Correlations between cortical and subcortical tau pathology

J. Attems, A. Thomas and K. Jellinger (2012) Neuropathology and Applied Neurobiology 38, 582–590 Correlations between cortical and subcortical tau pathology Aim: Recent studies indicate that tau pathology in Alzheimer's disease (AD) does not initially manifest in the cerebral cortex but in selected subcortical nuclei, in particular the locus ceruleus (LC). In this study we correlate both olfactory and brainstem tau pathology with neuritic Braak stages. Methods: We examined 239 unselected autopsy cases (57.3% female, 42.7% male; aged 55–102, mean 82.8 ± 9.7 SD years; AD, 44.8%; non‐demented controls, 31.8%; Parkinson's disease, 5.0%; dementia with Lewy bodies, 2.5%; AD + Lewy body disease, 15.9%). Neuropathological examination according to standardized methods included immunohistochemistry and semiquantitative assessment of tau lesions in LC, substantia nigra (SN), dorsal motor nucleus of nervus vagus (dmX), and olfactory bulb (OB). Results: In Braak stage 0, tau pathology (usually very sparse pretangle material) was seen in the OB in 52.9% and in the SN/LC in 44%. The prevalence of OB and subcortical tau pathology increased with increasing Braak stages and reached 100% in OB, SN and LC and 95.2% in dmX in Braak stage VI, respectively. The severity of tau pathology in OB and subcortical nuclei significantly (P < 0.001) correlated with Braak stages and these correlations remained statistically significant when controlling for concomitant α‐synuclein pathology in the respective regions. Conclusions: Our finding of an increase in both prevalence and severity of OB, LC, SN and dmX tau pathology in AD with increasing Braak stages suggests that these regions become increasingly involved during AD progression rather than representing sites initially affected by AD‐associated tau pathology.     

Cerebrospinal tau,phospho‐tau,and beta‐amyloid and neuropsychological functions in Parkinson's disease

Alzheimer's disease (AD)‐pathology may play a role in Parkinson's disease (PD)‐related dementia (PDD). The aim of this study was to assess cerebrospinal fluid (CSF) levels of tau, phospho‐tau, and beta‐amyloid, proposed AD biomarkers, and their relationship with cognitive function in PD. Forty PD patients [20 nondemented (PDND); 20 PDD] and 30 controls underwent CSF tau, phospho‐tau, and beta‐amyloid analysis using specific ELISA techniques. All PD patients and 15 controls underwent neuropsychological testing of fronto‐subcortical (attention, fluency) and neocortical (memory, naming, visuoperceptive) functions. CSF markers levels were compared between groups, and compared and correlated with neuropsychological measures in PDND and PDD separately and as a continuum (PD). CSF tau and phospho‐tau were higher in PDD than in PDND and controls (P < 0.05). CSF beta‐amyloid ranged from high (controls) to intermediate (PDND) and low (PDD) levels (P < 0.001). In all PD and PDD patients, high CSF tau and phospho‐tau were associated with impaired memory and naming. In PDND, CSF beta‐amyloid was related with phonetic fluency. These findings suggest underlying AD‐pathology in PDD in association with cortical cognitive dysfunction, and that low CSF beta‐amyloid in PDND patients with impaired phonetic fluency can constitute an early marker of cognitive dysfunction. © 2009 Movement Disorder Society     

Microtubule assembly competence analysis of freshly-biopsied human tau,dephosphorylated tau,and Alzheimer tau

