Quantitative comparison of different iron forms in the temporal cortex of Alzheimer patients and control subjects

Abstract We present a quantitative study of different molecular iron forms found in the temporal cortex of Alzheimer (AD) patients. Applying the methodology we developed in our previous work, we quantify the concentrations of non-heme Fe(III) by Electron Paramagnetic Resonance (EPR), magnetite/maghe...

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Autores principales: Marjolein Bulk, Louise van der Weerd, Wico Breimer, Nikita Lebedev, Andrew Webb, Jelle J. Goeman, Roberta J. Ward, Martina Huber, Tjerk H. Oosterkamp, Lucia Bossoni
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2018
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Acceso en línea:https://doaj.org/article/ca5d833c383f4fb99d830cbd3a160c33
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Sumario:Abstract We present a quantitative study of different molecular iron forms found in the temporal cortex of Alzheimer (AD) patients. Applying the methodology we developed in our previous work, we quantify the concentrations of non-heme Fe(III) by Electron Paramagnetic Resonance (EPR), magnetite/maghemite and ferrihydrite by SQUID magnetometry, together with the MRI transverse relaxation rate $$({{\rm{R}}}_{2}^{\ast })$$ (R2⁎) , to obtain a systematic view of molecular iron in the temporal cortex. Significantly higher values of $${{\rm{R}}}_{2}^{\ast }$$ R2⁎ , a larger concentration of ferrihydrite, and a larger magnetic moment of magnetite/maghemite particles are found in the brain of AD patients. Moreover, we found correlations between the concentration of the iron detected by EPR, the concentration of the ferrihydrite mineral and the average iron loading of ferritin. We discuss these findings in the framework of iron dis-homeostasis, which has been proposed to occur in the brain of AD patients.