Mechanisms of nerve cell death in Down's syndrome and Alzheimer's disease

Williamson, Ritchie

January 2001

No description available.

610

Amyloid beta peptide

A biophysical study of amyloid-β aggregation and toxicity determinants

Bolognesi, Benedetta Maria

January 2011

No description available.

540

Amyloid beta-protein

Single molecule studies of amyloid-β aggregation

Narayan, Priyanka

January 2012

No description available.

540

Amyloid beta-protein

Effect of Gemini Surfactants on Amyloid Beta Aggregation

Bahmani, Mehrnoosh

January 2013

Alzheimer’s disease (AD) is a progressive dementia affecting cognition, behavior, and functional status and there is no cure which exists for it. In AD, Amyloid Beta (Aβ) peptides form aggregates that are neurotoxic in the brain. Hence, molecules that are able to prevent Aß aggregation could be effective in AD treatment. Gemini surfactant (GS) molecules consist of two hydrophilic heads separated by a covalently bound spacer and two hydrophobic tails. Their structure gives rise to a number of unique properties, including low critical micelle concentrations, the ability to form multiple types of aggregates (governed primarily by the nature of the spacer group) and enhanced ability to bind to polymers. These properties make gemini surfactant a good choice for solubilizing very hydrophobic materials such as Aß. The aim of this study was to examine various GS structures to help us to understand their interaction with Aβ and the influence of spacer group in Aβ disassembly. We employed 12-carbon tail GS with varying spacer groups of different hydrophilicities, such as: (-CH2-CH2-O)m, (-CH2)m, N(CH2)m, OH(CH2)4 and (OH)2(CH2)4. Surface tension measurement, isothermal titration calorimetry (ITC) and dynamic light scattering (DLS) have been employed to observe the gemini-Aβ interaction. Surface tension measurements did not show a typical surfactant-polymer interaction; rather, the presence of Aß induced aggregate formation at concentrations well below the cmc. Headgroup areas were observed to decrease for some of the surfactants in the presence of Aß, which may result from partial neutralization of the surfactant headgroups and a relaxation of electrostatic repulsion resulting in decreased head group areas. ITC results suggest substantial reorganization of Aß/gemini surfactant aggregates, with distinct difference seen depending upon the nature of the headgroup. It was observed that in 12-(CH2)n-12 (n=2,3,4,7) shorter spacer gemini surfactants have stronger interaction with Aß than the ones with longer spacers. In the 12-4(OH)n-12 series, a stronger interaction was observed in the GS with 2 hydroxyl groups compared to one hydroxyl group GS. For 12-(EO)n-12 GS, a stronger interaction was observed in that GS with two ethoxy groups. In the 12-XN-12 series, although the 8N spacer is more hydrophilic than 5N, the interaction of 12-5N-12 with Aß was stronger than that of 12-8N-12. The particle size data also revealed that there is an interaction between gemini surfactant and Aß. It appeared that mixed micelles formed when the surfactant concentration increased in the Aß solution. Overall, it was observed that changes in the length and hydrophilic character of the gemini surfactant spacer influenced the type of interaction and gemini-Aβ conformation.

Alzheimer

Amyloid beta

Development of a coarse-grained protein model and molecular dynamics studies of amyloid-[beta] peptide aggregation /

Han, Wei.

January 2007

Thesis (Ph.D.)--Hong Kong University of Science and Technology, 2007. / Includes bibliographical references. Also available in electronic version.

Amyloid beta-protein. Proteins

Amyloid-beta in poststroke cognitive impairment / CUHK electronic theses & dissertations collection

