The Effect of Silver Nanoparticles on the Scavenger Receptor-Scara1 on Microglia

RAN Pub Date : 2017-04-01 DOI:10.11159/icnb17.115
Sikorska Katarzyna, Grądzka Iwona, Wasyk Iwona
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引用次数: 0

Abstract

Extended Abstract Alzheimer's disease is one of the most prevalent neurodegenerative diseases in the world. The neuropathological hallmark of Alzheimer's disease is extracellular deposit of amyloid-β (Aβ) in the brain. Microglial cells are able to remove of Aβ aggregates by receptor-dependent endocytosis [1,3]. Nanotechnology is one of the fastest developing science discipline and nanoparticles (NPs), due to their strong absorption properties are widely used in industry, and also in medical diagnosis and treatment. It was documented that NPs can prevent the formation of Aß-aggregates whereby reducing their neurotoxicity and likely can impact on the Aß-uptake by microglia [2,4-7]. It is supposed that NPs can increase number of emerging phagocytosis bubbles and the Aβ uptake due to the co-transport phenomenon, or in contrary reduce the number of lipid rafts available and therefore inhibit of Aβ transport by some kind of competition. Moreover, by activating different paths to cell signaling, NPs can probably change the expression of the amyloid β-receptors on microglia cell membranes. The goal of our study was to verify whether silver nanoparticles (AgNPs, 20 nm, BSA coated) can change the ability of microglial scavenger receptor 1 (Scara1) for the Aß (1-42) uptake and influence gene or protein expression of these receptors in mouse BV-2 cells. The results from flow cytometry indicate that both Aβ and AgNPs are taken up by microglial cells using the same receptor: AgNPs (50 μg/ml) can decrease the uptake of Aβ by about 80% compared to the control group and Scara1 inhibitor (poliinosinic acid) diminish both AgNPs and Aß peptide uptake. Real-time PCR analysis showed that AgNPs did not change the Scara1 gene expression. The Western blotting (measuring the whole receptor content) revealed a slight decrease in the protein receptor level after treatment of cells with AgNPs (50 μg/ml). On the other hand, the content of the receptor on the cell surface, measured cytometrically, was greatly diminished in the presence of AgNPs. In summary, AgNPs clearly blocked the receptor and so they may play rather disadvantageous role in Aβ removal. Results from the Project “The influence of nanoparticles on beta-amyloid removal by microglia cells”. From National Science Centre, Project duration: 09. 2014-09.2017 Project ID:UMO-2013/11/N/NZ7/00415.
纳米银对小胶质细胞清道夫受体scara1的影响
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