ChemInform Abstract: Recent Advances in the Synthesis of Carbazoles and Anellated Indoles with Antitumor Activity: DNA-Binding Ligands and Protein Kinase C Inhibitors

ChemInform Abstract: Antitumor Drug Design: DNA-Binding Ligands, Which Inhibit the Topoisomerase I

ChemInform Abstract: Photochemical Electrocyclization of 3-Vinylindoles (VIII) to Pyrido[2,3-a]- (IX), Pyrido[4,3-a]- (X) and Thieno[2,3-a]-carbazoles (XIII): Design, Synthesis, DNA Binding and Antitumor Cell Cytotoxicity.

Photochemical electrocyclisation of 3-vinylindoles to pyrido[2,3-a]-, pyrido[4,3-a]- and thieno[2,3-a]-carbazoles: Design, synthesis, DNA binding and antitumor cell cytotoxicity

In the context of the design and synthesis of DNA ligands, some new hetarene annelated carbazoles were synthesized. As lead structure the intercalating tetracyclic systems pyrido[2,3-a]- and pyrido[4,3-a]-carbazoles and in one case a thieno[2,3-a]-carbazole were taken into account. A dialkyl amino amidic chain was introduced to the planar chromophoric system with the intent to generate minor groove binding properties. The cytotoxicity of some compounds was examined by the NCI antitumor screening. Furthermore, biophysical as well as biochemical studies were performed in order to get some information about the DNA-binding properties and inhibition of DNA related functional enzymes of this new…

Advances in DNA-ligands with groove binding, intercalating and/or alkylating activity: chemistry, DNA-binding and biology.

It is known that DNA is a well-characterized intracellular target but its size and sequential characteristics make it an elusive target for selective drug action. Binding of low molecular weight ligands to DNA causes a variety of significant biological responses. In this context the main consideration is given to recent developments in DNA sequence selective binding agents bearing conjugated effectors because of their potential application in treatment of cancers, in diagnosis as well as in molecular biology. In the present review recent results about analogues of netropsins, distamycin A and of some lexitropsins and combilexins or related hybrid molecules with sequence reading, intercalati…

Design, synthesis and biological evaluation of new oligopyrrole carboxamides linked with tricyclic DNA-intercalators as potential DNA ligands or topoisomerase inhibitors.

In the context of the design and synthesis of minor groove binding and intercalating DNA ligands some new oligopyrrole carboxamides were synthesized. These hybrid molecules (combilexins) possess a variable and conformatively flexible spacer at the N-terminal end. As intercalating tricyclic systems acridone, acridine, anthraquinones and in a special case iminostilbene terminate the N-terminal end of the pyrrole chain. The cytotoxicity was examined by the NCI antitumor screening, furthermore, biophysical as well as biochemical studies were performed in order to get some information about the DNA binding properties and topoisomerase inhibition effect of this new series of molecules.

Nitrogen-Containing Hetarene Quinones

Design Synthesis and Biological/Biophysical Evaluation of New Oligopyrrole Carboxamides, Biscarbazoles, Oxocarbazoles and Benzo[a]carbazoles: Antitumor and Antioxidative Compounds

Advances in Marine Natural Products of the Indole and Annelated Indole Series: Chemical and Biological Aspects

Marine natural products, form a field of scientific endeavour, that has recently grown considerably. The isolation, biological evaluation, chemical properties and synthetic elaborations of products of marine organisms have attracted the attention of organic chemists, medicinal chemists, biologists and pharmacists. In this context a structurally and biologically highly interesting class is represented by the marine natural products containing an indole moiety in a pure substituted form or in an anellated form. The present review summarizes primarily the actual results concerning these products as new pharmacologically attractive lead compounds for drug design. The chemistry, biological evalu…

A Role for the β1-β2Loop in the Gating of 5-HT3Receptors

Based on theTorpedoacetylcholine receptor structure, Unwin and colleagues (Miyazawa et al., 2003; Unwin, 2005) hypothesized that the transduction of agonist binding to channel gate opening involves a “pin-into-socket” interaction between αV46 at the tip of the extracellular β1-β2loop and the transmembrane M2 segment and M2-M3 loop. We mutated to cysteine the aligned positions in the 5-HT3Aand 5-HT3Bsubunit β1-β2loops K81 and Q70, respectively. The maximal 5-HT-activated currents in receptors containing 5-HT3A/K81C or 5-HT3B/Q70C were markedly reduced compared with wild type. Desensitization of wild-type currents involved fast and slow components. Mutant currents desensitized with only the f…