Proton Stimulation Targeting Plaque Magnetite Reduces Amyloid-β Plaque and Iron Redox Toxicity and Improves Memory in an Alzheimer’s Disease Mouse Model

Kim JK , Seo SJ , Kim HT , Kim KH , Chung MH , Kim KR , Ye SJ (2012) Enhanced proton treatment in mouse tumors through proton irradiated nanoradiator effects on metallic nanoparticles. Phys Med Biol 57, 8309–8323.

Schuemann J , Berbeco R , Chithrani DB , Cho SH , Kumar R , McMahon SJ , Sridhar S , Krishnan S (2016) Roadmap to clinical use of gold nanoparticles for radiation sensitization. Int J Radiat Oncol Biol Phys 94, 189–205.

Porcel E , Tillement O , Lux F , Mowat P , Usami N , Kobayashi K , Furusawa Y , Le Sech C , Li S , Lacombe S (2014) Gadolinium-based nanoparticles to improve the hadrontherapy performances. Nanomedicine 10, 1601–1608.

Kim HK , Titze J , Schöffler M , Trinter F , Waitz M , Voigtsberger J , Sann H , Meckel M , Stuck C , Lenz U , Odenweller M , Neumann N , Schössler S , Ullmann-Pfleger K , Ulrich B , Costa Fraga R , Petridis N , Metz D , Jung A , Grisenti R , Czasch A , Jagutzki O , Schmidt L , Jahnke T , Schmidt-Böcking H , Dörner R (2011) Enhanced production of low energy electrons by alpha particle impact. Proc Natl Acad Sci U S A 108, 11821–11824.

Seo SJ , Jeon JK , Han SM , Kim JK (2017) Reactive oxygen species-based measurement of the dependence of the Coulomb nanoradiator effect on proton energy and atomic Z value. Int J Radiat Biol 93, 1239–1247.

Jeon JK , Han SM , Min SK , Seo SJ , Ihm K , Chang WS , Kim JK (2016) Coulomb nanoradiator-mediated, site-specific thrombolytic proton treatment with a traversing pristine Bragg peak. Sci Rep 6, 37848.

Peukert D , Kempson I , Douglass M , Bezak E (2018) Metallic nanoparticle radiosensitisation of ion radiotherapy: A review. Phys Med 47, 121–128.

Kim JK , Seo SJ , Jeon JG (2020) Ion beam stimulation therapy with a nanoradiator as a site-specific prodrug. Front Phys 8, 270.

Telling ND , Everett J , Collingwood JF , Dobson J , van der Laan G , Gallagher JJ , Wang J , Hitchcock AP (2017) Iron biochemistry is correlated with amyloid plaque morphology in an established mouse model of Alzheimer’s disease. Cell Chem Biol 24, 1205–1215.e3.

Everett J , Collingwood JF , Tjendana-Tjhin V , Brooks J , Lermyte F , Plascencia-Villa G , Hands-Portman I , Dobson J , Perry G , Telling ND (2018) Nanoscale synchrotron X-ray speciation of iron and calcium compounds in amyloid plaque cores from Alzheimer’s disease. Nanoscale 10, 11782–11796.

Querol-Vilaseca M , Colom-Cadena M , Pegueroles J , Nuñez-Llaves R , Luque-Cabecerans J , Muñoz-Llahuna L , Andilla J , Belbin O , Spires-Jones TL , Gelpi E , Clarimon J , Loza-Alvarez P , Fortea J , Lleó A (2019) Nanoscale structure of amyloid-β plaques in Alzheimer’s disease. Sci Rep 9, 5181.

Plascencia-Villa G , Ponce A , Collingwood JF , Arellano-Jiménez MJ , Zhu X , Rogers JT , Betancourt I , José-Yacamán M , Perry G (2016) High-resolution analytical imaging and electron holography of magnetite particles in amyloid cores of Alzheimer’s disease. Sci Rep 6, 24873.

Newhauser WD , Zhang R (2015) The physics of proton therapy. Phys Med Biol 60, R155–R209.