Phosphorylation of the microtubule-associated protein tau regulates its binding to microtubules; highly phosphorylated tau is also a prime component of paired helical filaments (PHFs) of Alzheimer's disease (AD). Tau from freshly biopsied human, monkey, and rat brain share similar electrophoretic mobility patterns and overlapping phosphorylated epitopes when compared to AD tau isolated from AD brain. We compared the microtubule reassembly competence of fresh isolates of phosphorylated tau to that of maximally dephosphorylated tau and tau from AD brain. A rapid procedure was developed which permitted the enrichment of phosphorylated and dephosphorylated tau from human biopsies in the absence of protein kinase and phosphatase activity. Microtubule assembly assays, using a spectrophotometric measure and purified bovine brain tubulin, were used to correlate assembly competence with states of tau electrophoretic mobility. Maximally dephosphorylated human biopsy-derived tau and monkey tau were assembly competent; tau from AD brain was virtually unable to direct microtubule assembly. Unmodified, biopsy-derived tau from non-AD brain was intermediate in assembly competence relative to AD tau and dephosphorylated tau. Several lines of evidence were used to correlate phosphorylation states of tau with microtubule assembly. First, in vitro dephosphorylation of human biopsy-derived tau with either PP2A or PP2B alone or in combination led to increasing assembly competence as the electrophoretic mobility of tau increased. Second, addition of the protein phosphatase inhibitor okadaic acid (10 μM) to brain-slice preparations slowed electrophoretic mobility of tau and decreased binding competence. We suggest that tau derived from freshly-biopsied brain exists in a range of phosphorylated states, and that dephosphorylation by PP2A and/or PP2B increases microtubules assembly competence. © 1996 Wiley-Liss, Inc.     

Reduced Repetition Suppression in Aging is Driven by Tau–Related Hyperactivity in Medial Temporal Lobe

Tau deposition begins in the medial temporal lobe (MTL) in aging and Alzheimer''s disease (AD), and MTL neural dysfunction is commonly observed in these groups. However, the association between tau and MTL neural activity has not been fully characterized. We investigated the effects of tau on repetition suppression, the reduction of activity for repeated stimulus presentations compared to novel stimuli. We used task-based functional MRI (fMRI) to assess MTL subregional activity in 21 young adults (YA) and 45 cognitively normal human older adults (OA; total sample: 37 females, 29 males). AD pathology was measured with position emission tomography (PET), using ¹⁸F-Flortaucipir for tau and ¹¹C-Pittsburgh compound B (PiB) for amyloid-β (Aβ). The MTL was segmented into six subregions using high-resolution structural images. We compared the effects of low tau pathology, restricted to entorhinal cortex and hippocampus (Tau– OA), to high tau pathology, also occurring in temporal and limbic regions (Tau+ OA). Low levels of tau (Tau– OA vs YA) were associated with reduced repetition suppression activity specifically in anterolateral entorhinal cortex (alEC) and hippocampus, the first regions to accumulate tau. High tau pathology (Tau+ vs Tau– OA) was associated with widespread reductions in repetition suppression across MTL. Further analyses indicated that reduced repetition suppression was driven by hyperactivity to repeated stimuli, rather than decreased activity to novel stimuli. Increased activation was associated with entorhinal tau, but not Aβ. These findings reveal a link between tau deposition and neural dysfunction in MTL, in which tau-related hyperactivity prevents deactivation to repeated stimuli, leading to reduced repetition suppression.SIGNIFICANCE STATEMENT Abnormal neural activity occurs in the medial temporal lobe (MTL) in aging and Alzheimer''s disease (AD). Because tau pathology first deposits in the MTL in aging, this altered activity may be due to local tau pathology, and distinct MTL subregions may be differentially vulnerable. We demonstrate that in older adults (OAs) with low tau pathology, there are focal alterations in activity in MTL subregions that first develop tau pathology, while OAs with high tau pathology have aberrant activity throughout MTL. Tau was associated with hyperactivity to repeated stimulus presentations, leading to reduced repetition suppression, the discrimination between novel and repeated stimuli. Our data suggest that tau deposition is related to abnormal activity in MTL before the onset of cognitive decline.     

