Chronic manganese exposure impairs visuospatial associative learning in non-human primates

•Paired associate learning is a marker for preclinical Alzheimer's disease.•Paired associate learning performance is impaired in chronic Mn-exposed monkeys.•Vehicle control animals showed no change or improved performance over time.•Some paired associate learning deficits occurred soon after st...

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Veröffentlicht in:Toxicology letters 2013-08, Vol.221 (2), p.146-151
Hauptverfasser: Schneider, J.S., Williams, C., Ault, M., Guilarte, T.R.
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Sprache:eng
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Zusammenfassung:•Paired associate learning is a marker for preclinical Alzheimer's disease.•Paired associate learning performance is impaired in chronic Mn-exposed monkeys.•Vehicle control animals showed no change or improved performance over time.•Some paired associate learning deficits occurred soon after start of Mn exposure.•Paired associate learning is sensitive for detecting Mn-related cognitive change. Manganese (Mn) is an essential trace metal nutrient, however, excess Mn can be neurotoxic. The degree to which chronic environmental or occupational exposures to Mn in adults cause neuropsychological dysfunction is of considerable interest. Descriptions of neuropsychological dysfunction following chronic Mn exposure have been somewhat inconsistent though, likely owing to different measures of exposure in different populations, complicated by factors of mixed exposures and differences in neuropsychological tests administered. We previously described up-regulation of the mRNA expression for amyloid-beta (A-beta) precursor-like protein 1 (APLP1) and the presence of A-beta diffuse plaques in frontal cortex of Mn-exposed monkeys. The present study examined Mn-induced changes in performance on a paired associate learning (PAL) task that has been suggested as a marker for preclinical Alzheimer's disease. Aspects of performance of this task were affected early following initiation of Mn exposure. Thus, PAL performance may be a sensitive and valuable tool for the early, preclinical detection of incipient dementia and it may also be a sensitive tool for detecting cognitive dysfunction from Mn exposure. The current cognitive data, combined with our previous findings, suggest that frontal cortex may be a particularly sensitive target for the effects of Mn on cognition and that chronic Mn exposure may initiate or accelerate a process that could lead to or predispose to Alzheimer's like pathology and cognitive dysfunction.
ISSN:0378-4274
1879-3169
DOI:10.1016/j.toxlet.2013.06.211