January 2015

Cognitive impairment after stroke or transient ischemic attack (TIA) is a prototype of vascular cognitive impairment (VCI). 30% of subjects with poststroke cognitive impairment are detected Alzheimer’s disease (AD)-like amyloid-beta (Aβ) retention with reference to ¹¹C-Pittsburgh compound B (PiB) positron emission tomography (PET). Therefore, poststroke cognitive impairment provides a good clinical context for the study about contribution of comorbid Alzheimer’s and cerebrovascular disease (CVD) pathologies to cognition. In this thesis, there are four studies addressing the effect of Aβ on poststroke cognitive impairment. / The first study investigated the accuracy of diagnosing cognitive impairment subtype in subjects with stroke/TIA using current clinical diagnostic criteria with reference to ¹¹C-PiB PET. We found the agreement between the pre and the post-PET diagnoses was poor (Kappa=0.194). The overall accuracy of clinical diagnosis of pure VCI (pVCI) was 66.7%, while that of mixed (i.e., AD with CVD) VCI (mVCI) was 68.0%. / Dementia may occur after stroke/TIA within 3-6 months (early poststroke dementia [PSD]) or from 3-6 months onward (delayed PSD). In the second study, apart from age and history of diabetes mellitus, chronic small vessel disease (SVD) lesions including lacunes and white matter changes (WMC) predicted delayed PSD as they did for early PSD. With comparable levels of SVD, the presence of acute infarcts and AD-like Aβ retention were associated with the early dementia after stroke/ TIA. / So far, there is a lack of research on the long-term effect of Alzheimer’s pathology on cognitive impairment in the context of stroke/TIA. We hypothesized that comorbid AD-like Aβ deposition played a key role in progressive cognitive decline after stroke/TIA. To test this hypothesis, we conducted a 3-year longitudinal study as study 3. Over 3 years, there was significant difference between mVCI and pVCI on the changes of the Mini-Mental State Examination (MMSE) score over time. We observed a significant decline in MMSE in the mVCI group but not the pVCI group. The annual rates of decline in MMSE and Montreal Cognitive Assessment (MoCA) score were greater in the mVCI group compared to the pVCI group. Of all MoCA domains measured, memory, executive and visuospatial functions were related to Aβ deposition. / In study 4, we investigated the relative contribution of Aβ deposition and CVD lesions to neuropsychological profiles in subjects with cognitive impairment after stroke/TIA. We found that in mVCI, Aβ retention in deep region or parietal lobe was predominantly associated with memory or executive function, respectively. In pVCI, frontal WMC and global large acute infarcts could affect memory or executive function via brain atrophy. / The conclusion of these studies reported herein can be summarized as follows: First, the overall accuracy of clinical diagnosis for cognitive impairment subtypes after stroke/TIA was low. Second, subjects with AD-like Aβ deposition tended to have dementia early after stroke/TIA, and they were more likely to experience a continuous and more severe cognitive decline 3 years later. Finally, Aβ deposition could affect both memory and executive function directly as a predominant factor in subjects with mixed Alzheimer’s and CVD pathologies. / 中風或短暫性腦缺血發作後的認知障礙被普遍視為血管性認知障礙的一種原型。通過澱粉樣蛋白正電子發射計算機斷層掃描技術（¹¹C-PiB PET），30%的中風或短暫性腦缺血發作後認知障礙患者具有阿爾茲海默氏病型的澱粉樣蛋白(Aβ)沈積。因此，中風或短暫性腦缺血發作後認知障礙是一種研究共存的阿爾茲海默氏病和腦血管疾病對認知功能的影響的良好模型。該論文通過四個研究，闡述了Aβ對中風或短暫性腦缺血發作後認知功能的影響。 / 第一個研究通過藉助¹¹C-PiB PET,調查了臨床診斷中對中風或短暫性腦缺血發作後認知障礙的分型的準確性。我們發現，對不同認知障礙類型的臨床診斷準確率較低（Kappa=0.194）。其中，對血管性認知障礙的臨床診斷準確率為66.7％，對混合性(阿爾茲海默氏病和腦血管疾病混合型)認知障礙的臨床診斷準確率為68.0％。 / 通常，我們把於中風或短暫性腦缺血發作後3至6個月內發生的癡呆定義為早髮型中風或短暫性腦缺血發作後癡呆，3至6個月后發生的癡呆定義為晚髮型中風或短暫性腦缺血發作後癡呆。在第二個研究中，我們發現，慢性小血管病（腔隙性梗塞和腦白質病變）不僅可以導致早髮型中風或短暫性腦缺血發作後癡呆，而且和晚髮型中風或短暫性腦缺血發作後癡呆也有關聯。然而，如果在相同程度的小血管病損傷的情況下，具有急性缺血性損傷和阿爾茲海默氏型Aβ沈積的患者更易提早發生中風或短暫性腦缺血發作後癡呆。 / 迄今，尚無關於共存的阿爾茲海默氏病和腦血管疾病對認知功能的長期影響的研究。我們假設合併的阿爾茲海默氏病可以導致患者中風或短暫性腦缺血發作後認知功能持續下降。為了驗證這一假設，我們進行了一個為期3年的長期隨訪研究（研究三）。在三年的隨訪中，混合性認知障礙患者和血管性認知障礙患者的簡短認知檢測（MMSE）評分變化有著顯著不同：混合性認知障礙患者的MMSE評分顯著下降，而血管性認知障礙患者的MMSE評分則無明顯改變。而且，混合性認知障礙患者的MMSE和蒙特利爾認知評估量表（MoCA）評分每年下降的平均速度皆高於血管性認知障礙患者。此外，藉助MoCA，我們發現中風或短暫性腦缺血發作後認知障礙患者的記憶、執行能力和視覺空間能力的損傷都和Aβ沉積有關。 / 在第四個研究中，我們研究了Aβ和腦血管病損傷對中風或短暫性腦缺血發作後患者不同認知功能的影響。我們發現，在混合性認知障礙患者中，腦深部的Aβ沉積和記憶功能損害直接相關，腦頂葉的Aβ沉積則和執行功能損害直接相關。在血管性認知障礙患者中，額葉腦白質病變和全腦大型腦梗病灶則可通過腦萎縮的介導，影響記憶或執行功能。 / 總之，我們的研究發現: 1.目前關於中風或短暫性腦缺血發作後患者認知障礙分型的臨床診斷的準確性較低。2.具有阿爾茲海默氏型Aβ沉積的患者不僅易於在中風或短暫性腦缺血發作後早期發生認知障礙，而且其認知水平在長期隨訪中也會不斷下降。3. Aβ沉積可以作為主導因素直接影響混合性認知障礙患者的記憶和執行功能。 / Liu, Wenyan. / Thesis Ph.D. Chinese University of Hong Kong 2015. / Includes bibliographical references (leaves 164-187). / Abstracts also in Chinese; appendixes in Chinese. / Title from PDF title page (viewed on 12, October, 2016). / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only.

