Erik Helmerhorst scite author profile

The amyloid-beta (Abeta) peptide is neurotoxic and associated with the pathology of Alzheimer's disease (AD). We investigated the effect of Abeta peptides on insulin binding to the insulin receptor because it is known that (1) Abeta and insulin are both amyloidogenic peptides sharing a common sequence recognition motif, (2) Abeta and insulin are substrates for the same insulin degrading enzyme, and (3) impaired glucose metabolism is a characteristic event in the pathology of AD. We discovered that Abeta(1-40) and Abeta(1-42,) the main physiological forms, reduced insulin binding and receptor autophosphorylation. The reduction in binding was caused by a decrease in the affinity of insulin binding to the insulin receptor. This reduction was independent of the receptor concentration. The reverse, control peptide Abeta(40-1) did not reduce insulin binding or insulin receptor autophosphorylation. These results demonstrate that Abeta is a direct competitive inhibitor of insulin binding and action. We speculate that the increased levels of Abeta in Alzheimer's disease may be linked to the associated insulin resistance that has been observed previously in this disease.

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Microcentrifuge desalting: A rapid, quantitative method for desalting small amounts of protein

Helmerhorst

Stokes

1980

Analytical Biochemistry

285

117

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Stripping voltammetric detection of insulin at liquid–liquid microinterfaces in the presence of bovine albumin

O'Sullivan

Eulate

Yuen

et al. 2013

Analyst

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Electrochemistry at the interface between two immiscible electrolyte solutions (ITIES) provides a platform for label-free detection of biomolecules. In this study, adsorptive stripping voltammetry (AdSV) was implemented at an array of microscale ITIES for the detection of the antidiabetic hormone insulin. By exploiting the potential-controlled adsorption of insulin at the ITIES, insulin was detected at 10 nM via subsequent voltammetric desorption. This is the lowest detected concentration reported to-date for a protein by electrochemistry at the ITIES. Surface coverage calculations indicate that between 0.1 and 1 monolayer of insulin forms at the interface over the 10-1000 nM concentration range of the hormone. In a step toward assessment of selectivity, the optimum adsorption potentials for insulin and albumin were determined to be 0.900 V and 0.975 V, respectively. When present in an aqueous mixture with albumin, insulin was detected by tuning the adsorption potential to 0.9 V, albeit with reduced sensitivity. This provides the first example of selective detection of one protein in the presence of another by exploiting optimal adsorption potentials. The results presented here provide a route to the improvement of detection limits and achievement of selectivity for protein detection by electrochemistry at the ITIES.

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Amyloid beta antagonizes insulin promoted secretion of the amyloid beta protein precursor

Xie

Martins

Racchi

et al. 2002

JAD

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Amyloid β (Aβ) peptides are direct competitive inhibitors of insulin binding and action [25]. We demonstrate that Aβ peptides can inhibit the effect of insulin on the metabolic processing of the amyloid β protein precursor (AβPP). As evidence emerges concerning the role of insulin and insulin like growth factors (IGFs) in learning and memory, recent findings have suggested that insulin may have a significant role in the pathogenetic pathways leading to Alzheimer's disease (AD). As an example several investigators have demonstrated upregulation of insulin receptors and defective insulin receptor signal transduction in AD brains. Moreover insulin has been shown to positively modulate AβPP proteolytic processing. The fact that insulin and Aβ appear to share a common system for degradation and disposal as they are both substrates of the insulin degrading enzyme (IDE) suggested the possibility of a reciprocal interference. Here we report that Aa can directly interfere with insulin receptor signalling inhibiting the autophosphorylation of partially purified insulin receptors. As a consequence of such interaction we also demonstrate that Aβ blocks the effect of insulin on the release of sAβPPα in chinese hamster ovaries (CHO) cells transfected with insulin receptors.

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A Comparative Structural Bioinformatics Analysis of the Insulin Receptor Family Ectodomain Based on Phylogenetic Information

et al. 2008

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The insulin receptor (IR), the insulin-like growth factor 1 receptor (IGF1R) and the insulin receptor-related receptor (IRR) are covalently-linked homodimers made up of several structural domains. The molecular mechanism of ligand binding to the ectodomain of these receptors and the resulting activation of their tyrosine kinase domain is still not well understood. We have carried out an amino acid residue conservation analysis in order to reconstruct the phylogeny of the IR Family. We have confirmed the location of ligand binding site 1 of the IGF1R and IR. Importantly, we have also predicted the likely location of the insulin binding site 2 on the surface of the fibronectin type III domains of the IR. An evolutionary conserved surface on the second leucine-rich domain that may interact with the ligand could not be detected. We suggest a possible mechanical trigger of the activation of the IR that involves a slight ‘twist’ rotation of the last two fibronectin type III domains in order to face the likely location of insulin. Finally, a strong selective pressure was found amongst the IRR orthologous sequences, suggesting that this orphan receptor has a yet unknown physiological role which may be conserved from amphibians to mammals.

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