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Biomimetic single Al-OH site with high acetylcholinesterase-like activity and self-defense ability for neuroprotection

Weiqing Xu, Xiaoli Cai, Yu Wu, Yating Wen, Rina Su, Yu Zhang, Yuteng Huang, Qihui Zheng, Liuyong Hu, Xiaowen Cui, Lirong Zheng, Shipeng Zhang, Wenling Gu, Weiyu Song, Shaojun Guo, Chengzhou Zhu

2023Nature Communications84 citationsDOIOpen Access PDF

Abstract

Abstract Neurotoxicity of organophosphate compounds (OPs) can catastrophically cause nervous system injury by inhibiting acetylcholinesterase (AChE) expression. Although artificial systems have been developed for indirect neuroprotection, they are limited to dissociating P-O bonds for eliminating OPs. However, these systems have failed to overcome the deactivation of AChE. Herein, we report our finding that Al 3+ is engineered onto the nodes of metal–organic framework to synthesize MOF-808-Al with enhanced Lewis acidity. The resultant MOF-808-Al efficiently mimics the catalytic behavior of AChE and has a self-defense ability to break the activity inhibition by OPs. Mechanism investigations elucidate that Al 3+ Lewis acid sites with a strong polarization effect unite the highly electronegative –OH groups to form the enzyme-like catalytic center, resulting in superior substrate activation and nucleophilic attack ability with a 2.7-fold activity improvement. The multifunctional MOF-808-Al, which has satisfactory biosafety, is efficient in reducing neurotoxic effects and preventing neuronal tissue damage.

Topics & Concepts

AcetylcholinesteraseNeuroprotectionNeurotoxicityChemistryNucleophileLewis acids and basesEnzymeCatalysisCombinatorial chemistryBiophysicsBiochemistryPharmacologyToxicityBiologyOrganic chemistryCholinesterase and Neurodegenerative DiseasesPesticide Exposure and ToxicityAdvanced Nanomaterials in Catalysis
Biomimetic single Al-OH site with high acetylcholinesterase-like activity and self-defense ability for neuroprotection | Litcius