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2. Association of Plasma Clusterin Concentration With Severity, Pathology, and Progression in Alzheimer Disease

Author

Thambisetty, Madhav, Simmons, Andrew, Velayudhan, Latha, Hye, Abdul, Campbell, James, Zhang, Yi, Wahlund, Lars-Olof, Westman, Eric, Kinsey, Anna, Güntert, Andreas, Proitsi, Petroula, Powell, John, Causevic, Mirsada, Killick, Richard, Lunnon, Katie, Lynham, Steven, Broadstock, Martin, Choudhry, Fahd, Howlett, David R., Williams, Robert J., Sharp, Sally I., Mitchelmore, Cathy, Tunnard, Catherine, Leung, Rufina, Foy, Catherine, O’Brien, Darragh, Breen, Gerome, Furney, Simon J., Ward, Malcolm, Kloszewska, Iwona, Mecocci, Patrizia, Soininen, Hilkka, Tsolaki, Magda, Vellas, Bruno, Hodges, Angela, Murphy, Declan G., Parkins, Sue, Richardson, Jill C., Resnick, Susan M., Ferrucci, Luigi, Wong, Dean F., Zhou, Yun, Muehlboeck, Sebastian, Evans, Alan, Francis, Paul T., Spenger, Christian, and Lovestone, Simon

Published
2010

5. Scanning electron microscopic and clinical examination of composite resin inlays/onlays up to 12 months in situ.

Author

Krejci, Ivo, Güntert, Andreas, and Lutz, Felix

Subjects
DENTAL resins, SCANNING electron microscopes, DENTAL caries, TOOTH care & hygiene, DENTISTRY, MOLARS
Abstract

In this limited clinical study, 30 posterior adhesive fine-particle hybrid composite resin inlays/onlays were placed. After 12 months in situ, 29 of the restorations were reexamined. The evaluation was carried out using clinical parameters and the scanning electron microscope. None of the restorations showed fractures, recurrent caries, or a clinically visible loss of substance. All restored teeth were vital. The radiopacity of the material was clinically sufficient. Only the color match, because of a suboptimal shade range, and the perfect removal of excess luting composite resin proved to be problematic. Furthermore, slight abrasion of the luting composite resin was observed, although the abrasion had no influence on the quality of the marginal adaptation. In the scanning electron microscope excellent marginal quality was observed initially (98.9% continuous margin) as well as after 12 months (94,9% continuous margin). The evaluated composite resin inlay/onlay system has proved to be reliable during 12 months in situ. [ABSTRACT FROM AUTHOR]

Published
1994

6. Characterization of amyloid-ß and other proteins related to Alzheimer's disease, their role in neurodegeneration and biomarker discovery

