A hypothesis about how early developmental methylmercury exposure disrupts behavior in adulthood

Behavioural Processes
M Christopher NewlandErin Rasmussen

Abstract

Events that disrupt the early development of the nervous system have lifelong, irreversible behavioral consequences. The environmental contaminant, methylmercury (MeHg), impairs neural development with effects that are manifested well into adulthood and even into aging. Noting the sensitivity of the developing brain to MeHg, the current review advances an argument that one outcome of early MeHg exposure is a distortion in the processing of reinforcing consequences that results in impaired choice, poor inhibition of prepotent responding, and perseveration on discrimination reversals (in the absence of alteration of extradimensional shifts). Neurochemical correlates include increased sensitivity to dopamine agonists and decreased sensitivity to gamma-aminobutyric acid (GABA) agonists. This leads to a hypothesis that the prefrontal cortex or dopamine neurotransmission is especially sensitive to even subtle gestational MeHg exposure and suggests that public health assessments of MeHg based on intellectual performance may underestimate the impact of MeHg in public health. Finally, those interested in modeling neural development may benefit from MeHg as an experimental model.

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Citations

Oct 1, 2015·Toxicological Sciences : an Official Journal of the Society of Toxicology·Monique M McCallisterDarryl B Hood
May 29, 2016·Environment International·David C BellingerKatarzyna Kordas
Nov 9, 2016·Neurotoxicology·Djai B Heyer, Rhiannon M Meredith
Nov 6, 2018·Neurotoxicology·Steven R Boomhower, M Christopher Newland
Nov 5, 2016·Neurotoxicology·Steven R Boomhower, M Christopher Newland
Jul 19, 2021·Neurotoxicology and Teratology·Dalisa R Kendricks, M Christopher Newland

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