Cerebrospinal fluid biomarkers of neurovascular dysfunction in mild dementia and Alzheimer's disease

Alzheimer''s disease (AD) is the most common form of age-related dementias. In addition to genetics, environment, and lifestyle, growing evidence supports vascular contributions to dementias including dementia because of AD. Alzheimer''s disease affects multiple cell types within the neurovascular unit (NVU), including brain vascular cells (endothelial cells, pericytes, and vascular smooth muscle cells), glial cells (astrocytes and microglia), and neurons. Thus, identifying and integrating biomarkers of the NVU cell-specific responses and injury with established AD biomarkers, amyloid-β (Aβ) and tau, has a potential to contribute to better understanding of the disease process in dementias including AD. Here, we discuss the existing literature on cerebrospinal fluid biomarkers of the NVU cell-specific responses during early stages of dementia and AD. We suggest that the clinical usefulness of established AD biomarkers, Aβ and tau, could be further improved by developing an algorithm that will incorporate biomarkers of the NVU cell-specific responses and injury. Such biomarker algorithm could aid in early detection and intervention as well as identify novel treatment targets to delay disease onset, slow progression, and/or prevent AD.     

Increased expression of three-repeat isoforms of tau contributes to tau pathology in a rat model of chronic type 2 diabetes

The imbalance between three-repeat (3R) and four-repeat (4R) tau isoforms produced by the alternative splicing of tau exon 10 leads to neuronal instability and eventual neurodegeneration in tauopathy. However, the role of altered 3R/4R tau ratio in Alzheimer's disease (AD) remains controversial. It has been shown that the expression of 3R tau is modulated by peptide amyloid β (Aβ) and that 3R tau levels increase with the progression of AD. The incidence of AD increases in patients with type 2 diabetes mellitus (T2DM), and the comorbidity of these disorders is closely associated with both aging and disease duration. To investigate whether changes in 3R and 4R tau isoforms are involved in AD pathology pertaining to age-related T2DM, the expression of tau isoforms and their relationship with AD-like tau pathology were examined in a spontaneous T2DM model using aged Otsuka Long-Evans Tokushima Fatty (OLETF) rats with obesity. An AD-like pathology consisting of increased aggregates in the neuronal cytoplasm and a loss of synaptic proteins was observed in these rats. The aggregates were reactive with a 3R tau-specific, but not 4R tau-specific, antibody. In contrast to 4R tau, the level of 3R tau profoundly increased and the proteins were prone to taking toxic phosphorylated and truncated forms. Taken together, these findings suggest that increased 3R tau may contribute to AD-like tau pathology in a chronic T2DM model. Thus, the restoration of normal 3R tau expression should be considered as an important therapeutic strategy in the treatment of AD.     

Cerebrospinal fluid phospho-tau,total tau and beta-amyloid(1-42) in the differentiation between Alzheimer's disease and vascular dementia

The two most frequently examined biomarkers in the diagnosis of dementia are cerebrospinal fluid (CSF) tau and beta-amyloid(1-42) (Abeta(1-42)). An assay for tau phosphorylated at threonine 181 (phospho-tau) has recently been developed. We studied these three markers in patients with possible Alzheimer's disease (AD; n = 23), probable AD (n = 50), AD with relevant cerebrovascular disease (AD with CVD; n = 14), possible vascular dementia (VaD; n = 39), probable VaD (n = 36), cognitively impaired (n = 13) and 27 neurologically healthy controls. Compared with the controls, tau levels were significantly increased in possible AD, probable AD, AD with CVD and probable VaD. Abeta(1-42) was decreased in all dementia groups compared with the controls. In contrast, phospho-tau levels were increased only in probable AD compared with the controls. From the results of the present study, it is concluded that neither measurement of phospho-tau, tau nor Abeta(1-42) in CSF can discriminate entirely between dementia and cognitively non-disturbed controls or between dementia of different aetiologies in the clinical diagnostic procedure.     

