Synthesis, DNA binding, topoisomerases inhibition and cytotoxic properties of 4-arylcarboxamidopyrrolo-2-carboxyanilides

Carbocyclic Analogues of Distamycin and Netropsin

The DNA as the depository of genetic information is a natural target for chemotherapy. A lot of anticancer and antimicrobial agents derive their biological activity from their selective interaction with DNA in the minor groove and from their ability to interfere with biological processes such as enzyme catalysis, replication and transcription. The discovery of the details of minor groove binding drugs, such as netropsin and distamycin A, oligoamides built of 4-amino-1-methylpyrrole-2-carboxylic acid residues, allowed to develop various DNA sequence-reading molecules, named lexitropsins, capable of interacting with DNA precisely, strongly and with a high specificity, and at the same time exhibiting significant cytotoxic potential. Among such compounds, lexitropsins built of carbocyclic sixmembered aromatic rings occupy a quite prominent place in drug research. This work is an attempt to present current findings in the study of carbocyclic lexitropins, their structures, syntheses and biological investigations such as DNA-binding and antiproliferative activity.

Hybrid molecules between distamycin A and active moieties of antitumor agents

The DNA minor groove is an attractive target for the design and development of molecules able to specifically recognize predetermined DNA sequences. The pyrrole-amide skeleton of distamycin A has been also used as DNA sequence selective vehicle for the delivery of alkylating functions to DNA targets. Selectivity for specific sequences may be of particular importance in affecting the activity of regulatory genes (oncogenes and tumor suppressor genes). Recent work on a number of hybrid compounds, in which known antitumor compounds or simple active moieties of known antitumor agents have been tethered to distamycin frame or hairpin polyamides derived from distamycin, is reviewed. The DNA alkylating and growth inhibition activities against several tumor cell lines are reported and discussed in terms of their structural differences in relation to both the number of N-methyl pyrrolic rings and the type of the alkylating unit tethered to the oligopyrrolic frame.

DNA binding ligands targeting drug-resistant Gram-positive bacteria. Part 2: C-terminal benzimidazoles and derivatives

The synthesis and in vitro potency of DNA minor-groove binding antibacterials lacking the C-terminal amide bond are described. The crescent shaped molecules bear the positively charged amino group at an internal pyrrole unit instead of the C-terminus. Three structural parameters were investigated: the N-terminal unit, the internal amino group, and the C-terminal ring system. Several compounds demonstrated good in vitro potency against various Gram-positive bacteria and some molecules were moderately active against Escherichia coli, a representative Gram-negative strain.