New C2- and N3-Modified Thieno[2,3-d]Pyrimidine Conjugates with Cytotoxicity in the Nanomolar Range

Author(s):

Anelia Ts. Mavrova*, Stefan Dimov, Denitsa Yancheva*, Miroslav Rangelov, Diana Wesselinova and Emilia Naydenova   Pages 1201 - 1212 ( 12 )

Abstract:

Aims: The aim of the current study was to develop and explore a series of new cytotoxic agents based on the conjugation between the thieno[2,3-<i>d</i>]pyrimidine moiety and a second pharmacophore at the C2 or N3 position. <P> Background: As the thieno[2,3-<i>d</i>]pyrimidine core is a bioisostere of the 4-anilinoquinazoline, various new thienopyrimidine derivatives were synthesized by modifying the structure of the clinically used anticancer quinazoline EGFR inhibitors of the first generation – gefitinib, and second-generation – dacomitinib and canertinib. It was reported that some thieno[2,3-<i>d</i>]pyrimidine derivatives showed improved EGFR inhibitory activity. On the other hand, the benzimidazole heterocycle is present as a pharmacophore unit in the structure of many clinically used chemotherapeutic agents. Some 2-aminobenzimidazole derivatives, possessing anticancer activity, demonstrated EGFR inhibition and the benzimidazole derivative EGF816 is currently in the second phase of clinical trials. <P> Objective: The objectives of the study were the design of a novel series thieno[2,3-<i>d</i>]pyrimidines, synthesis of the compounds and investigation of their effects towards human cancer <i>HT-29, MDA-MB-231, HeLa, HepG2</i> and to normal human <i>Lep3</i> cell lines. (American Type Culture Collection, ATCC, Rockville, MD, USA). <P> Methods: The synthetic protocol implemented cyclocondensation of 2-amino-thiophenes and nitriles in an inert medium, aza- Michael addition to benzimidazole derivatives and nucleophylic substitution at the N3 place. MTS test was used in order to establish the cytotoxicity of the tested compounds. SAR analysis and <i>in silico</i> assessment of the inhibitory potential towards human oncogenic ^V599EB-Raf were performed using Molinspiration tool and Molecular Operating environment software. <P> Results: The MTS test data showed that almost all studied thieno[2,3-<i>d</i>]pyirimidines (9-13, 21-22 and 25) manifest high inhibitory effect on cell proliferation at nanomolar concentrations, whereas compounds 9 (IC₅₀ = 130 nM) and 10 (IC₅₀ = 261 nM) containing amino acid moiety, and 21 (IC₅₀ = 108 nM) possessing two thienopyrimidine moieties attached to a 1,3-disubstituted benzimidazole linker, revealed many times lower toxicity against Lep3 cells compared to the cancer cells. Thienopyrimidines 11-13 possessed high selectivity against <i>HeLa</i> cells. Compound 13 showed high inhibitory activity against <i>MDA-MB-231</i> and <i>HepG2</i>, with IC₅₀ 1.44 nM and 1.11 nM respectively. To outline the possible biological target of the studied coumpounds, their potential to interact with human oncogenic ^V599EB-Raf was explored by a docking study. As a result, it was suggested that the benzimidazolyl and glycyl fragments could enhance the binding ability of the new compounds by increasing the number of hydrogen bond acceptors and by stabilizing the inactive form of the enzyme. <P> Conclusion: The thienopyrimidines tested <i>in vitro</i> for human cancer <i>HT-29, MDA-MB-231, HeLa, HepG2</i> and normal human <i>Lep3</i> cell lines demonstrated cytotoxicity in the nanomolar range. It was established that compounds 9, 10 and 21 showed many times lower toxicity against normal <i>Lep3</i> cells that can provide a high selectivity towards all four cancer cell lines at small concentrations. Based on the analysis of the structure-activity relationship, the observed trends in the cytotoxicity could be related to the lipophilicity and the topological polar surface area of the tested compounds. The docking study on the potential of the new thieno[2,3-<i>d</i>]pyrimidine-4-ones to interact with mutant ^V599EB-Raf showed that the compounds might be able to stabilize the enzyme in its inactive form.

Keywords:

Thieno[2,3-d]pyrimidin-4(3H)-ones, cytotoxicity, HT-29, MDA-MB-231, HeLa, HepG2, SAR, B-raf.

Affiliation:

University of Chemical Technology and Metallurgy, Department of Organic Synthesis, 8 Kliment Ohridski Blvd., 1756 Sofia, University of Chemical Technology and Metallurgy, Department of Organic Synthesis, 8 Kliment Ohridski Blvd., 1756 Sofia, Institute of Organic Chemistry with Centre of Phytochemistry, Bulgarian Academy of Sciences, Acad. G. Bonchev Str., build. 9, 1113 Sofia, Institute of Organic Chemistry with Centre of Phytochemistry, Bulgarian Academy of Sciences, Acad. G. Bonchev Str., build. 9, 1113 Sofia, Institute of General and Comparative Pathology, Bulgarian Academy of Science, Acad. G. Bonchev Str., build. 25, 1113 Sofia, University of Chemical Technology and Metallurgy, Department of Organic Synthesis, 8 Kliment Ohridski Blvd., 1756 Sofia

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