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Fighting Multidrug Resistance with Ruthenium-Cyclopentadienyl Compounds: Unveiling the Mechanism of P-gp Inhibition.

Ricardo G TeixeiraIris C SalaroglioNuno F B OliveiraJoão G N SequeiraXavier FontrodonaIsabel RomeroMiguel MachuqueiroAna Isabel TomazM Helena GarciaChiara RigantiAndreia Valente
Published in: Journal of medicinal chemistry (2023)
The search for more effective and selective drugs to overcome cancer multidrug resistance is urgent. As such, a new series of ruthenium-cyclopentadienyl ("RuCp") compounds with the general formula [Ru(η 5 -C 5 H 4 R)(4,4'-R'-2,2'-bipy)(PPh 3 )] were prepared and fully characterized. All compounds were evaluated toward non-small cell lung cancer cells with different degrees of cisplatin sensitivity (A549, NCI-H2228, Calu-3, and NCI-H1975), showing better cytotoxicity than the first-line chemotherapeutic drug cisplatin. Compounds 2 and 3 (R' = -OCH 3 ; R = CHO ( 2 ) or CH 2 OH ( 3 )) further inhibited the activity of P-gp and MRP1 efflux pumps by impairing their catalytic activity. Molecular docking calculations identified the R-site P-gp pocket as the preferred one, which was further validated using site-directed mutagenesis experiments in P-gp. Altogether, our results unveil the first direct evidence of the interaction between P-gp and "RuCp" compounds in the modulation of P-gp activity and establish them as valuable candidates to circumvent cancer MDR.
Keyphrases
  • molecular docking
  • papillary thyroid
  • molecular dynamics simulations
  • squamous cell
  • stem cells
  • young adults
  • bone marrow
  • room temperature
  • lymph node metastasis
  • quantum dots