Effects of PTEN inhibition on regulation of tau phosphorylation in an okadaic acid-induced neurodegeneration model

One of pathological hallmarks of Alzheimer's disease (AD) is neurofibrillary tangles (NFTs) consisting of abnormally hyperphosphorylated tau. The molecular mechanisms underlying the regulation of tau hyperphosphorylation remain largely unclear. The phosphoinositide 3-kinase (PI3K)/Akt pathway has been implicated in the pathogenesis of AD, however, potential functions and role of tumor suppressor phosphatase and tensin homologue deleted on chromosome 10 (PTEN) in AD pathogenesis have not been fully explored. Here, we report that okadaic acid (OA)-induced tau phosphorylation is accompanied by PTEN induction, knockdown of PTEN reduces the tau hyperphosphorylation by OA in SH-SY5Y cells and increases cell proliferation and survival. The effect of PTEN suppression on tau dephosphorylation appeared to be mediated by inhibition of glycogen synthase kinase 3 while enhancing the Akt activity. Reduction of tau phosphorylation was also observed in the OA-induced parental SH-SY5Y cells co-treated with bisperoxovanadate (bpv), a potent PTEN inhibitor. Our studies provide evidence for an effect of PTEN on the phosphorylation of tau in AD pathogenesis and give some insight into the mechanisms through which suppression of PTEN expression may contribute towards the amelioration of tauopathy, implying that pharmacological intervention of PTEN may be a new therapeutic approach for the treatment of AD.     

Rhodanine and thiohydantoin derivatives for detecting tau pathology in Alzheimer's brains

A novel series of rhodanin (RH) and thiohydantoin (TH) derivatives were designed and synthesized for detecting tau pathology in the brains of patients with Alzheimer's disease (AD). In experiments in vitro using tau and β-amyloid (Aβ) aggregates, the TH derivative, TH2, showed high specific binding to tau aggregates. In hippocampal sections obtained from AD patients, TH2 intensely stained neurofibrillary tangles. In experiments using normal mice, [(125)I]TH2 showed good uptake (1.54%ID/g, 2 min postinjection) into and a rapid washout (0.25%ID/g, 60 min postinjection) from the brain. [(123)I]TH2 should be further investigated as a potential imaging agent for detecting tau pathology.     

CSF Aβ42 and tau in Parkinson's disease with cognitive impairment

We tested the hypothesis that the CSF biomarker signature associated with Alzheimer's disease (AD) is present in a subset of individuals with Parkinson's disease and Dementia (PD‐D) or with PD and Cognitive Impairment, Not Dementia (PD‐CIND). We quantified CSF Aβ₄₂, total tau (T‐tau), and phospho‐tau (P181‐tau) using commercially available kits. Samples were from 345 individuals in seven groups (n): Controls ≤50 years (35), Controls >50 years (115), amnestic Mild Cognitive Impairment (aMCI) (24), AD (49), PD (49), PD‐CIND (62), and PD‐D (11). We observed expected changes in AD or aMCI compared with age‐matched or younger controls. CSF Aβ₄₂ was reduced in PD‐CIND (P < 0.05) and PD‐D (P < 0.01), whereas average CSF T‐tau and P181‐tau were unchanged or decreased. One‐third of PD‐CIND and one‐half of PD‐D patients had the biomarker signature of AD. Abnormal metabolism of Aβ₄₂ may be a common feature of PD‐CIND and PD‐D. © 2010 Movement Disorder Society     

Retinal vascular biomarkers for early detection and monitoring of Alzheimer's disease

The earliest detectable change in Alzheimer''s disease (AD) is the buildup of amyloid plaque in the brain. Early detection of AD, prior to irreversible neurological damage, is important for the efficacy of current interventions as well as for the development of new treatments. Although PiB-PET imaging and CSF amyloid are the gold standards for early AD diagnosis, there are practical limitations for population screening. AD-related pathology occurs primarily in the brain, but some of the hallmarks of the disease have also been shown to occur in other tissues, including the retina, which is more accessible for imaging. Retinal vascular changes and degeneration have previously been reported in AD using optical coherence tomography and laser Doppler techniques. This report presents results from analysis of retinal photographs from AD and healthy control participants from the Australian Imaging, Biomarkers and Lifestyle (AIBL) Flagship Study of Ageing. This is the first study to investigate retinal blood vessel changes with respect to amyloid plaque burden in the brain. We demonstrate relationships between retinal vascular parameters, neocortical brain amyloid plaque burden and AD. A number of RVPs were found to be different in AD. Two of these RVPs, venular branching asymmetry factor and arteriolar length-to-diameter ratio, were also higher in healthy individuals with high plaque burden (P=0.01 and P=0.02 respectively, after false discovery rate adjustment). Retinal photographic analysis shows potential as an adjunct for early detection of AD or monitoring of AD-progression or response to treatments.     

