Exploring the K Isotope Composition of Göttingen Minipig Brain Regions, and Implications for Alzheimer's Disease

Overview

Journal Metallomics

Publisher Oxford University Press

Date 2022 Nov 23

PMID 36416864

Authors

Brandon Mahan

Theo Tacail

Jamie Lewis

Tim Elliott

Mette Habekost

Simon Turner

Roger Chung

Frederic Moynier

Affiliations

Soon will be listed here.

Abstract

Natural stable metal isotopes have shown utility in differentiation between healthy and diseased brain states (e.g. Alzheimer's disease, AD). While the AD brain accumulates some metals, it purges others, namely K (accompanied by increased serum K, suggesting brain-blood transferal). Here, K isotope compositions of Göttingen minipig brain regions for two AD models at midlife are reported. Results indicate heavy K isotope enrichment where amyloid beta (Aβ) accumulation is observed, and this enrichment correlates with relative K depletion. These results suggest preferential efflux of isotopically light K+ from the brain, a linkage between brain K concentrations and isotope compositions, and linkage to Aβ (previously shown to purge cellular brain K+). Brain K isotope compositions differ from that for serum and brain K is much more abundant than in serum, suggesting that changes in brain K may transfer a measurable K isotope excursion to serum, thereby generating an early AD biomarker.

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