Butyrylcholinesterase Interactions with Amylin May Protect Pancreatic Cells in Metabolic Syndrome

Overview

Journal J Cell Mol Med

Specialties Cell Biology
Molecular Biology

Date 2010 Sep 3

PMID 20807286

Citations 6

Authors

Shani Shenhar-Tsarfaty

Tal Bruck

Estelle R Bennett

Tsafrir Bravman

Einor Ben Aassayag

Nir Waiskopf

Ori Rogowski

Natan Bornstein

Shlomo Berliner

Hermona Soreq

Affiliations

Soon will be listed here.

Abstract

The metabolic syndrome (MetS) is a risk factor for type 2 diabetes mellitus (T2DM). However, the mechanisms underlying the transition from MetS to T2DM are unknown. Our goal was to study the potential contribution of butyrylcholinesterase (BChE) to this process. We first determined the hydrolytic activity of BChE in serum from MetS, T2DM and healthy individuals. The 'Kalow' variant of BChE (BChE-K), which has been proposed to be a risk factor for T2DM, was genotyped in the last two groups. Our results show that in MetS patients serum BChE activity is elevated compared to T2DM patients and healthy controls (P < 0.001). The BChE-K genotype showed similar prevalence in T2DM and healthy individuals, excluding this genotype as a risk factor for T2DM. However, the activity differences remained unexplained. Previous results from our laboratory have shown BChE to attenuate the formation of β-amyloid fibrils, and protect cultured neurons from their cytotoxicity. Therefore, we next studied the in vitro interactions between recombinant human butyrylcholinesterase and amylin by surface plasmon resonance, Thioflavine T fluorescence assay and cross-linking, and used cultured pancreatic β cells to test protection by BChE from amylin cytotoxicity. We demonstrate that BChE interacts with amylin through its core domain and efficiently attenuates both amylin fibril and oligomer formation. Furthermore, application of BChE to cultured β cells protects them from amylin cytotoxicity. Taken together, our results suggest that MetS-associated BChE increases could protect pancreatic β-cells in vivo by decreasing the formation of toxic amylin oligomers.

Citing Articles

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Reduced serum butyrylcholinesterase activity indicates severe systemic inflammation in critically ill patients.

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Decline in serum cholinesterase activities predicts 2-year major adverse cardiac events.

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