Tau transgenic mice as models for cerebrospinal fluid tau biomarkers

Levels of tau in cerebrospinal fluid (CSF) are elevated in Alzheimer's disease (AD) patients. It is believed this elevation is related to the tau pathology and neurodegeneration observed in AD, but not all tauopathies have increased CSF tau. There has been little pre-clinical work to investigate mechanisms of increased CSF tau due to the difficulty in collecting CSF samples from mice, the most commonly used pre-clinical models. We developed methods to collect CSF from mice without contamination from tau in brain tissue, which is approximately 50,000 fold more abundant in brain than CSF. Using these methods, we measured CSF tau from 3xTg, Tg4510, and Tau Alone transgenic mice. All three lines of mice showed age-dependent increases in CSF tau. They varied in phenotype from undetectable to severe tau pathology and neurodegeneration, suggesting that degenerating neurons are unlikely to be the only source of pathologic CSF tau. Overall, CSF tau levels mirrored expression levels and changes of tau in the brain, but they did not always correlate exactly. CSF tau was often more sensitive to changes in brain transgene expression and pathology. In addition, we also developed ELISA assays specific to different regions of the tau protein. We used these assays to provide evidence that CSF tau exists as fragments, with little intact C-terminus and partial loss of the N-terminus. Taken together, these assays and mouse models may be used to facilitate a deeper understanding of CSF tau in neurodegenerative disease.     

Cerebrospinal fluid tau protein levels in schizophrenia

Increased cerebrospinal fluid (CSF) tau protein levels are generally considered to provide a sensitive marker of neurodegenerative processes such as Alzheimer's disease (AD). Since a more pronounced cognitive decline has been described in older schizophrenic patients, it has been hypothesized that these patients might be at a higher risk of developing AD. CSF levels of total tau protein and tau protein phosphorylated at threonine 181 (phospho-tau) were determined among 19 older and younger patients with schizophrenia compared to 20 age-matched healthy controls. No significant differences in CSF total tau and phospho-tau levels arose between patients with schizophrenia and controls. Although our results do not exclude a progressive neurodegenerative pathology, they provide evidence against major neuronal degeneration such as an AD-related pathology associated with increased tau levels in schizophrenia.     

Both total and phosphorylated tau are increased in Alzheimer's disease

BACKROUND: Pathological tau protein concentrations in CSF are found in both Alzheimer's disease (AD) and frontotemporal dementia (FTD), but studies on brain tissue have suggested that the tau pathology in AD differs from that in FTD and that the difference may be related to the degree of phosphorylation. As CSF tau protein is increased after stroke, tau may also be implicated in the pathophysiology of vascular dementia, of which subcortical arteriosclerotic encephalopathy (SAE) is a putative subtype. OBJECTIVES: To investigate the nature of tau protein in CSF and the involvement of total CSF tau and phosphorylated CSF tau (phosphotau) in various types of dementia. METHODS: Using ELISAs for total tau and tau phosphorylated at Thr181 (phosphotau), the CSF concentrations of total tau and phosphotau were determined in patients with probable and possible AD (n=41 and 19, respectively), FTD (n=18), SAE (n=17), and Parkinson's disease (PD; n=15) and in age matched controls (n=17). All the antibodies stained the lower molecular weight bands, whereas only the antibodies that recognise phosphorylated tau stained the higher molecular bands. RESULTS: Both CSF tau and CSF phosphotau were increased in probable AD compared with FTD (p<0.001), SAE (p<0.001), PD (p<0.001), and controls (p<0.001). CSF phosphotau was increased in possible AD compared with FTD (p<0.001) and SAE (p<0.001). CSF tau and CSF phosphotau were positively correlated in all the groups. Molecular weight forms of tau ranging from 25 kDa to 80 kDa were found in the CSF CONCLUSION: Both phosphorylated and unphosphorylated tau isoforms were present in the CSF, and tau protein appeared in both truncated and full length forms. The results suggest that the CSF concentrations of tau and phosphotau are increased in about two thirds of patients with probable AD and in half of those with possible AD but are normal in FTD, SAE, and PD compared with normal aging. Values in the normal range do not exclude AD.     

