Muhammed K Mazumder1, Rajib Paul, Anupom Borah. 1. Cellular and Molecular Neurobiology Laboratory, Department of Life Science and Bioinformatics, Assam University, Silchar, Assam, India.
Abstract
AIM: Till date, the mode of action of β-PEA on neurons is not well illustrated. We tested the hypothesis that β-PEA has the ability to cause oxidative stress by inhibiting the antioxidant enzyme DT-diaphorase and mitochondrial complexes (Complex-I and complex-III). METHODS: Using molecular docking as a tool, we here studied and compared the inhibitory capacity of β-PEA on DT-diaphorase and mitochondrial complexes. Three-dimensional structures of mitochondrial complexes and DT-diaphorase and their ligands were downloaded from the respective data banks, and free energy of binding (docking scores) were determined. RESULTS: The present finding demonstrated for the first time that β-PEA potentiates reactive oxygen species generation by inhibiting the antioxidant enzyme DT-diaphorase, in addition to the mitochondrial complex-I and complex-III. CONCLUSION: As lowering of cellular antioxidant molecules is evident in many neurodegenerative disorders, β-PEA-induced lowering of DT-diaphorase activity may have the capability to cause neurodegeneration, which may be potentiated by its ability to inhibit mitochondrial complexes. Thus, β-PEA-due to its cumulative actions-may be more potent in causing neurodegeneration as compared to other endogenous neurotoxins.
AIM: Till date, the mode of action of β-PEA on neurons is not well illustrated. We tested the hypothesis that β-PEA has the ability to cause oxidative stress by inhibiting the antioxidant enzyme DT-diaphorase and mitochondrial complexes (Complex-I and complex-III). METHODS: Using molecular docking as a tool, we here studied and compared the inhibitory capacity of β-PEA on DT-diaphorase and mitochondrial complexes. Three-dimensional structures of mitochondrial complexes and DT-diaphorase and their ligands were downloaded from the respective data banks, and free energy of binding (docking scores) were determined. RESULTS: The present finding demonstrated for the first time that β-PEA potentiates reactive oxygen species generation by inhibiting the antioxidant enzyme DT-diaphorase, in addition to the mitochondrial complex-I and complex-III. CONCLUSION: As lowering of cellular antioxidant molecules is evident in many neurodegenerative disorders, β-PEA-induced lowering of DT-diaphorase activity may have the capability to cause neurodegeneration, which may be potentiated by its ability to inhibit mitochondrial complexes. Thus, β-PEA-due to its cumulative actions-may be more potent in causing neurodegeneration as compared to other endogenous neurotoxins.
Authors: Xiaoyue Zhang; Dana Boyd Barr; Anne L Dunlop; Parinya Panuwet; Jeremy A Sarnat; Grace E Lee; Youran Tan; Elizabeth J Corwin; Dean P Jones; P Barry Ryan; Donghai Liang Journal: Sci Total Environ Date: 2021-11-16 Impact factor: 7.963