X-ray Absorption Spectroscopy Investigations of Copper(II) Coordination in the Human Amyloid β Peptide

Summers, Kelly L.; Schilling, Kevin M; Roseman, Graham; Markham, Kate; Dolgova, Natalia V.; Kröll, Thomas; Sokaras, Dimosthenis; Millhauser, Glenn L.; Pickering, Ingrid J.; George, Graham N.

doi:10.1021/acs.inorgchem.9b00507

Cited by 33 publications

(75 citation statements)

References 158 publications

(485 reference statements)

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“…The OCP value depends on the standing concentration and chemical activity of the oxidised and reduced products and together with the conditioning of the electrode, this depends on the beam intensity and the flow properties of the solution. The negative shift of the OCP indicates more reducing conditions and is consistent with the reported proclivity of copper(II) complexes to photoreduction (Summers et al, 2019, Stellato et al, 2019. The response of the OCP to a change in beam intensity is reflected by the highly reproducible signature associated with the start of each scan.…”

Section: Electrochemistrysupporting

confidence: 85%

“…Rapid freezing of the solution, after addition of cryoprotectants designed to reduce crystallisation, reduces significantly the sample volume requirements and can produce a sample which is more robust in terms of photoreduction, although problems commonly persist for absorbers such as Cu, As and Se (George et al, 2012). This is well illustrated by recent studies into the impact of photoreduction of Cu-bound amyloid  peptide (CuAß) samples have examined both the time/flux dependence of sample degradation and the impact of cryoprotectants (Summers et al, 2019, Stellato et al, 2019, Streltsov et al, 2008.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Redox state and photoreduction control using X-ray spectroelectrochemical techniques – advances in design and fabrication through additive engineering

Best¹,

Streltsov²,

Chantler³

et al. 2021

J Synchrotron Radiat

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The design and performance of an electrochemical cell and solution flow system optimized for the collection of X-ray absorption spectra from solutions of species sensitive to photodamage is described. A combination of 3D CAD and 3D printing techniques facilitates highly optimized design with low unit cost and short production time. Precise control of the solution flow is critical to both minimizing the volume of solution needed and minimizing the photodamage that occurs during data acquisition. The details of an integrated four-syringe stepper-motor-driven pump and associated software are described. It is shown that combined electrochemical and flow control can allow repeated measurement of a defined volume of solution, 100 µl, of samples sensitive to photoreduction without significant change to the X-ray absorption near-edge structure and is demonstrated by measurements of copper(II) complexes. The flow in situ electrochemical cell allows the collection of high-quality X-ray spectral measurements both in the near-edge region and over an extended energy region as is needed for structural analysis from solution samples. This approach provides control over photodamage at a level at least comparable with that achieved using cryogenic techniques and at the same time eliminates problems associated with interference due to Bragg peaks.

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Section: Electrochemistrysupporting

confidence: 85%

Section: Introductionmentioning

confidence: 99%

Redox state and photoreduction control using X-ray spectroelectrochemical techniques – advances in design and fabrication through additive engineering

Best¹,

Streltsov²,

Chantler³

et al. 2021

J Synchrotron Radiat

View full text Add to dashboard Cite

show abstract

“…14–17 Depending on the variation in the site of cleavage in the amyloid precursor protein a variety of Aβ peptides can be generated, which may impact the pathophysiology of AD differently. 17–19 The variable nature of Aβ peptides will influence the extent to which they are further enzymatically degraded by neprilysin. As shown in this study considerable variation in the affinity and efficacy of different recombinant human neprilysin against Aβ peptides was observed.…”

Section: Discussionmentioning

confidence: 99%

Modelling the efficacy of Neprilysin from various species in degrading different Amyloid-β peptides: Potential application in therapeutics of Alzheimer’s disease

