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Molecular Fates of Organometallic Mercury in Human Brain.

Authors :
James AK
Dolgova NV
Nehzati S
Korbas M
Cotelesage JJH
Sokaras D
Kroll T
O'Donoghue JL
Watson GE
Myers GJ
Pickering IJ
George GN
Source :
ACS chemical neuroscience [ACS Chem Neurosci] 2022 Jun 15; Vol. 13 (12), pp. 1756-1768. Date of Electronic Publication: 2022 May 11.
Publication Year :
2022

Abstract

Mercury is ubiquitous in the environment, with rising levels due to pollution and climate change being a current global concern. Many mercury compounds are notorious for their toxicity, with the potential of organometallic mercury compounds for devastating effects on the structures and functions of the central nervous system being of particular concern. Chronic exposure of human populations to low levels of methylmercury compounds occurs through consumption of fish and other seafood, although the health consequences, if any, from this exposure remain controversial. We have used high energy resolution fluorescence detected X-ray absorption spectroscopy to determine the speciation of mercury and selenium in human brain tissue. We show that the molecular fate of mercury differs dramatically between individuals who suffered acute organometallic mercury exposure (poisoning) and individuals with chronic low-level exposure from a diet rich in marine fish. For long-term low-level methylmercury exposure from fish consumption, mercury speciation in brain tissue shows methylmercury coordinated to an aliphatic thiolate, resembling the coordination environment observed in marine fish. In marked contrast, for short-term high-level exposure, we observe the presence of biologically less available mercuric selenide deposits, confirmed by X-ray fluorescence imaging, as well as mercury(II)-bis-thiolate complexes, which may be signatures of severe poisoning in humans. These differences between low-level and high-level exposures challenge the relevance of studies involving acute exposure as a proxy for low-level chronic exposure.

Details

Language :
English
ISSN :
1948-7193
Volume :
13
Issue :
12
Database :
MEDLINE
Journal :
ACS chemical neuroscience
Publication Type :
Academic Journal
Accession number :
35543423
Full Text :
https://doi.org/10.1021/acschemneuro.2c00166