Synthesis and anti-cancer activity of bis-amino-phosphine ligand and its ruthenium(II) complexes

Zelinda Engelbrecht, Kim Elli Roberts, Ayesha Hussan, Gershon Amenuvor, Marianne Jaqueline Cronjé, James Darkwa, Banothile C.E. Makhubela, Lungile Sitole

Research output: Contribution to journalArticlepeer-review

12 Citations (Scopus)

Abstract

The development of both chemotherapeutic drug resistance as well as adverse side effects suggest that the current chemotherapeutic drugs remain ineffective in treating the various types of cancers. The development of new metallodrugs presenting anti-cancer activity is therefore needed. Ruthenium complexes have gained a great deal of interest due to their promising anti-tumour properties and reduced toxicity in vivo. This study highlighted the effective induction of cell death in a malignant melanoma cell by two novel bis-amino-phosphine ruthenium(II) complexes referred to as GA105 and GA113. The IC50 concentrations were determined for both the complexes, the ligand and cisplatin, for comparison. Both complexes GA105 and GA113 displayed a high anti-cancer selectivity profile as they exhibited low IC50 values of 6.72 µM and 8.76 µM respectively, with low toxicity towards a non-malignant human cell line. The IC50 values obtained for both complexes were lower than that of cisplatin. The new complexes were more effective compared to the free ligand, GA103 (IC50 = >20 µM). Morphological studies on treated cells induced apoptotic features, which with further studies could indicate an intrinsic cell death pathway. Additionally, flow cytometric analysis revealed that the mode of cell death of complex GA113 was apoptosis. The outcomes herein give further insight into the potential use of selected Ru(II) complexes as alternative chemotherapeutic drugs in the future.

Original languageEnglish
Article number127492
JournalBioorganic and Medicinal Chemistry Letters
Volume30
Issue number20
DOIs
Publication statusPublished - 15 Oct 2020

Keywords

  • Amino-phosphine
  • Anti-cancer
  • Melanoma and Piano-Stool
  • Ruthenium(II)

ASJC Scopus subject areas

  • Biochemistry
  • Molecular Medicine
  • Molecular Biology
  • Pharmaceutical Science
  • Drug Discovery
  • Clinical Biochemistry
  • Organic Chemistry

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