Alzheimer disease (AD) is characterized by progressive memory loss, reduction in cognitive functions, and damage to the brain. The β-amyloid precursor protein can be sequentially cleaved by β- secretase and γ-secretase. Mutations in the presenilin1(PS1) are the most common cause of Familial Alzheimer’s disease (FAD). PS1 mutations can alter the activity of γ-secretase on the cleavage of the β-amyloid precursor protein, causing increased Aβ production. Previous studies show that the βAPP-C-terminal fragment is first cleaved by β-scretase, primarily generating long fragments of Aβ48 and Aβ49, followed by the stepwise cleavage of every three amino acid residues at the C terminus, resulting in Aβ48-, 45-, 42 line and Aβ49-, 46-, 43-, 40 line. Here, we used LC-MS/MS to analyze unique peptides IAT, VVIA, ITL, TVI, IVI through sequential cleavage, combined with ELISA to test the level of Aβ42 and Aβ40 for validation. The results show that most FAD mutant PS1 can alter the level of Aβ42 and Aβ40 monitored by the Aβ42/Aβ40 ratio. Among them, six mutants (I143T, H163P, S170F, Q223R, M233V, and G384A) affect the Aβ42/40 ratio through both Aβ49-40 and Aβ48-38 lines; L166P through decreasing the Aβ49-40 line, six mutants (I143V, M146V, G217A, E280A, L381V, and L392V) through increasing the Aβ48-42 line. More importantly, we found some mutations can affect the γ-secretase cleavage preference of α-CTF and β-CTF. In conclusion, we found that the FAD PS1 mutations mainly increase the generation of Aβ42 by decreasing the cleavage of Aβ42–Aβ38 and Aβ43–Aβ40.
The cytoskeleton not only provides structure, it is an active component of cell function, and in several neurodegenerative disorders, there is evidence of cytoskeletal collapse. Cytoskeletal proteins have been specifically implicated in the pathogenesis of Parkinson's disease (PD), where degeneration of dopaminergic (DA) neurons is the hallmark, but in which many factors may determine the resilience of DA neurons during aging and stress. Here we report that the human Microtubule Actin Cross-linking Factor 1 gene (MACF1), a downstream target of PD biochemical pathways, was significantly associated with PD in 713 nuclear families. A significant allelic association between PD and rs12118033, with P = 0.0098, was observed, and a P < 0.03 was observed in the association analysis by both a trend test and an allelic test. We further observed that it is the MACF1b isoform, not the MACF1a isoform, which is expressed in DA neurons from six human postmortem brains. In a Caenorhabditis elegans system, used to explore the effect of altered MACF1b on neurons, knockdown or knockout of the MACF1b orthologue vab-10 resulted in the selective loss of DA neurons, which validated MACF1's risk candidacy in PD. These findings strongly suggest that MACF1b may contribute to the genetic etiology and mechanistic causation of PD.
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