Kumar

2021

Preprint

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Recombinant neprilysin due to its degradation potential against Amyloid-beta (A-beta) peptides has been looked at as a potential therapeutic candidate for treating Alzheimers disease (AD). However the enzymatic activity of neprilysin against different Aβ peptides can variable which significantly limits the therapeutic optimization. Using the molecular interaction analysis and modelling it against the known enzyme-substrate kinetics, this study developed a novel approach to predicting biosimilar enzyme-substrate kinetics. The known enzyme-substrate kinetics of human recombinant neprilysin with A-beta1-40 peptide was used as the prototype to assess the affinity and efficacy of various inter and intra-species neprilysin- A-beta peptide enzyme kinetics based on the relative molecular interaction analysis. Significant inter and intra-species variations in neprilysin- A-beta peptide enzyme kinetics was observed which further validated the need for optimizing enzyme kinetics tailored to specific substrate degradation. The novel enzyme kinetics modelling approach described in this study can be helpful in the developing of recombinant enzymes/peptides for personalised therapeutic applications.

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“…Multivalent metal ions such as copper (Cu) [ 64 , 65 , 66 ], zinc (Zn) [ 67 , 68 ], and iron (Fe) [ 69 , 70 ] are reported to be at higher levels in Alzheimer’s senile plaques [ 71 , 72 ]; while the connection of these metal ions with Aβ aggregation is still not well known. Indeed, some evidence from transgenic animal studies shows that Cu accumulates in senile plaques in the brains of 5 × FAD and Tg-SwDI/NOS2−/− mice models with neurodegeneration, as compared to PSAPP, where no Cu deposition has been seen among the mice with less neurodegeneration [ 73 ].…”

Section: Introductionmentioning

confidence: 99%

Copper Toxicity Links to Pathogenesis of Alzheimer’s Disease and Therapeutics Approaches

Ejaz

Wang

Lang

2020

IJMS

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Alzheimer’s disease (AD) is an irreversible, age-related progressive neurological disorder, and the most common type of dementia in aged people. Neuropathological lesions of AD are neurofibrillary tangles (NFTs), and senile plaques comprise the accumulated amyloid-beta (Aβ), loaded with metal ions including Cu, Fe, or Zn. Some reports have identified metal dyshomeostasis as a neurotoxic factor of AD, among which Cu ions seem to be a central cationic metal in the formation of plaque and soluble oligomers, and have an essential role in the AD pathology. Cu-Aβ complex catalyzes the generation of reactive oxygen species (ROS) and results in oxidative damage. Several studies have indicated that oxidative stress plays a crucial role in the pathogenesis of AD. The connection of copper levels in AD is still ambiguous, as some researches indicate a Cu deficiency, while others show its higher content in AD, and therefore there is a need to increase and decrease its levels in animal models, respectively, to study which one is the cause. For more than twenty years, many in vitro studies have been devoted to identifying metals’ roles in Aβ accumulation, oxidative damage, and neurotoxicity. Towards the end, a short review of the modern therapeutic approach in chelation therapy, with the main focus on Cu ions, is discussed. Despite the lack of strong proofs of clinical advantage so far, the conjecture that using a therapeutic metal chelator is an effective strategy for AD remains popular. However, some recent reports of genetic-regulating copper transporters in AD models have shed light on treating this refractory disease. This review aims to succinctly present a better understanding of Cu ions’ current status in several AD features, and some conflicting reports are present herein.

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X-ray Absorption Spectroscopy Investigations of Copper(II) Coordination in the Human Amyloid β Peptide

Cited by 33 publications

References 158 publications

Redox state and photoreduction control using X-ray spectroelectrochemical techniques – advances in design and fabrication through additive engineering

Redox state and photoreduction control using X-ray spectroelectrochemical techniques – advances in design and fabrication through additive engineering

Modelling the efficacy of Neprilysin from various species in degrading different Amyloid-β peptides: Potential application in therapeutics of Alzheimer’s disease

Copper Toxicity Links to Pathogenesis of Alzheimer’s Disease and Therapeutics Approaches

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