Relationship of phosphorylated alpha-synuclein and tau accumulation to Abeta deposition in the cerebral cortex of dementia with Lewy bodies

Alpha-synuclein accumulated in the brain of dementia with Lewy bodies (DLB) is phosphorylated at serine129 (palpha-synuclein). We investigated the accumulation of palpha-synuclein in the brains of patients with DLB and Alzheimer's disease (AD). We employed 18 DLB patients with neocortical Lewy body type pathology (nLBTP) with or without AD. We also employed the same number of AD cases without significant nLBTP. We refer to the former group as the nLBTP group and to the latter as the AD type pathology (ADTP) group. In the nLBTP group, palpha-synuclein positive neurite pathology such as threads and dots occurs in all layers of the temporal neocortex. It was comparable in degree with tau pathology in AD. Fifteen cases in the nLBTP group were associated with Abeta deposition that meets the CERAD plaque score "C" and one case with a score "B". In these plaque-associated cases, the severity of palpha-synuclein pathology was related to the degree of Abeta deposition. In the cases with relatively moderate Abeta deposition, tau pathology was disproportionately mild in the nLBTP group, while the total of tau and palpha-synuclein pathology was proportionate to Abeta deposition in both the nLBTP and ADTP groups. Our results support the ideas that there is an overlap in the pathology between AD and DLB and that Abeta promotes accumulation of both alpha-synuclein and tau. The procession from Abeta to neurite pathology in the cerebral cortex of AD and DLB may be unifiable.     

CSF levels of β‐amyloid 1‐42, tau and phosphorylated tau protein in CADASIL

Background and purpose: Cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL) can be considered a useful model of pure subcortical vascular dementia (SVD) because it occurs in young adults, unlikely to have concomitant age‐ and Alzheimer’s disease (AD)‐related pathology. In patients with CADASIL we evaluated the cerebrospinal fluid (CSF) levels of β‐amyloid 1‐42 (Aβ42), total tau protein (t‐tau) and phosphorylated tau protein (p‐tau), which are well‐accepted biomarkers of AD. Methods: The CSF Aβ42, t‐tau and p‐tau levels were determined with Innotest β‐amyloid 1‐42, Innotest hTAU‐Ag and Innotest Phospho‐tau 181p sandwich enzyme‐linked immunoassay, in 10 CADASIL patients and 17 healthy age‐matched subjects. A case–control statistical analysis was carried out. Results: CSF Aβ42 levels were significantly lower in CADASIL patients than in controls, whereas CSF t‐tau and p‐tau levels did not differ between the two groups. Conclusions: The pattern found in CADASIL patients is similar to that reported in those with sporadic SVD, suggesting that decreased CSF Aβ42 might be related to the subcortical vascular lesions in the white matter.     

