Familial Alzheimer disease–linked mutations specifically disrupt Ca2+ leak function of presenilin 1
Omar Nelson, … , Bart de Strooper, Ilya Bezprozvanny
Omar Nelson, … , Bart de Strooper, Ilya Bezprozvanny
Published May 1, 2007
Citation Information: J Clin Invest. 2007;117(5):1230-1239. https://doi.org/10.1172/JCI30447.
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Research Article Neuroscience

Familial Alzheimer disease–linked mutations specifically disrupt Ca2+ leak function of presenilin 1

Abstract

Mutations in presenilins are responsible for approximately 40% of all early-onset familial Alzheimer disease (FAD) cases in which a genetic cause has been identified. In addition, a number of mutations in presenilin-1 (PS1) have been suggested to be associated with the occurrence of frontal temporal dementia (FTD). Presenilins are highly conserved transmembrane proteins that support cleavage of the amyloid precursor protein by γ-secretase. Recently, we discovered that presenilins also function as passive ER Ca2+ leak channels. Here we used planar lipid bilayer reconstitution assays and Ca2+ imaging experiments with presenilin-null mouse embryonic fibroblasts to analyze ER Ca2+ leak function of 6 FAD-linked PS1 mutants and 3 known FTD-associated PS1 mutants. We discovered that L166P, A246E, E273A, G384A, and P436Q FAD mutations in PS1 abolished ER Ca2+ leak function of PS1. In contrast, A79V FAD mutation or FTD-associated mutations (L113P, G183V, and Rins352) did not appear to affect ER Ca2+ leak function of PS1 in our experiments. We validated our findings in Ca2+ imaging experiments with primary fibroblasts obtained from an FAD patient possessing mutant PS1-A246E. Our results indicate that many FAD mutations in presenilins are loss-of-function mutations affecting ER Ca2+ leak activity. In contrast, none of the FTD-associated mutations affected ER Ca2+ leak function of PS1, indicating that the observed effects are disease specific. Our observations are consistent with the potential role of disturbed Ca2+ homeostasis in Alzheimer disease pathogenesis.

Authors

Omar Nelson, Huiping Tu, Tianhua Lei, Mostafa Bentahir, Bart de Strooper, Ilya Bezprozvanny

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Figure 6

Summary of PS1-FTD rescue experiments.

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Summary of PS1-FTD rescue experiments. (A) The average basal cytosolic C...
(A) The average basal cytosolic Ca2+ levels (gray bars) and the amplitude of BK-induced Ca2+ responses (black bars) are shown as mean ± SD for DKO cells transfected with EGFP and PS1 expression constructs (the number of cells analyzed is shown above each set of bars). When compared with DKO cells transfected with EGFP alone, the basal Ca2+ levels were significantly higher and the amplitude of BK-induced Ca2+ response was significantly smaller in DKO cells transfected with EGFP+PS1, EGFP+PS1-L113P, EGFP+PS1-G183V, and EGFP+PS1-Rins352. (B) The average size of IO-releasable Ca2+ pool is shown as mean ± SD for DKO cells transfected with EGFP and PS1 expression constructs (the number of cells analyzed is shown above each bar). When compared with DKO cells transfected with EGFP alone, the size of IO-releasable Ca2+ pool was significantly smaller in DKO cells transfected with EGFP+PS1, EGFP+PS1-L113P, EGFP+PS1-G183V, and EGFP+PS1-Rins352 combinations. ***P < 0.05 by ANOVA.