CD36‐Binding Amphiphilic Nanoparticles for Attenuation of α‐Synuclein‐Induced Microglial Activation

Nanxia Zhao; Nicola L. Francis; Shuang Song; Vladyslav Kholodovych; Hannah R. Calvelli; Cody L. Hoop; Zhiping P. Pang; Jean Baum; Kathryn E. Uhrich; Prabhas V. Moghe

doi:10.1002/anbr.202100120

Advanced NanoBiomed Research (Jun 2022)

CD36‐Binding Amphiphilic Nanoparticles for Attenuation of α‐Synuclein‐Induced Microglial Activation

Nanxia Zhao,
Nicola L. Francis,
Shuang Song,
Vladyslav Kholodovych,
Hannah R. Calvelli,
Cody L. Hoop,
Zhiping P. Pang,
Jean Baum,
Kathryn E. Uhrich,
Prabhas V. Moghe

Affiliations

Nanxia Zhao: Department of Chemical and Biochemical Engineering Rutgers University 98 Brett Rd Piscataway NJ 08854 USA
Nicola L. Francis: Department of Biomedical Engineering Rutgers University 599 Taylor Rd. Piscataway NJ 08854 USA
Shuang Song: Department of Chemistry University of California 501 Big Springs Rd. Riverside CA 92507 USA
Vladyslav Kholodovych: Office of Advanced Research Computing Rutgers University 96 Frelinghuysen Road Piscataway NJ 08854 USA
Hannah R. Calvelli: Department of Molecular Biology & Biochemistry Rutgers University 604 Allison Rd Piscataway NJ 08854 USA
Cody L. Hoop: Department of Chemistry & Chemical Biology Rutgers University 123 Bevier Rd Piscataway NJ 08854 USA
Zhiping P. Pang: Department of Neuroscience and Cell Biology Rutgers Robert Wood Johnson Medical School Rutgers University 604 Allison Rd Piscataway NJ 08854 USA
Jean Baum: Department of Molecular Biology & Biochemistry Rutgers University 604 Allison Rd Piscataway NJ 08854 USA
Kathryn E. Uhrich: Department of Chemistry University of California 501 Big Springs Rd. Riverside CA 92507 USA
Prabhas V. Moghe: Department of Chemical and Biochemical Engineering Rutgers University 98 Brett Rd Piscataway NJ 08854 USA

DOI: https://doi.org/10.1002/anbr.202100120
Journal volume & issue: Vol. 2, no. 6
pp. n/a – n/a

Abstract

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Neuroinflammation is one of the hallmarks contributing to Parkinson's disease (PD) pathology, where microglial activation occurs as one of the earliest events, triggered by extracellular α‐synuclein (aSYN) binding to the cluster of differentation 36 (CD36) receptor. Herein, CD36‐binding nanoparticles (NPs) containing tartaric acid–based amphiphilic macromolecules (AMs) are rationally designed to inhibit this aSYN–CD36 binding. In silico docking reveals that four AMs with varying alkyl side chain lengths present differential levels of CD36 binding affinity and that an optimal alkyl chain length promotes the strongest inhibitory activity toward aSYN–CD36 interactions. In vitro competitive binding assays indicate that the inhibitory activity of AM‐based NPs plateaus at intermediate side chain lengths of 12 and 18 carbons, supporting the in silico docking predictions. These intermediate‐length AM NPs also has significantly stronger effects on reducing aSYN internalization and inhibiting proinflammatory molecules tumor necrosis factor α (TNF‐α) and nitric oxide from aSYN‐challenged microglia. All four NPs modulate the gene expression of aSYN‐challenged microglia, downregulating proinflammatory genes TNF, interleukin 6 (IL‐6), and IL‐1β, and upregulating anti‐inflammatory genes transforming growth factor β (TGF‐β) and Arg1 expression. Herein, overall, a novel polymeric nanotechnology platform is represented that can be used to modulate aSYN‐induced microglial activation.

Published in Advanced NanoBiomed Research

ISSN: 2699-9307 (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Technology: Chemical technology: Biotechnology; Medicine: Medicine (General): Medical technology
Website: https://onlinelibrary.wiley.com/journal/26999307

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