Probing the toxic effect of chlorpyrifos as an environmental pollutant on the structure and biological activity of lysozyme under physiological conditions

The pervasive use of pesticides like chlorpyrifos (CPY) has been associated with deleterious effects on biomolecules, posing significant risks to environmental integrity, public health, and overall ecosystem equilibrium. Accordingly, in this study, we investigated the potential binding interaction b...

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Bibliographic Details
Published in:Chemosphere (Oxford) 2024-05, Vol.355, p.141724-141724, Article 141724
Main Authors: Asgharzadeh, Sanaz, Shareghi, Behzad, Farhadian, Sadegh
Format: Article
Language:English
Subjects:
Chlorpyrifos
Docking
Lysozyme
MD simulation
Spectroscopy
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Summary:The pervasive use of pesticides like chlorpyrifos (CPY) has been associated with deleterious effects on biomolecules, posing significant risks to environmental integrity, public health, and overall ecosystem equilibrium. Accordingly, in this study, we investigated the potential binding interaction between the well-conserved enzyme, lysozyme (LSZ), and CPY through various spectroscopic techniques and molecular modeling. The UV–vis absorption and fluorescence experiments confirmed the complex formation and static quenching of the intrinsic fluorescence intensity. LSZ revealed a singular binding site for CPY, with binding constants around 105 M−1 across different temperature ranges. Analysis of thermodynamic parameters showed the spontaneous nature of the complexation process, while also revealing the pivotal role of hydrophobic interactions in stabilizing the LSZ-CPY system. According to circular dichroism and Fourier transform infrared studies, CPY binding changed the secondary structure of LSZ by boosting α-helix presence and reducing the levels of β-sheet and β-turn content. Further, CPY decreased the stability and activity of LSZ. Computational docking delineated the specific and highly preferred binding site of CPY within the structure of LSZ. Molecular dynamic simulation indicated the enduring stability of the LSZ/CPY complex and revealed structural modifications in the LSZ after binding with CPY. This research provides a detailed understanding of the intermolecular dynamics between CPY and LSZ, concurrently elucidating the molecular-level implications for the potential hazards of pesticides in the natural environment. [Display omitted] •The binding of Chlorpyrifos and lysozyme was thoroughly analyzed by molecular docking.•The results indicated that hydrophobic interactions play a major role in the formation of the Chlorpyrifos-lysozyme complex.•Chlorpyrifos affected the secondary structure of lysozyme.•Complexation with Chlorpyrifos lessened the enzymatic activity and thermal stability of lysozyme.
ISSN:0045-6535
1879-1298
DOI:10.1016/j.chemosphere.2024.141724