4.4 Article

Molecular dynamics simulations of a central nervous system-penetrant drug AZD3759 with lipid bilayer

Journal

JOURNAL OF MOLECULAR MODELING
Volume 28, Issue 9, Pages -

Publisher

SPRINGER
DOI: 10.1007/s00894-022-05266-w

Keywords

Molecular dynamics; Potential of mean force; AZD3759; DMPC; Blood-brain barrier

Funding

  1. National Natural Science Foundation of China [51974201]

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This study investigated the interaction and transmembrane mechanism of AZD3759 using molecular simulations. The results showed that the cationic state of AZD3759 formed more hydrogen bonds with the bilayer compared to the neutral state, and Coulombic interaction played a crucial role in the transmembrane process. AZD3759 preferred to reside at the interface between the hydrophilic headgroup region and hydrophobic region of the bilayer, with the chloroflurobenzene moiety playing a key role in the insertion process. Furthermore, the study found that AZD3759 could permeate the hydrophobic region of the DMPC bilayer.
AZD3759 is an epidermal growth factor receptor inhibitor with good blood-brain barrier permeability, demonstrating encouraging activity against central nervous system metastases. However, the underlying mechanism was still unclear. In this study, the interaction between AZD3759 and membrane was studied with 1,2-dimyristoyl-sn-glycero-3-phosphocholine bilayer as a model lipid. Both the cationic and neutral state of AZD3759 were considered in the simulations, and the results show that cationic AZD3759 forms more hydrogen bonds with bilayer than neutral AZD3759, and Coulombic interaction has great effects in the transmembrane process of cationic AZD3759. AZD3759 prefers to reside in the interface between the hydrophilic headgroup region and hydrophobic region of bilayer, and the chloroflurobenzene moiety plays a crucial role in the insertion of AZD3759. PMF results suggest that the hydrophobic region of DMPC bilayer is permeable by AZD3759. Understanding the transmembrane mechanism of AZD3759 at molecular level may provide useful information to the design and optimization of anti-tumor drugs with improved BBB penetration.

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