Effects of Increased Iron Intake During the Neonatal Period on the Brain of Adult AβPP/PS1 Transgenic Mice

The present study was aimed to investigate neuropathological changes in AβPP/PS1 transgenic mice (Tg), as a model of Alzheimer's disease, subjected to supplementary iron administration in a critical postnatal period, in order to reveal the interaction of genetic and environmental risk factors i...

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Bibliographic Details
Published in:Journal of Alzheimer's disease 2010-01, Vol.19 (3), p.1069-1080
Main Authors: Fernandez, Liana Lisboa, Carmona, Marga, Portero-Otin, Manuel, Naudi, Alba, Pamplona, Reinald, Schröder, Nadja, Ferrer, Isidro
Format: Article
Language:English
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Summary:The present study was aimed to investigate neuropathological changes in AβPP/PS1 transgenic mice (Tg), as a model of Alzheimer's disease, subjected to supplementary iron administration in a critical postnatal period, in order to reveal the interaction of genetic and environmental risk factors in the pathogenesis of the disease. Twelve Tg and 10 wild-type (Wt) littermates were administered iron between the 12th and 14th post-natal days (TgFe, WtFe); 11 Tg and 15 Wt received vehicle (sorbitol 5%) alone in the same period (TgSb, WtSb). Mice were killed at the age of six months and processed for morphological and biochemical studies. No modifications in amyloid-β burden were seen in iron-treated and non-iron-treated AβPP/PS1 mice. No differences in microglial reactions were observed when comparing the four groups of mice. Yet increased astrocytosis, as revealed by densitometry of GFAP-immunoreactive astrocytes, and increased expression levels of GFAP, as revealed by gel electrophoresis and western blotting, were found in iron-treated mice (both Tg and Wt) when compared with TgSb and WtSb. This was accompanied by significant changes in brain fatty acid composition in AβPP/PS1 mice that led to a lower membrane peroxidizability index and to reduced protein oxidative damage, as revealed by reduced percentages of the oxidative stress markers: glutamic semialdehyde, aminoadipic semialdehyde, Nε-carboxymethyl-lysine, Nε-carboxyethyl-lysine, and Nε-malondialdehyde-lysine. These findings demonstrate that transient dietary iron supplementation during the neonatal period is associated with cellular and metabolic imprinting in the brain in adult life, but it does not interfere with the appearance of amyloid plaques in AβPP/PS1 transgenic mice.
ISSN:1387-2877
1875-8908
DOI:10.3233/JAD-2010-1304