Author

Güntert, Andreas, Rüegg, Markus A., Barde, Yves-Alain, and Bohrmann, Bernd

Abstract

Studies were performed to identify factors explaining the difference in the neurodegeneration seen in Alzheimer’s disease (AD) and in transgenic mice. A high level of neuronal loss is typically associated with AD, whereas in transgenic mice, this feature is only weakly displayed. Furthermore, the studies aimed at determining proteins occurring at altered levels in AD brains which could be involved in pathogenic mechanisms underlying the disease. The results of these investigations could help to identify Aβ variants and other proteins affecting the degree of neurodegeneration and would hopefully contribute to the development of biomarkers and new drug targets in AD. Using laser dissection microscopy in combination with MALDI-TOF MS and urea-based Western blotting, the Aβ composition in morphologically differentiated plaque types from three different sources could be investigated: human brains from AD patients, pathologically aging (PA) individuals – i.e. individuals who form amyloid plaques, but suffer of no cognitive impairment - and from double-transgenic PS2APP mice. Diffuse plaques are found in human AD and PA, as well as in PS2APP transgenic mice and were previously suggested to be the initially occurring plaque type. We detected almost exclusively Aβ 42 in diffuse plaques. This Aβ variant was shown to be prone to aggregation. Furthermore, no differences in the Aβ species composition between diffuse plaques from AD and PA individuals were detected. Cored plaques, the main plaque type in AD, contain also predominantly Aβ 42, whereas compact plaques, which sporadically occur in human but are found more frequently in PS2APP mice, consist of Aβ 40. This has implications on the putative evolutionary path of plaque formation: Due to the Aβ composition of the respective plaque types, a sequential maturation of diffuse plaques over compact to cored plaques can be excluded. Our data support the concept that diffuse plaques are the initially occurring plaque type and develop independently to compact or cored plaques. The Aβ composition of vascular amyloid was also investigated. Here, we detected high amounts of Aβ 40, which is consistent with previous findings using C-terminal specific antibodies. Aβ in human plaques and to a considerably lesser extent in plaques from PS2APP mice is N-terminally truncated. The investigation of different Braak stages revealed an increasing amount of N-terminally truncated Aβ variants accompanying disease progression, indicative for a successive modification by exoproteases upon deposition. Consistently low levels of Nterminally truncated Aβ forms were detected in diffuse plaques, which further support the view of diffuse plaques being at the beginning of the plaque maturation process. The major Nterminally truncated Aβ variant detected by MALDI-TOF MS in human cored plaques was pyroglutamate 3-40 / 42. To corroborate these findings, Western blotting and immunohistochemistry were applied and the existence of pyroglutamate in all types of plaques in human AD and PS2APP transgenic mice was shown. The rate of aggregation of an Aβ variant is likely to be important for initial deposition of amyloid into plaques. To test the aggregation and toxicity properties of pyroglutamate 3-42, in vitro experiments were performed on PC12 and hippocampal cell lines comparing synthetic pyroglutamate 3-42 with Aβ 1-42. These experiments showed a considerably lower rate of aggregation for synthetic pyroglutamate 3-42 when compared to Aβ 1-42. Our experiments suggest that pyroglutamate 3-40 / 42 alone is probably not a critical seed for plaque formation. The cytotoxicity of Aβ peptides is correlated with the aggregation state. Synthetic pyroglutamate 3-42 in vitro showed a significantly reduced toxicity when compared to Aβ 1-42. Cross-linking of Aβ fibrils in plaques was investigated with solubility experiments. It was found that Aβ in human plaques is cross-linked to a higher extent than Aβ in plaques from PS2APP transgenic mice. A higher degree of cross-linking in human Aβ was also indicated by our MALDI-TOF MS analysis. The high level of cross-linking may result in a hampered clearance of Aβ from the brain in AD patients. Taken together, enhanced levels of posttranslational modifications in human plaques, i.e. cross-linking and N-terminal truncation of Aβ peptides, may lead to their reduced clearance from the brain. The methodology used in our experiments allowed to discriminate between oxidized and reduced Aβ species. Diffuse plaques in PA were shown to contain a large proportion of oxidized Aβ, which could indicate a protective response in these brains and which would explain the lack of clinical symptoms in these individuals. To determine, whether the amyloid load in plaques may contribute to the high level of neuronal loss observed in AD as opposed to transgenic PS2APP mice, 15N-labeled Aβ 1-42 was used and the quantitative amyloid load in plaques from human AD and PS2APP mice was compared by MALDI-TOF MS. Roughly comparable amounts of Aβ in both species were found. Therefore, we conclude that a dose-effect of Aβ alone can not account for the higher level of neurodegeneration observed in AD patients than in PS2APP mice. Using LC/MS/MS the identification of additional proteins involved or affected in the pathogenesis of AD was aimed at. A comparison of the proteome in AD brain with control tissue was based on the analysis of over 2000 proteins. Proteins generally accepted to be related to AD like Aβ, apolipoprotein E, heat shock protein 90, glial fibrillary acidic protein (GFAP) and tau were detected at increased levels in AD. Numerous proteins previously tentatively implicated with the disease were identified at aberrant levels in AD. We found proteins indicative for an enhanced susceptibility to oxidative stress (e.g. decrease of peroxiredoxin 5), an impaired glucose metabolism (decrease of enzymes involved in citrate cycle), cytoskeletal derangement (e.g. decrease in alpha-internexin), synaptic dysfunction (e.g. decrease in presynaptic density protein-95, syntaxin-1A and synaptotagmin-1), an activation of the ubiquitin proteasome system (increase in ubiquitin), deficits in the neuritic network (decrease of various cell adhesion molecules) and membrane trafficking (e.g. decrease in AP-180), as well as altered levels of enzymes involved in the hyperphosphorylation of tau (e.g. decrease in phosphatase-2A). Most notably, we detected 18 new proteins previously not associated with the disease, which occurred at altered levels in AD. These are the synaptic proteins synaptogyrin-1 and -3, myelin associated glycoprotein, myelin oligodendrocyte glycoprotein, contactin-1, contactin-2, neurexin IV and claudin-11 involved in cell adhesion, the chaperone protein Hsp 75, plectin 1, ankyrin, α-adducin and microtubule-associated protein RP/EB family member 3 as structural cytoskeletal proteins, peroxiredoxin 5 and microsomal glutathione S-transferase 3 for the protection against oxidative stress and programmed cell death protein 8, matrin-3 and transgelin- 3, whose functions are not known. The findings obtained by LC/MS/MS were confirmed by immunohistochemistry and Western blotting for selected proteins, thereby providing a first validation of some of the proteins found at aberrant levels in AD. Interestingly, we were able to authenticate decreased levels of syntaxin-1A and reticulon-1 and increased synaptogyrin-1 levels in AD using confocal microscopy. The identification of proteins involved in the processes finally leading to neurodegeneration and cognitive deficits associated with AD could lead to the development of biological markers for the disease. Such biomarker candidates found at altered levels in AD brain tissue could possibly be reflected in the cerebrospinal fluid (CSF) and eventually in the periphery and may be explored for their value as drug targets or markers for diagnosis, disease progression or even responsiveness to treatment. The results from our studies indicate pathways which appear promising in such a quest.