Ulmer W , Matsinos E (2010) Theoretical methods for the calculation of Bragg curves and 3D distributions of proton beams. Eur Phys J Spec Top 190, 1–81.

Ward RJ , Zucca FA , Duyn JH , Crichton RR , Zecca L (2014) The role of iron in brain ageing and neurodegenerative disorders. Lancet Neurol 13, 1045–1060.

Ndayisaba A , Kaindlstorfer C , Wenning GK (2019) Iron in neurodegeneration—Cause or consequence? Front Neurosci 13, 180.

Smith MA , Harris PL , Sayre LM , Perry G (1997) Iron accumulation in Alzheimer disease is a source of redox-generated free radicals. Proc Natl Acad Sci U S A 94, 9866–9868.

Castellani RJ , Moreira PI , Liu G , Dobson J , Perry G , Smith MA , Zhu X (2007) Iron: The redox-active center of oxidative stress in Alzheimer disease. Neurochem Res 32, 1640–1645.

Ayton S , James SA , Bush AI (2017) Nanoscale imaging reveals big role for iron in Alzheimer’s disease. Cell Chem Biol 24, 1192–1194.

Choi Y , Kim JK (2018) Investigation of the redox state of magnetite upon Aβ-fibril formation or proton irradiation; implication of iron redox inactivation and β-amyloidolysis. MRS Commun 8, 955–960.

Falangola MF , Lee SP , Nixon RA , Duff K , Helpern JA (2005) Histological co-localization of iron in Abeta plaques of PS/APP transgenic mice. Neurochem Res 30, 201–205.

Leskovjan AC , Kretlow A , Lanzirotti A , Barrea R , Vogt S , Miller LM (2011) Increased brain iron coincides with early plaque formation in a mouse model of Alzheimer’s disease. Neuroimage 55, 32–38.

Schröder N , Figueiredo LS , de Lima MN (2013) Role of brain iron accumulation in cognitive dysfunction: Evidence from animal models and human studies. J Alzheimers Dis 34, 797–812.

Rao SS , Adlard PA (2018) Untangling tau and iron: Exploring the interaction between iron and tau in neurodegeneration. Front Mol Neurosci 11, 276.

Teller S , Tahirbegi IB , Mir M , Samitier J , Soriano J (2015) Magnetite-amyloid-β deteriorates activity and functional organization in an in vitro model for Alzheimer’s disease. Sci Rep 5, 17261.

Arendash GW , Sanchez-Ramos J , Mori T , Mamcarz M , Lin X , Runfeldt M , Wang L , Zhang G , Sava V , Tan J , Cao C (2010) Electromagnetic field treatment protects against and reverses cognitive impairment in Alzheimer’s disease mice. J Alzheimers Dis 19, 191–210.

Nikseresht S , Bush AI , Ayton S (2019) Treating Alzheimer’s disease by targeting iron. Br J Pharmacol 176, 3622–3635.

van Marlen P , Dahele M , Folkerts M , Abel E , Slotman BJ , Verbakel WFAR (2020) Bringing FLASH to the clinic: Treatment planning considerations for ultrahigh dose-rate proton beams. Int J Radiat Oncol Biol Phys 106, 621–629.

Navarro A , Tolivia J , Del Valle E (1999) Congo red method for demonstrating amyloid in paraffin sections. J Histotechnol 22, 305–308.

Clark JK , Furgerson M , Crystal JD , Fechheimer M , Furukawa R , Wagner JJ (2015) Alterations in synaptic plasticity coincide with deficits in spatial working memory in presymptomatic 3xTg-AD mice. Neurobiol Learn Mem 125, 152–162.

Janus C (2004) Search strategies used by APP transgenic mice during navigation in the Morris water maze. Learn Mem 11, 337–346.

Vijayakumar R , Koltypin Y , Felner I , Gedanken A (2000) Sonochemical synthesis and characterization of pure nanometer-sized Fe3O4 particles. Mater Sci Eng A 286, 101–105.

Tiiman A , Krishtal J , Palumaa P , Tõugu V (2015) In vitro fibrillization of Alzheimer’s amyloid-β peptide (1-42). AIP Advances 5, 092401.