Amyloid beta-protein

Cognition disorders

Amyloid beta-Peptides

Cognitive Dysfunction

Tacrine, trolox and tryptoline as lead compounds for the design and synthesis of multi-target drugs for Alzheimer's disease therapy

Teponnou, Gerard A. Kenfack

January 2016

Magister Pharmaceuticae - MPharm / The cascade of neurotoxic events involved in the pathogenesis of Alzheimer's disease may explain the inefficacy of currently available treatment based on acetylcholinesterase inhibitors (AChEI - donepezil, galantamine, rivastigmine) and N-methyl-D-aspartate (NMDA) antagonists (memantine). These drugs were designed based on the "one-moleculeone- target" paradigm and only address a single target. Conversely, the multi-target drug design strategy increasingly gains recognition. Based on the versatile biological activities of tacrine, trolox and β-carboline derivatives, the attention they have received as lead structures for the design of multifunctional drugs for the treatment of Alzheimer's disease, and the topology of the active site of AChE, we have designed tacrine-trolox and tacrine-tryptoline hybrids with various linker chain lengths. The aim with these hybrids was to provide additive or synergistic therapeutic effects that might help overcome the limitation of current anti Alzheimer's disease drugs. All synthesized compounds were designed from lead structures (tacrine, tryptoline and trolox) to obtain cholinesterase (ChE) multisite binders and multifunctional AD agents. The study was rationalized by docking all structures in the active site of TcAChE using Molecular Operating Environment (MOE) software before proceeding with the synthesis. ChE inhibition was assessed in a UV enzyme inhibition assay using Ellman's method. Antioxidant activities were assessed using the 2, 2-diphenyl-1-picrylhydrazyl (DPPH.) absorbance assay. The hybrids containing the trolox moiety (compounds 8a-e) showed moderate to high AChE inhibitory activity in the nano to micro molar range (IC₅₀: 17.37 - 2200 nM), BuChE inhibition was observed in the same range (IC₅₀: 3.16 – 128.82 nM), and free radical scavenging activities in micro molar range (IC50: 11.48 – 49.23 µM). These are comparable or slightly higher than their reference compounds donepezil (AChE IC₅₀ = 220 nM), tacrine (BuChE IC₅₀: 14.12 nM), and trolox (DPPH IC₅₀: 17.57 µM). The hybrids with longer linker chain lengths, 6 and 8 carbons (8d and 8e), showed better ChE inhibitory activity than the shorter ones, 2, 3, and 4 carbons (8a-c respectively). This correlates well with literature. Free radical scavenging activities, however, seems not to be significantly affected by varying linker chain lengths. The hybrid compound (14) containing the tryptoline moiety linked with a 7 carbon spacer displayed the best AChE and BuChE inhibitory activity (IC₅₀ = 17.37 and 3.16 nM) but poor free radical scavenging activity. Novel anti-Alzheimer's disease drugs with multi-target neuroprotective activities were thus obtained and hybrid molecules that exhibit good ChE inhibition (8d, 8e and 14) and anti-oxidant (8d and 8e) activity were identified as suitable candidates for further investigation. / National Research Foundation (NRF)