Published
2006

7. Inflammatory Proteins in Plasma Are Associated with Severity of Alzheimer’s Disease

Author

Leung, Rufina, primary, Proitsi, Petroula, additional, Simmons, Andrew, additional, Lunnon, Katie, additional, Güntert, Andreas, additional, Kronenberg, Deborah, additional, Pritchard, Megan, additional, Tsolaki, Magda, additional, Mecocci, Patrizia, additional, Kloszewska, Iwona, additional, Vellas, Bruno, additional, Soininen, Hilkka, additional, Wahlund, Lars-Olaf, additional, and Lovestone, Simon, additional

Published
2013
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8. Plasma Transthyretin as a Candidate Marker for Alzheimer's Disease

Author

Velayudhan, Latha, primary, Killick, Richard, additional, Hye, Abdul, additional, Kinsey, Anna, additional, Güntert, Andreas, additional, Lynham, Steven, additional, Ward, Malcolm, additional, Leung, Rufina, additional, Lourdusamy, Anbarasu, additional, To, Alvina W.M., additional, Powell, John, additional, and Lovestone, Simon, additional

Published
2012
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9. Combinatorial Markers of Mild Cognitive Impairment Conversion to Alzheimer's Disease - Cytokines and MRI Measures Together Predict Disease Progression

Author

Furney, Simon J., primary, Kronenberg, Deborah, additional, Simmons, Andrew, additional, Güntert, Andreas, additional, Dobson, Richard J., additional, Proitsi, Petroula, additional, Wahlund, Lars Olof, additional, Kloszewska, Iwona, additional, Mecocci, Patrizia, additional, Soininen, Hilkka, additional, Tsolaki, Magda, additional, Vellas, Bruno, additional, Spenger, Christian, additional, and Lovestone, Simon, additional

Published
2011
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12. Combinatorial Markers of Mild Cognitive Impairment Conversion to Alzheimer's Disease - Cytokines and MRI Measures Together Predict Disease Progression.

Author

Ashford, Rosen, Adamson, Bayley, Sabri, Furst, Black, Weiner, Furney, Simon J., Simmons, Andrew, Güntert, Andreas, Dobson, Richard J., Proitsi, Petroula, Lovestone, Simon, Kronenberg, Deborah, Wahlund, Lars Olof, Kloszewska, Iwona, Mecocci, Patrizia, Soininen, Hilkka, and Tsolaki, Magda

Subjects
DISEASE progression, MILD cognitive impairment, APOENZYMES, CHEMOKINES, CYTOKINES, BIOLOGICAL tags, ALZHEIMER'S disease
Abstract

Progression of people presenting with Mild Cognitive Impairment (MCI) to dementia is not certain and it is not possible for clinicians to predict which people are most likely to convert. The inability of clinicians to predict progression limits the use of MCI as a syndrome for treatment in prevention trials and, as more people present with this syndrome in memory clinics, and as earlier diagnosis is a major goal of health services, this presents an important clinical problem. Some data suggest that CSF biomarkers and functional imaging using PET might act as markers to facilitate prediction of conversion. However, both techniques are costly and not universally available. The objective of our study was to investigate the potential added benefit of combining biomarkers that are more easily obtained in routine clinical practice to predict conversion from MCI to Alzheimer's disease. To explore this we combined automated regional analysis of structural MRI with analysis of plasma cytokines and chemokines and compared these to measures of APOE genotype and clinical assessment to assess which best predict progression. In a total of 205 people with MCI, 77 of whom subsequently converted to Alzheimer's disease, we find biochemical markers of inflammation to be better predictors of conversion than APOE genotype or clinical measures (Area under the curve (AUC) 0.65, 0.62, 0.59 respectively). In a subset of subjects who also had MRI scans the combination of serum markers of inflammation and MRI automated imaging analysis provided the best predictor of conversion (AUC 0.78). These results show that the combination of imaging and cytokine biomarkers provides an improvement in prediction of MCI to AD conversion compared to either datatype alone, APOE genotype or clinical data and an accuracy of prediction that would have clinical utility. [ABSTRACT FROM AUTHOR]

Published
2011
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15. Plasma clusterin concentration is associated with longitudinal brain atrophy in mild cognitive impairment.

