Background/Objectives: Bcr-Abl inhibitors such as imatinib have been used to treat chronic myeloid leukemia (CML). However, the efficacy of these drugs has diminished due to mutations in the kinase domain, notably the T315I mutation. Therefore, in this study, new purine derivatives were designed as Bcr-Abl inhibitors based on 3D-QSAR studies. Methods: A database of 58 purines that inhibit Bcr-Abl was used to construct 3D-QSAR models. Using chemical information from these models, a small group of new purines was designed, synthesized, and evaluated in Bcr-Abl. Viability assays were conducted on imatinib-sensitive CML cells (K562 and KCL22) and imatinib-resistant cells (KCL22-B8). In silico analyses were performed to confirm the results. Results: Seven purines were easily synthesized (7a-g). Compounds 7a and 7c demonstrated the highest inhibition activity on Bcr-Abl (IC50 = 0.13 and 0.19 μM), surpassing the potency of imatinib (IC50 = 0.33 μM). 7c exhibited the highest potency, with GI50 = 0.30 μM on K562 cells and 1.54 μM on KCL22 cells. The GI50 values obtained for non-neoplastic HEK293T cells indicated that 7c was less toxic than imatinib. Interestingly, KCL22-B8 cells (expressing Bcr-AblT315I) showed greater sensitivity to 7e and 7f than to imatinib (GI50 = 13.80 and 15.43 vs. >20 μM, respectively). In silico analyses, including docking and molecular dynamics studies of Bcr-AblT315I, were conducted to elucidate the enhanced potency of 7e and 7f. Thus, this study provides in silico models to identify novel inhibitors that target a kinase of significance in CML.

• Keywords
• 3D-QSAR, Bcr-Abl inhibitors, chronic myeloid leukaemia, docking studies, molecular dynamics, purine derivatives,
• Publication type
• Journal Article MeSH

Cancer represents one of the most important and often fatal threats in the human population. Regarding the natural products, the purine scaffold appears in the purine bases in nucleic acids. Purine and its natural derivatives display a number of pharmacological effects. Previous investigations revealed that different compounds bearing the purine scaffold in their molecules belong to a group of potent agents for cancer treatment. Therefore, this review focuses on summarizing recently designed agents for potential cancer treatment bearing the purine scaffold as the key structural motif in the molecules. The reviewed structures clearly show the advantages and disadvantages of different substituents of the key scaffold that affect the final cytotoxic effects of the studied structures. The structure-activity relationship analysis shows a summary of different but potent compounds mentioned in this review and identifies the compounds receiving priority importance due to their high cytotoxicity and exceptional physicochemical characteristics. The effects of metal coordination, the formation of convenient conjugated molecules, and supramolecular self-assembly resulting in the production of biologically active nanovesicles and other nanoassemblies are also demonstrated. The reviewed original studies clearly showed the possible advantages of (a) metal ion coordination, (b) the formation of conjugates, and (c) designing smart and biocompatible nanoassemblies for biological activity in comparison with the characteristics of the parent compounds. This review is based on the most recent articles published in the last two years, 2023-2024, and it represents work with a highly interdisciplinary nature. Even if these original articles are not too numerous within the given period, the investigations published therein have clearly documented the importance of the purine scaffold in pharmacology and in medicinal and supramolecular chemistry.

• Publication type
• Journal Article MeSH
• Review MeSH

Bcr-Abl is an oncoprotein with aberrant tyrosine kinase activity involved in the progression of chronic myeloid leukemia (CML) and has been targeted by inhibitors such as imatinib and nilotinib. However, despite their efficacy in the treatment of CML, a mechanism of resistance to these drugs associated with mutations in the kinase region has emerged. Therefore, in this work, we report the synthesis of 14 new 2,6,9-trisubstituted purines designed from our previous Bcr-Abl inhibitors. Here, we highlight 11b, which showed higher potency against Bcr-Abl (IC50 = 0.015 μM) than imatinib and nilotinib and exerted the most potent antiproliferative properties on three CML cells harboring the Bcr-Abl rearrangement (GI50 = 0.7-1.3 μM). In addition, these purines were able to inhibit the growth of KCL22 cell lines expressing Bcr-AblT315I, Bcr-AblE255K, and Bcr-AblY253H point mutants in micromolar concentrations. Imatinib and nilotinib were ineffective in inhibiting the growth of KCL22 cells expressing Bcr-AblT315I (GI50 > 20 μM) compared to 11b-f (GI50 = 6.4-11.5 μM). Molecular docking studies explained the structure-activity relationship of these purines in Bcr-AblWT and Bcr-AblT315I. Finally, cell cycle cytometry assays and immunodetection showed that 11b arrested the cells in G1 phase, and that 11b downregulated the protein levels downstream of Bcr-Abl in these cells.

• Keywords
• Bcr-Abl inhibitors, TKI-resistant cells, chronic myeloid leukemia, in silico studies, purine derivatives,
• Publication type
• Journal Article MeSH

We report 31 new compounds designed, synthesized and evaluated on Bcr-Abl, BTK and FLT3-ITD as part of our program to develop 2,6,9-trisubstituted purine derivatives as inhibitors of oncogenic kinases. The design was inspired by the chemical structures of well-known kinase inhibitors and our previously developed purine derivatives. The synthesis of these purines was simple and used a microwave reactor for the final step. Kinase assays showed three inhibitors with high selectivity for each protein that were identified: 4f (IC50 = 70 nM for Bcr-Abl), 5j (IC50 = 0.41 μM for BTK) and 5b (IC50 = 0.38 μM for FLT-ITD). The 3D-QSAR analysis and molecular docking studies suggested that two fragments are potent and selective inhibitors of these three kinases: a substitution at the 6-phenylamino ring and the length and volume of the alkyl group at N-9. The N-7 and the N-methyl-piperazine moiety linked to the aminophenyl ring at C-2 are also requirements for obtaining the activity. Furthermore, most of these purine derivatives were shown to have a significant inhibitory effect in vitro on the proliferation of leukaemia and lymphoma cells (HL60, MV4-11, CEM, K562 and Ramos) at low concentrations. Finally, we show that the selected purines (4i, 5b and 5j) inhibit the downstream signalling of the respective kinases in cell models. Thus, this study provides new evidence regarding how certain chemical modifications of purine ring substituents provide novel inhibitors of target kinases as potential anti-leukaemia drugs.

• Keywords
• 3D-QSAR, leukaemia, molecular docking, purine derivatives, tyrosine kinases inhibitors,
• Publication type
• Journal Article MeSH