Oakley H , Cole SL , Logan S , Maus E , Shao P , Craft J , Guillozet-Bongaarts A , Ohno M , Disterhoft J , Van Eldik L , Berry R , Vassar R (2006) Intraneuronal beta-amyloid aggregates, neurodegeneration, and neuron loss in transgenic mice with five familial Alzheimer’s disease mutations: Potential factors in amyloid plaque formation. J Neurosci 26, 10129–10140.

Li X , Bao X , Wang R (2016) Experimental models of Alzheimer’s disease for deciphering the pathogenesis and therapeutic screening (Review). Int J Mol Med 37, 271–283.

Tahirbegi IB , Pardo WA , Alvira M , Mir M , Samitier J (2016) Amyloid Aβ 42, a promoter of magnetite nanoparticle formation in Alzheimer’s disease. Nanotechnology 27, 465102.

Ceyzériat K , Tournier BB , Millet P , Frisoni GB , Garibotto V , Zilli T (2020) Low-dose radiation therapy: A new treatment strategy for Alzheimer’s disease? J Alzheimers Dis 74, 411–419.

Meadowcroft MD , Peters DG , Dewal RP , Connor JR , Yang QX (2015) The effect of iron in MRI and transverse relaxation of amyloid-beta plaques in Alzheimer’s disease. NMR Biomed 28, 297–305.

Collingwood JF , Chong RKK , Kasama T , Cervera-Gontard L , Dunin-Borkowski RE , Perry G , Posfai M , Siedlak SL , Simpson ET , Smith MA , Dobson J (2008) Three-dimensional tomographic imaging and characterization of iron compounds within Alzheimer’s plaque core material. J Alzheimers Dis 14, 235–245.

Trinter F , Williams JB , Weller M , Waitz M , Pitzer M , Voigtsberger J , Schober C , Kastirke G , Müller C , Goihl C , Burzynski P , Wiegandt F , Bauer T , Wallauer R , Sann H , Kalinin A , Schmidt LP , Schöffler M , Sisourat N , Jahnke T (2013) Evolution of interatomic Coulombic decay in the time domain. Phys Rev Lett 111, 093401.

Leinenga G , Götz J (2015) Scanning ultrasound removes amyloid-β and restores memory in an Alzheimer’s disease mouse model. Sci Transl Med 7, 278ra33.

Nnah IC , Wessling-Resnick M (2018) Brain iron homeostasis: A focus on microglial iron. Pharmaceuticals 11, 129.

McCarthy RC , Sosa JC , Gardeck AM , Baez AS , Lee CH , Wessling-Resnick M (2018) Inflammation-induced iron transport and metabolism by brain microglia. J Biol Chem 293, 7853–7863.

Moreno-Jiménez EP , Flor-García M , Terreros-Roncal J , Rábano A , Cafini F , Pallas-Bazarra N , Ávila J , Llorens-Martín M (2019) Adult hippocampal neurogenesis is abundant in neurologically healthy subjects and drops sharply in patients with Alzheimer’s disease. Nat Med 25, 554–560.

Wirths O (2017) Altered neurogenesis in mouse models of Alzheimer disease. Neurogenesis (Austin) 4, e1327002.

Newcombe EA , Camats-Perna J , Silva ML , Valmas N , Huat TJ , Mediros R (2018) Inflammation: The link between comorbidities, genetics, and Alzheimer’s disease. J Neuroinflammation 5, 276.

Belaidi AA , Bush AI (2016) Iron neurochemistry in Alzheimer’s disease and Parkinson disease: Targets for therapeutics. J Neurochem 139, 179–197.

Lane DJR , Ayton S , Bush AI (2018) Iron and Alzheimer’s disease: An update on emerging mechanism. J Alzheimers Dis 64, S379–S395.

Monje ML , Mizumatsu S , Fike JR , Palmer TD (2002) Irradiation induces neural precursor-cell dysfunction. Nat Med 8, 955–962.

Parihar VK , Limoli CL (2013) Cranial irradiation compromises neuronal architecture in the hippocampus. Proc Natl Acad Sci U S A 110, 12822–12827.