Author

Thambisetty M, An Y, Kinsey A, Koka D, Saleem M, Güntert A, Kraut M, Ferrucci L, Davatzikos C, Lovestone S, and Resnick SM

Subjects
Aged, Aged, 80 and over, Aging physiology, Alzheimer Disease pathology, Atrophy, Enzyme-Linked Immunosorbent Assay, Female, Humans, Image Interpretation, Computer-Assisted, Magnetic Resonance Imaging, Male, Middle Aged, Brain pathology, Clusterin blood, Cognitive Dysfunction blood, Cognitive Dysfunction pathology
Abstract

Recent genetic and proteomic studies demonstrate that clusterin/apolipoprotein-J is associated with risk, pathology, and progression of Alzheimer's disease (AD). Our main aim was to examine associations between plasma clusterin concentration and longitudinal changes in brain volume in normal aging and mild cognitive impairment (MCI). A secondary objective was to examine associations between peripheral concentration of clusterin and its concentration in the brain within regions that undergo neuropathological changes in AD. Non-demented individuals (N=139; mean baseline age 70.5 years) received annual volumetric MRI (912 MRI scans in total) over a mean six-year interval. Sixteen participants (92 MRI scans in total) were diagnosed during the course of the study with amnestic MCI. Clusterin concentration was assayed by ELISA in plasma samples collected within a year of the baseline MRI. Mixed effects regression models investigated whether plasma clusterin concentration was associated with rates of brain atrophy for control and MCI groups and whether these associations differed between groups. In a separate autopsy sample of individuals with AD (N=17) and healthy controls (N=4), we examined the association between antemortem clusterin concentration in plasma and postmortem levels in the superior temporal gyrus, hippocampus and cerebellum. The associations of plasma clusterin concentration with rates of change in brain volume were significantly different between MCI and control groups in several volumes including whole brain, ventricular CSF, temporal gray matter as well as parahippocampal, superior temporal and cingulate gyri. Within the MCI but not control group, higher baseline concentration of plasma clusterin was associated with slower rates of brain atrophy in these regions. In the combined autopsy sample of AD and control cases, representing a range of severity in AD pathology, we observed a significant association between clusterin concentration in the plasma and that in the superior temporal gyrus. Our findings suggest that clusterin, a plasma protein with roles in amyloid clearance, complement inhibition and apoptosis, is associated with rate of brain atrophy in MCI. Furthermore, peripheral concentration of clusterin also appears to reflect its concentration within brain regions vulnerable to AD pathology. These findings in combination suggest an influence of this multi-functional protein on early stages of progression in AD pathology., (Published by Elsevier Inc.)

Published
2012
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16. Quantification of the A beta peptide in Alzheimer's plaques by laser dissection microscopy combined with mass spectrometry.

Author

Rüfenacht P, Güntert A, Bohrmann B, Ducret A, and Döbeli H

Subjects
Animals, Humans, Lasers, Mice, Mice, Transgenic, Microdissection, Peptide Fragments analysis, Sensitivity and Specificity, Amyloid beta-Peptides analysis, Plaque, Amyloid chemistry, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization methods
Abstract

The accumulation and aggregation of the beta-amyloid peptide (A beta) in the brain represents a key factor in the pathogenesis of Alzheimer's disease (AD). Many of the transgenic mouse models for AD exhibit an amyloid pathology with neuritic plaques but they typically vary by the type and abundance of plaques identified in their brains and by the onset and severity of cognitive impairment. Thus, an important consideration in the characterization of AD transgenic mouse models should be the quantitative evaluation of the amyloid load in the brain together with a detailed physico-chemical analysis of A beta from the deposited plaques. Here we present an analytical procedure to collect single amyloid plaques from anatomically defined brain regions by laser dissection microscopy that can be quantitatively assessed in their A beta isoforms composition by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry. Quantification was achieved by stable isotope dilution using calibrated 15N-labeled A beta standards that were spiked in the sample immediately after laser dissection. Using this method, we found that the amyloid loads in brain plaques isolated from the transgenic AD mouse model PS2APP or from human were similar. Total A beta composition was estimated at approximately 50-100 fmol per excised plaque disc, as confirmed by immunoblot analysis. N-Terminal truncated A beta isoforms were identified in both transgene and human amyloid plaques but with significantly elevated levels in human samples., (Copyright 2005 John Wiley & Sons, Ltd.)

Published
2005
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