Decrease in catalytic capacity of γ-secretase can facilitate pathogenesis in sporadic and Familial Alzheimer's disease

Alzheimer's disease can be a result of an age-induced disparity between increase in cellular metabolism of Aβ peptides and decrease in maximal activity of a membrane-embedded protease γ-secretase. We compared activity of WT γ-secretase with the activity of 6 FAD mutants in its presenilin-1 comp...

Full description

Saved in:
Bibliographic Details
Published in:Molecular and cellular neuroscience 2015-07, Vol.67, p.55-65
Main Authors: Svedružić, Željko M., Popović, Katarina, Šendula-Jengić, Vesna
Format: Article
Language:English
Subjects:
Adult
Alzheimer Disease - blood
Alzheimer Disease - enzymology
Amyloid beta-Peptides - metabolism
Amyloid Precursor Protein Secretases - blood
Amyloid Precursor Protein Secretases - genetics
Amyloid Precursor Protein Secretases - metabolism
Animals
Biomarkers - blood
Case-Control Studies
Cell Line
Early diagnostics
Familiar Alzheimer's disease mutations
Humans
Mice
Middle Aged
Mutation, Missense
Pathogenesis
Presenilin-1 - genetics
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Alzheimer's disease can be a result of an age-induced disparity between increase in cellular metabolism of Aβ peptides and decrease in maximal activity of a membrane-embedded protease γ-secretase. We compared activity of WT γ-secretase with the activity of 6 FAD mutants in its presenilin-1 component and 5 FAD mutants in Aβ-part of its APP substrate (Familial Alzheimer's disease). All 11 FAD mutations show linear correlation between the decrease in maximal activity and the clinically observed age-of-onset and age-of-death. Biphasic-inhibitors showed that a higher ratio between physiological Aβ-production and the maximal activity of γ-secretase can be observed in cells that can facilitate pathogenic changes in Aβ-products. For example, Aβ production in cells with WT γ-secretase is at 11% of its maximal activity, with delta-exon-9 mutant at 26%, while with M139V mutant is at 28% of the maximal activity. In the same conditions, G384A mutant is fully saturated and at its maximal activity. Similarly, Aβ production in cells with γ-secretase complex carrying Aph1AL component is 12% of its maximal activity, while in cells with Aph1B complex is 26% of its maximal activity. Similar to the cell-based studies, clinical studies of biphasic dose–response in plasma samples of 54 healthy individuals showed variable ratios between physiological Aβ production and the maximal activity of γ-secretase. The increase in the ratio between physiological Aβ production and maximal activity of γ-secretase can be an early sign of pathogenic processes in enzyme-based, cell-based, and clinical studies of sporadic and Familiar Alzheimer's disease. •We do not know how changes in γ-secretase activity can support pathogenesis in Alzheimer's disease.•Confusingly both increase and decrease in γ-secretase's activity can be observed in pathogenesis.•The decrease in γ-secretase capacity to process its substrate is a good indicator of pathogenic events.•Measurements of γ-secretase capacity to process its substrate can be used as an early diagnostic tool.•Measurements of γ-secretase capacity to process its substrate can be used in the development of drugs.
ISSN:1044-7431
1095-9327
DOI:10.1016/j.mcn.2015.06.002