Bernard Michel scite author profile

Despite improved diagnostic accuracy, differentiation of dementia with Lewy bodies (DLB) and Alzheimer's disease (AD) on the basis of clinical findings remains problematic. The purpose of this retrospective study was to evaluate the utility of technetium-99m ethyl cysteinate dimer (ECD) single-photon emission tomography (SPET) as a potential tool for the diagnosis of DLB and discrimination from AD. Cerebral perfusion patterns detected by (99m)Tc-ECD SPET were compared in patients presenting with a probable diagnosis of DLB ( n=34) or AD ( n=28). Tracer distribution was quantified using the region of interest technique in eight symmetrical paired zones and expressed as a perfusion index (ratio of mean uptake in a brain region to that in the cerebellum). Comparison of findings in the DLB and AD groups demonstrated significant differences in mean perfusion indexes in the right occipital region ( P=0.004), left occipital region ( P=0.005) and left medial temporal region ( P=0.013). Mean perfusion indexes in the right and left occipital regions were lower in DLB than in AD patients. Conversely, the mean perfusion index in the left medial temporal region was lower in AD than in DLB patients. DLB was correctly identified in 22 patients (sensitivity, 65%) while AD was correctly identified in 20 patients (specificity, 71%). In the DLB group, right and left occipital perfusion indexes were 0.95 or more in all eight non-hallucinating patients, and bilateral occipital hypoperfusion was observed in 15 of the 26 patients with visual hallucinations (57.7%). To our knowledge, this is the first study in which (99m)Tc-ECD SPET has been used exclusively for the diagnosis of DLB. The results suggest that brain perfusion scintigraphy could be helpful in distinguishing DLB from AD if diagnosis based on clinical criteria alone is difficult. The findings also support a link between visual hallucinations and structural/functional changes in the occipital region in DLB patients.

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Lithostathine Quadruple-helical Filaments Form Proteinase K-resistant Deposits in Creutzfeldt-Jakob Disease

Laurine

Grégoire

Fändrich³

et al. 2003

Journal of Biological Chemistry

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Autocatalytic cleavage of lithostathine leads to the formation of quadruple-helical fibrils (QHF-litho) that are present in Alzheimer's disease. Here we show that such fibrils also occur in Creutzfeldt-Jakob and Gerstmann-Strä ussler-Scheinker diseases, where they form protease-K-resistant deposits and co-localize with amyloid plaques formed from prion protein. Lithostathine does not appear to change its native-like, globular structure during fibril formation. However, we obtained evidence that a cluster of six conserved tryptophans, positioned around a surface loop, could act as a mobile structural element that can be swapped between adjacent protein molecules, thereby enabling the formation of higher order fibril bundles. Despite their association with these clinical amyloid deposits, QHF-litho differ from typical amyloid fibrils in several ways, for example they produce a different infrared spectrum and cannot bind Congo Red, suggesting that they may not represent amyloid structures themselves. Instead, we suggest that lithostathine constitutes a novel component decorating disease-associated amyloid fibrils. Interestingly, [6,6 ]bibenzothiazolyl-2,2 -diamine, an agent found previously to disrupt aggregates of huntingtin associated with Huntington's disease, can dissociate lithostathine bundles into individual protofilaments. Disrupting QHF-litho fibrils could therefore represent a novel therapeutic strategy to combat clinical amyloidoses.

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Three-dimensional structure of the lithostathine protofibril, a protein involved in Alzheimer's disease

Grégoire

Marco

Thimonier

et al. 2001

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Neurodegenerative diseases are characterized by the presence of filamentous aggregates of proteins. We previously established that lithostathine is a protein overexpressed in the pre‐clinical stages of Alzheimer's disease. Furthermore, it is present in the pathognomonic lesions associated with Alzheimer's disease. After self‐proteolysis, the N‐terminally truncated form of lithostathine leads to the formation of fibrillar aggregates. Here we observed using atomic force microscopy that these aggregates consisted of a network of protofibrils, each of which had a twisted appearance. Electron microscopy and image analysis showed that this twisted protofibril has a quadruple helical structure. Three‐dimensional X‐ray structural data and the results of biochemical experiments showed that when forming a protofibril, lithostathine was first assembled via lateral hydrophobic interactions into a tetramer. Each tetramer then linked up with another tetramer as the result of longitudinal electrostatic interactions. All these results were used to build a structural model for the lithostathine protofibril called the quadruple‐helical filament (QHF‐litho). In conclusion, lithostathine strongly resembles the prion protein in its dramatic proteolysis and amyloid proteins in its ability to form fibrils.

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Bernard Michel

Amnestic syndrome of the medial temporal type identifies prodromal AD

Visual and visuospatial short-term memory in mild cognitive impairment and Alzheimer disease: Role of attention

Value of 99mTc-ECD SPET for the diagnosis of dementia with Lewy bodies

Lithostathine Quadruple-helical Filaments Form Proteinase K-resistant Deposits in Creutzfeldt-Jakob Disease

Three-dimensional structure of the lithostathine protofibril, a protein involved in Alzheimer's disease

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