Role of membrane biophysics in Alzheimer'sâ€“related cell pathways

Zhu, Donghui; Bungart, Brittani; Yang, Xiaoguang; Zhumadilov, Zhaxybay; Lee, James C.-M.; Askarova, Sholpan

doi:10.3389/fnins.2015.00186

Cited by 29 publications

(39 citation statements)

References 153 publications

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“…Examples are glycolipid‐rich Golgi membranes that induce formation of oligomer but not of fibrils; and lipid rafts isolated from brain tissue result only in the assembly of tetramers . Fatty acids also have significant effects on Alzheimer patient brains, and even nanomolar concentrations of Aβ can form pathological aggregates in vivo that are not observed in vitro . Hence, one could hypothesize that lipid and fatty acid interfaces encourage the formation of self‐replicating and self‐propagating Aβ‐assemblies, which finally lead to the specific fibril structures observed in patient brains.…”

Section: Introductionmentioning

confidence: 99%

“…18 Fatty acids also have significant effects on Alzheimer patient brains, 20 and even nanomolar concentrations of Aβ can form pathological aggregates in vivo that are not observed in vitro. 21,22 Hence, one could hypothesize that lipid and fatty acid interfaces encourage the formation of self-replicating and self-propagating Aβ-assemblies, which finally lead to the specific fibril structures observed in patient brains. This hypothesis is supported by the observation of prion-like self-propagating large fatty acid-derived oligomers (LFAOs), generated in the presence of lauric acid and stable after removal of the fatty acids, that in mice are causing cerebral amyloid angiopathy (a common copathology in Alzheimer's disease patients).…”

Section: Introductionmentioning

confidence: 99%

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Stability of Aβ‐fibril fragments in the presence of fatty acids

Vanderford

Liao

et al. 2019

Protein Science

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We consider the effect of lauric acid on the stability of various fibril‐like assemblies of Aβ peptides. For this purpose, we have performed molecular dynamics simulations of these assemblies either in complex with lauric acid or without presence of the ligand. While we do not observe a stabilizing effect on Aβ40‐fibrils, we find that addition of lauric acid strengthens the stability of fibrils built from the triple‐stranded S‐shaped Aβ42‐peptides considered to be more toxic. Or results may help to understand how the specifics of the brain‐environment modulate amyloid formation and propagation.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Stability of Aβ‐fibril fragments in the presence of fatty acids

Vanderford

Liao

et al. 2019

Protein Science

View full text Add to dashboard Cite

show abstract

“…Examples are glycolipid-rich Golgi membranes that induce formation of oligomer but not of fibrils 17 ; and lipid rafts isolated from brain tissue result only in the assembly of tetramers 16 . Fatty acids also have significant effects on Alzheimer patient brains 18 , and even nanomolar concentrations of Aβ can form pathological aggregates in vivo that are not observed in vitro 19,20 . Hence, one could hypothesize that lipid and fatty acid interfaces encourage the formation of self-replicating and self-propagating Ab-assemblies, which finally lead to the unique fibril structures observed in patient brains.…”

Section: Introductionmentioning

confidence: 99%

Stability of Aβ-fibril fragments in the presence of fatty acids

Vanderford

Liao

et al. 2019

Preprint

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We consider the effect of lauric acid on the stability of various fibril-like assemblies of Aβ peptides. For this purpose, we have performed molecular dynamics simulations of these assemblies either in complex with lauric acid or without presence of the ligand. While we do not observe a stabilizing effect on Ab40-fibrils we find that addition of lauric acid strengthen the stability of fibrils built from the more toxic triple-stranded S-shaped Ab42-peptides. Or results may help to understand how specifics of the brain-environment modulate amyloid formation and propagation.

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“…The main point of the present study is that E2 exhibits a selective rather than nonselective fluidizing effect within Although the findings of this study cannot provide exact evidence for neuroprotection by E2, membrane fluidity can influence the dynamics of proteins and other biomolecules within the membrane, thereby affecting the functions of these molecules (Nicolson, 2014;Zhu et al, 2015). However, Fig.…”

Section: Discussionmentioning

confidence: 59%

Selective Fluidization of Synaptosomal Plasma Membrane Vesicles by 17β-Estradiol

Lee

Park

Jang

et al. 2017

BSL

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Estrogens are effective neuroprotectants in vivo and in vitro. To obtain a better insight into the molecular mechanisms of action of neuroprotection by 17β-estradiol (E2), we examined the differential effects of E2 on the fluidity of synaptosomal plasma membrane vesicles (SPMV) isolated from rat cerebral cortex. Intramolecular excimerization of 1,3-di(1-pyrenyl)-propane (Py-3-Py) was used to investigate the effects of E2 on the bulk and annular lateral diffusion of the SPMV. In addition, we examined the effects of E2 on the rotational diffusion of individual leaflet of SPMV exploiting selective quenching of outer monolayer 1,6-diphenyl-1,3,5-hexatriene (DPH) fluorescence by trinitrophenyl groups. The Förster distance R 0 value for the tryptophan-Py-3-Py donor-acceptor pair was 26.9 Å. E2 increased the lateral mobility of both bulk and annular lipids in SPMV in a dose-dependent manner, but a larger effect on bulk lipids was observed. Although E2 decreased the anisotropy of DPH in SPMV, E2 had a greater fluidizing effect on the outer leaflet compared to the inner leaflet. These results suggest that E2 selectively fluidizes the more fluid regions within SPMV. It is highly probable that E2 mostly fluidizes the bulk lipids, away from either annular lipids or lipid rafts, in the outer leaflet of SPMV. This selective fluidization may be one of the nongenomic mechanisms of neuroprotection by E2.

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Role of membrane biophysics in Alzheimer'sâ€“related cell pathways

Cited by 29 publications

References 153 publications

Stability of Aβ‐fibril fragments in the presence of fatty acids

Stability of Aβ‐fibril fragments in the presence of fatty acids

Stability of Aβ-fibril fragments in the presence of fatty acids

Selective Fluidization of Synaptosomal Plasma Membrane Vesicles by 17β-Estradiol

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