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Comparative Study
Journal Article
Nonoverlapping but synergetic tau and APP pathologies in sporadic Alzheimer's disease.
Neurology 2002 August 14
OBJECTIVE: To determine the spatiotemporal mapping of tau pathologies and insoluble pools of Abeta in aging and sporadic AD, and their contribution to the physiopathologic, clinical, and neuropathologic features.
METHODS: The authors studied 130 patients of various ages and different cognitive status, from nondemented controls (n = 60) to patients with severe definite AD (n = 70) who were followed prospectively. Insoluble Abeta 42 and 40 species were fully solubilized and quantified in the main neocortical areas, with a new procedure adapted to human brain tissue. Tau pathology staging was determined in 10 different brain areas, using Western blots.
RESULTS: In AD, there is a constellation of amyloid phenotypes, extending from cases with exclusively aggregated Abeta 42 to cases with, in addition, large quantities of insoluble Abeta 40 species. Five other points were observed: 1) There was no spatial and temporal overlap in the distribution of these two insoluble Abeta species in cortical brain areas. 2) In contrast to solubilized Abeta 40 aggregates composed essentially of monomers and dimers, solubilized Abeta 42 was essentially observed as dimers and multimers. 3) Abeta 42 aggregates were observed at the early stages of tau pathology, whereas the insoluble Abeta 40 pool was found at the last stages. 4) During the progression of the disease, Abeta aggregates increase in quantity and heterogeneity, in close parallel to the extension of tau pathology. 5) There was no spatial overlap between Abeta aggregation that is widespread and heterogeneously distributed in cortical areas and tau pathology that is progressing sequentially, stereotypically, and hierarchically.
CONCLUSIONS: These observations demonstrate that Abeta 42 aggregation, and not Abeta 40, is the marker that is close to Alzheimer etiology. It should be the main target for the early biological diagnosis of AD and modeling. Furthermore, the spatial mismatch between amyloid ss-precursor protein (APP) and tau pathologies in cortical brain areas demonstrates that neurodegeneration is not a direct consequence of extracellular Abeta neurotoxicity. Hence, there is a synergetic effect of APP dysfunction, revealed by Abeta aggregation, on the neuron-to-neuron propagation of tau pathology.
METHODS: The authors studied 130 patients of various ages and different cognitive status, from nondemented controls (n = 60) to patients with severe definite AD (n = 70) who were followed prospectively. Insoluble Abeta 42 and 40 species were fully solubilized and quantified in the main neocortical areas, with a new procedure adapted to human brain tissue. Tau pathology staging was determined in 10 different brain areas, using Western blots.
RESULTS: In AD, there is a constellation of amyloid phenotypes, extending from cases with exclusively aggregated Abeta 42 to cases with, in addition, large quantities of insoluble Abeta 40 species. Five other points were observed: 1) There was no spatial and temporal overlap in the distribution of these two insoluble Abeta species in cortical brain areas. 2) In contrast to solubilized Abeta 40 aggregates composed essentially of monomers and dimers, solubilized Abeta 42 was essentially observed as dimers and multimers. 3) Abeta 42 aggregates were observed at the early stages of tau pathology, whereas the insoluble Abeta 40 pool was found at the last stages. 4) During the progression of the disease, Abeta aggregates increase in quantity and heterogeneity, in close parallel to the extension of tau pathology. 5) There was no spatial overlap between Abeta aggregation that is widespread and heterogeneously distributed in cortical areas and tau pathology that is progressing sequentially, stereotypically, and hierarchically.
CONCLUSIONS: These observations demonstrate that Abeta 42 aggregation, and not Abeta 40, is the marker that is close to Alzheimer etiology. It should be the main target for the early biological diagnosis of AD and modeling. Furthermore, the spatial mismatch between amyloid ss-precursor protein (APP) and tau pathologies in cortical brain areas demonstrates that neurodegeneration is not a direct consequence of extracellular Abeta neurotoxicity. Hence, there is a synergetic effect of APP dysfunction, revealed by Abeta aggregation, on the neuron-to-neuron propagation of tau pathology.
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