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Design of Two New Sulfur Derivatives of Perezone: In Silico Study Simulation Targeting PARP-1 and In Vitro Study Validation Using Cancer Cell Lines.

Alejandro Rubiales-MartínezJoel O MartínezElvia Mera-JiménezJavier Pérez-FloresGuillermo Téllez-IsaiasRené Miranda RuvalcabaMaricarmen Hernández-RodríguezTeresa Mancilla PercinoMartha Edith Macías PérezMaría Inés Nicolás Nicolás-Vázquez
Published in: International journal of molecular sciences (2024)
Poly-ADP-Ribose Polymerase (PARP-1) is an overexpressed enzyme in several carcinomas; consequently, the design of PARP-1 inhibitors has acquired special attention. Hence, in the present study, three compounds ( 8 - 10 ) were produced through a Michael addition protocol, using phenylmethanethiol, 5-fluoro-2-mercaptobenzyl alcohol, and 4-mercaptophenylacetic acid, respectively, as nucleophiles and perezone as the substrate, expecting them to be convenient candidates that inhibit PARP-1. It is convenient to note that in the first stage of the whole study, the molecular dynamics (MD) simulations and the quantum chemistry studies of four secondary metabolites, i.e., perezone ( 1 ), perezone angelate ( 2 ), hydroxyperezone ( 3 ), and hydroxyperezone monoangelate ( 4 ), were performed, to investigate their interactions in the active site of PARP-1. Complementarily, a docking study of a set of eleven sulfur derivatives of perezone ( 5 - 15 ) was projected to explore novel compounds, with remarkable affinity to PARP-1. The molecules 8 - 10 provided the most adequate results; therefore, they were evaluated in vitro to determine their activity towards PARP-1, with 9 having the best IC 50 (0.317 µM) value. Additionally, theoretical calculations were carried out using the density functional theory (DFT) with the hybrid method B3LYP with a set of base functions 6-311++G(d,p), and the reactivity properties were compared between the natural derivatives of perezone and the three synthesized compounds, and the obtained results exhibited that 9 has the best properties to bind with PARP-1. Finally, it is important to mention that 9 displays significant inhibitory activity against MDA-MB-231 and MCF-7 cells, i.e., 145.01 and 83.17 µM, respectively.
Keyphrases
  • molecular dynamics
  • density functional theory
  • dna damage
  • dna repair
  • oxidative stress
  • climate change
  • small molecule
  • cell death
  • cancer therapy
  • high grade
  • cell cycle arrest