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Cytotoxic Imidazolyl-Mesalazine Ester-Based Ru(II) Complexes Reduce Expression of Stemness Genes and Induce Differentiation of Oral Squamous Cell Carcinoma

Pragya Kumari, Subhashis Ghosh, Sourav Acharya, Paromita Mitra, Souryadip Roy, Shilpendu Ghosh, Moumita Maji, Sandeep Singh, Arindam Mukherjee

2023Journal of Medicinal Chemistry12 citationsDOI

Abstract

The aggressiveness and recurrence of cancer is linked to cancer stem cells (CSCs), but drugs targeting CSCs may not succeed in the clinic due to the lack of a distinct CSC subpopulation. Clinical Pt(II) drugs can increase stemness. We screened 15 Ru II or Ir III complexes with mesalazine or 3-aminobenzoate Schiff bases of the general formulas [Ru(p-cym)L] +, [Ru(p-cym)L], and [Ir(Cp*)L] + (L = L1 – L9 ) and found three complexes ( 2, 12, and 13 ) that are active against oral squamous cell carcinoma (OSCC) CSCs. There is a putative oncogenic role of transcription factors (viz. NOTCH1, SOX2, c-MYC) to enhance the stemness. Our work shows that imidazolyl-mesalazine ester-based Ru II complexes inhibit growth of CSC-enriched OSCC 3D spheroids at low micromolar doses (2 μM). Complexes 2, 12, and 13 reduce stemness gene expression and induce differentiation markers ( Involucrin, CK10 ) in OSCC 3D cultures. The imidazolyl-mesalazine ester-based Ru II complex 13 shows the strongest effect. Downregulating c-MYC suggests that Ru II complexes may target c-MYC-driven cancers.

Topics & Concepts

MesalazineChemistrySOX2Cancer researchCancer stem cellCytotoxic T cellStem cellMolecular biologyTranscription factorStereochemistryGeneInternal medicineBiochemistryCell biologyBiologyMedicineIn vitroUlcerative colitisDiseaseMetal complexes synthesis and propertiesFerrocene Chemistry and ApplicationsClick Chemistry and Applications
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