Ellipticine is a naturally occurring alkaloid with a carbazole backbone, well known for their antitumor
activities, exerted through DNA intercalation, high DNA binding affinity and inhibition of the
topoisomerases [1]. However, because of onset of some side effects the therapeutic application of
Ellipticine and its derivatives used in clinic therapy, still remain limited [2]. Accordingly, with the aim to
reduce side effects and improving their biologic activities, the search for new Ellipticine analogues is always
demanded.
This work is focused on the creation of new library of benzothienoquinazolinones (4-9), analogues of
Ellipticine, in which both the carbazole moiety and the pyridine ring were replaced by a dibenzothiopheneand
a pyrimidine moiety, respectively. The synthesis of these 3-(alkyl(dialkyl)amino)benzothieno[2,3-
f]quinazolin-1(2H)-ones) was realized in a simple one-pot reaction using 3-aminodibenzothiophene as a
starting material (Figure 1).
These have shown an interesting anti-proliferative activity on two breast cancer cell lines, MCF-7 and MDAMB-
231. Molecular docking of these compounds was performed on the crystallographic enzyme structures
of Tubulin, Topoisomerase I and II. The simulation results showed that the compounds investigated bind
the enzymes with a relatively high affinity, at least in the low micromolar range. Other in vitro assays are in
progress to confirm the in silico results