Presenilins (PSs) are part of the ␥-secretase complex that produces the amyloid -peptide (A) from its precursor [-amyloid precursor protein (APP)]. Mutations in PS that cause familial Alzheimer's disease (FAD) increase A production and trigger p53-dependent cell death. We demonstrate that PS deficiency, catalytically inactive PS mutants, ␥-secretase inhibitors, and APP or amyloid precursor protein-like protein 2 (APLP2) depletion all reduce the expression and activity of p53 and lower the transactivation of its promoter and mRNA expression. p53 expression also is diminished in the brains of PS-or APP-deficient mice. The ␥-and -secretase-derived amyloid intracellular C-terminal domain (AICD) fragments (AICDC59 and AICDC50, respectively) of APP trigger p53-dependent cell death and increase p53 activity and mRNA. Finally, PS1 mutations enhance p53 activity in human embryonic kidney 293 cells and p53 expression in FAD-affected brains. Thus our study shows that AICDs control p53 at a transcriptional level, in vitro and in vivo, and that FAD mutations increase p53 expression and activity in cells and human brains.
In transgenic mice expressing human mutant beta-amyloid precursor protein (APP) and mutant presenilin-1 (PS1), Abeta antibodies labeled granules, about 1 microm in diameter, in the perikaryon of neurons clustered in the isocortex, hippocampus, amygdala, thalamus, and brainstem. The granules were present before the onset of Abeta deposits; their number increased up to 9 months and decreased in 15-month-old animals. They were immunostained by antibodies against Abeta 40, Abeta 42, and APP C-terminal region. In double immunofluorescence experiments, the intracellular Abeta co-localized with lysosome markers and less frequently with MG160, a Golgi marker. Abeta accumulation correlated with an increased volume of lysosomes and Golgi apparatus, while the volume of endoplasmic reticulum and early endosomes did not change. Some granules were immunolabeled with an antibody against flotillin-1, a raft marker. At electron microscopy, Abeta, APP-C terminal, cathepsin D, and flotillin-1 epitopes were found in the lumen of multivesicular bodies. This study shows that Abeta peptide and APP C-terminal region accumulate in multivesicular bodies containing lysosomal enzymes, while APP N-terminus is excluded from them. Multivesicular bodies could secondarily liberate their content in the extracellular space as suggested by the association of cathepsin D with Abeta peptide in the extracellular space.
The protein flotillin-1 is associated with the 'lipid rafts', that is, membrane microdomains that are enriched in cholesterol and sphingolipids. We compared flotillin-1 immunoreactivity in the hippocampus, amygdala and isocortex (Brodmann area 22) of six controls and 13 Alzheimer's disease (AD) cases (10 sporadic and three familial). A diffuse labelling of the neuropil was observed in most of the samples. The intensity of this labelling was not correlated with the density of neurofibrillary tangles (NFT) or of senile plaques. Some neuronal cell bodies were diffusely labelled in patients as in controls. Immunostained granular bodies were found in the cell body of a few neurones. The density of neuronal profiles containing large granular bodies (diameter > or =2 microm) was significantly higher in AD cases and was correlated with the density of NFTs in the three regions that were studied. Sections stained by double immunofluorescence methods and examined with confocal microscopy suggested that flotillin-1 accumulated most often in tangle-bearing neurones (76% of flotillin-1-positive neurones contained a NFT). Flotillin-1 immunoreactivity, even when found in a tangle-bearing neurone, was not colocalized with tau protein indicating that the two proteins were not in close contact and probably in different subcellular compartments. Flotillin-1-positive granular bodies were also found in neurones containing Pin1-positive vesicles but were not colocalized with them. Flotillin-1 immunoreactivity was colocalized with cathepsin D, a lysosomal marker. These data indicate that flotillin-1, a marker of rafts, accumulates in lysosomes of tangle-bearing neurones in the course of AD.
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