The chemistry of copper and iron plays a critical role in normal brain function. A variety of enzymes and proteins containing positively charged Cu<sup>+</sup>, Cu<sup>2+</sup>, Fe<sup>2+</sup>, and Fe<sup>3+</sup> control key processes, catalyzing oxidative metabolism and neurotransmitter and neuropeptide production. Here, we report the discovery of elemental (zero-oxidation state) metallic Cu<sup>0</sup> accompanying ferromagnetic elemental Fe<sup>0</sup> in the human brain. These nanoscale biometal deposits were identified within amyloid plaque cores isolated from Alzheimer's disease subjects, using synchrotron x-ray spectromicroscopy. The surfaces of nanodeposits of metallic copper and iron are highly reactive, with distinctly different chemical and magnetic properties from their predominant oxide counterparts. The discovery of metals in their elemental form in the brain raises new questions regarding their generation and their role in neurochemistry, neurobiology, and the etiology of neurodegenerative disease.
James Everett, Jake Brooks, Vindy Tjendana Tjhin, Frederik Lermyte, Ian Hands-Portman, Germán Plascencia‐Villa, George Perry, Peter J. Sadler, Peter B. O’Connor, Joanna F. Collingwood, Neil D. Telling
James Everett, Joanna F. Collingwood, Vindy Tjendana Tjhin, Jake Brooks, Frederik Lermyte, Germán Plascencia‐Villa, Ian Hands-Portman, Jon Dobson, George Perry, Neil D. Telling
Yuqing Sun, Iris K.M. Yu, Daniel C.W. Tsang, Xinde Cao, Daohui Lin, Linling Wang, Nigel Graham, Daniel S. Alessi, Michael Komárek, Yong Sik Ok, Yujie Feng, Xiangdong Li
Clorissa Washington-Hughes, Shubhrajit Roy, Herana Kamal Seneviratne, Senthilkumar S. Karuppagounder, Yulemni Morel, Jace W. Jones, Alex Zak, Tong Xiao, Tatiana Boronina, Robert N. Cole, Namandjé N. Bumpus, Christopher J Chang, Ted M. Dawson, Svetlana Lutsenko
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