Exploring the Anti-Cancer Mechanism of Novel 3,4'-Substituted Diaryl Guanidinium Derivatives

Pharmaceuticals (Basel). 2020 Dec 21;13(12):485. doi: 10.3390/ph13120485.

Abstract

We previously identified a guanidinium-based lead compound that inhibited BRAF through a hypothetic type-III allosteric mechanism. Considering the pharmacophore identified in this lead compound (i.e., "lipophilic group", "di-substituted guanidine", "phenylguanidine polar end"), several modifications were investigated to improve its cytotoxicity in different cancer cell lines. Thus, several lipophilic groups were explored, the di-substituted guanidine was replaced by a secondary amine and the phenyl ring in the polar end was substituted by a pyridine. In a structure-based design approach, four representative derivatives were docked into an in-house model of an active triphosphate-containing BRAF protein, and the interactions established were analysed. Based on these computational studies, a variety of derivatives was synthesized, and their predicted drug-like properties calculated. Next, the effect on cell viability of these compounds was assessed in cell line models of promyelocytic leukaemia and breast, cervical and colorectal carcinomas. The potential of a selection of these compounds as apoptotic agents was assessed by screening in the promyelocytic leukaemia cell line HL-60. The toxicity against non-tumorigenic epithelial MCF10A cells was also investigated. These studies allowed for several structure-activity relationships to be derived. Investigations on the mechanism of action of representative compounds suggest a divergent effect on inhibition of the MAPK/ERK signalling pathway.

Keywords: 3,4′-bis-guanidino; 3-amino-4′-guanidino; BRAF; HL-60; apoptosis; cancer cell viability; diphenyl ether; intramolecular hydrogen bond; phenyl pyridyl ether.