Chronic rapamycin restores brain vascular integrity and function through NO synthase activation and improves memory in symptomatic mice modeling Alzheimer's disease

Vascular pathology is a major feature of Alzheimer''s disease (AD) and other dementias. We recently showed that chronic administration of the target-of-rapamycin (TOR) inhibitor rapamycin, which extends lifespan and delays aging, halts the progression of AD-like disease in transgenic human (h)APP mice modeling AD when administered before disease onset. Here we demonstrate that chronic reduction of TOR activity by rapamycin treatment started after disease onset restored cerebral blood flow (CBF) and brain vascular density, reduced cerebral amyloid angiopathy and microhemorrhages, decreased amyloid burden, and improved cognitive function in symptomatic hAPP (AD) mice. Like acetylcholine (ACh), a potent vasodilator, acute rapamycin treatment induced the phosphorylation of endothelial nitric oxide (NO) synthase (eNOS) and NO release in brain endothelium. Administration of the NOS inhibitor L-NG-Nitroarginine methyl ester reversed vasodilation as well as the protective effects of rapamycin on CBF and vasculature integrity, indicating that rapamycin preserves vascular density and CBF in AD mouse brains through NOS activation. Taken together, our data suggest that chronic reduction of TOR activity by rapamycin blocked the progression of AD-like cognitive and histopathological deficits by preserving brain vascular integrity and function. Drugs that inhibit the TOR pathway may have promise as a therapy for AD and possibly for vascular dementias.     

Nonoverlapping but synergetic tau and APP pathologies in sporadic Alzheimer's disease

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.     

Truncation of tau at E391 promotes early pathologic changes in transgenic mice

Proteolytic cleavage of tau at glutamic acid 391 (E391) is linked to the pathogenesis of Alzheimer disease (AD). This C-terminal-truncated tau species exists in neurofibrillary tangles and abnormal neurites in the brains of AD patients and may potentiate tau polymerization. We generated a mouse model that expresses human tau truncated at E391 to begin to elucidate the role of this C-terminal-truncated tau species in the development of tau pathology. Our results show that truncated but otherwise wild-type human tau is sufficient to drive pretangle pathologic changes in tau, including accumulation of insoluble tau, somatodendritic redistribution, formation of pathologic conformations, and dual phosphorylation of tau at sites associated with AD pathology. In addition, these mice exhibit atypical neuritic tau immunoreactivity, including abnormal neuritic processes and dystrophic neurites. These results suggest that changes in tau proteolysis can initiate tauopathy.     

Regional multimodal relationships between tau,hypometabolism, atrophy,and fractional anisotropy in atypical Alzheimer's disease

Alzheimer's disease (AD) can present with atypical clinical forms where the prominent domain of deficit is not memory, that is, atypical AD. Atypical AD patients show cortical atrophy on MRI, hypometabolism on [¹⁸F]fluorodeoxyglucose (FDG) PET, tau uptake on [¹⁸F]AV‐1451 PET, and white matter tract degeneration on diffusion tensor imaging (DTI). How these disease processes relate to each other locally and distantly remains unclear. We aimed to examine multimodal neuroimaging relationships in individuals with atypical AD, using univariate and multivariate techniques at region‐ and voxel‐level. Forty atypical AD patients underwent MRI, FDG‐PET, tau‐PET, beta‐amyloid PET, and DTI. Patients were all beta‐amyloid positive. Partial Pearson's correlations were performed between tau and FDG standardized uptake value ratios, gray matter MRI‐volumes and white matter tract fractional anisotropy. Sparse canonical correlation analysis was applied to identify multivariate relationships between the same quantities. Voxel‐level associations across modalities were also assessed. Tau showed strong local negative correlations with FDG metabolism in the occipital and frontal lobes. Tau in frontal and parietal regions was negatively associated with temporoparietal gray matter MRI‐volume. Fractional anisotropy in a set of posterior white matter tracts, including the splenium of the corpus callosum, cingulum, and posterior thalamic radiation, was negatively correlated with parietal and occipital tau, atrophy and, predominantly, with hypometabolism. These results support the view that tau is the driving force behind neurodegeneration in atypical AD, and that a breakdown in structural connectivity is related to cortical neurodegeneration, particularly hypometabolism.