Amyloid Beta

Cholinesterases

Alzheimer's disease

Multifunctional drugs

Amyloid beta-protein

Human Ependymin-1 Neurotrophic Factor Mimetics Reduce Tau Phosphorylation and Cellular Apoptosis in Vitro and in Vivo in Alzheimer’s Disease Models

Ronayne, Rachel E.

03 September 2008

"Alzheimer’s disease (AD) is the most widespread neurodegenerative disorder, affecting approximately 20 million people worldwide. AD pathology is primarily characterized by the formation of extracellular amyloid plaques resulting from the aggregation of insoluble amyloid-beta 1-42 (A-beta), and neurofibrillary tangles (NFT’s) resulting from intracellular aggregation of hyperphosphorylated tau protein. The current FDA-approved AD treatments do not stop or reverse neurodegeneration, but only treat the symptoms by increasing acetylcholine neurotransmitter. Our laboratory is attempting to provide an additional therapeutic approach by using neurotrophic factors to block apoptosis or to restore neurons. We previously demonstrated that, in an in vitro model for AD, hEPN-1 neurotrophic factor mimetics can block synthetic A-beta-induced neuronal cell death when added to cultures, presumably by blocking caspase activation. In this thesis, we extended these findings to study the effect of A-beta and hEPN-1 on tau hyperphosphorylation (as measured by immunoblots with phospho-specific antibodies) and nuclear DNA fragmentation (as measured by TUNEL staining), both in vitro and in vivo in AD transgenic mice. We found that A-beta induces the hyperphosphorylation of tau in both mouse N2a and human SHSY neuronal cells, and that hEPN-1 may lower this phosphorylation in N2a cells. Furthermore, we discovered that hEPN-1 can reduce nuclear DNA fragmentation when added both simultaneously to A-beta and 3 and 6 hours post A-beta addition. Finally, in vivo hEPN-1 may lower both tau hyperphosphorylation and caspase-7 related protein (C7RP) in AD transgenic (Tg) mice. The overall results validate our in vitro AD model, show the efficacy of hEPN-1 at blocking A-beta-induced DNA fragmentation even when added post-insult, and show that hEPN-1 may work in an AD mouse model. However, more studies must be conducted to confirm these findings. "

tau phosphorylation

amyloid beta

apoptosis

Studies on the mechanisms of A[beta] aggregation and toxicity in Drosophila

Speretta, Elena

January 2011

No description available.

576.5

Drosophila ; Amyloid beta-protein

The effects of partial denaturation on in vitro fibril formation /

Vernaglia, Brian Anthony.

January 2004

Thesis (Ph.D.)--Tufts University, 2004. / Adviser: Eliana De Bernardez Clark. Submitted to the Dept. of Chemical Engineering. Includes bibliographical references (leaves 173-181). Access restricted to members of the Tufts University community. Also available via the World Wide Web;