beta-amyloid peptides (Aβ) are responsible for neuronal death both  in vitro  and  in vivo . Previously, L17 and F19 residues were identified as playing key roles in the stabilization of the Aβ 40  conformation and in the reduction of its neurotoxicity. In this study, the effects of L17A/F19A mutations on the neurotoxicity of Aβ genetic mutant Arctic-type Aβ 40 (E22G) were tested. The results showed that compared to Aβ 40 (E22G), Aβ 40 (L17A/F19A/E22G) reduced the rate of conformation conversion, aggregation, and cytotoxicity, suggesting that L17 and F19 are critical residues responsible for conformational changes which may trigger the neurotoxic cascade of Aβ. Aβ 40 (L17A/F19A/E22G) also had decreased damage due to reactive oxygen species. The results are consistent with the discordant helix hypothesis, and confirm that residues 17–25 are in the discordant helix region. Compared to Aβ 40 (L17A/F19A), reduction in aggregation of Aβ 40 (L17A/F19A/E22G) was less significantly decreased. This observation provides an explanation based on the discordant helix hypothesis that the mutation of E22 to G22 of Aβ 40 (E22G) alters the propensity of the discordant helix. Arctic-type Aβ 40 (E22G) aggregates more severely than wild-type Aβ 40 , with a consequential increase in toxicity.

Effect of Alanine Replacement of L17 and F19 on the Aggregation and Neurotoxicity of Arctic-Type Aβ40