6533b825fe1ef96bd128201d
RESEARCH PRODUCT
Quinoline anticancer agents active on DNA and DNA-interacting proteins: From classical to emerging therapeutic targets.
Gabriele La MonicaAnnamaria MartoranaAlessia BonoAntonino Lauriasubject
medicine.drug_classAntineoplastic Agents01 natural sciences03 medical and health scienceschemistry.chemical_compoundDrug DiscoverymedicineHumansAmsacrine030304 developmental biologyCell ProliferationPharmacology0303 health sciencesDNA Intercalators G-quadruplex Topoisomerase Epigenetic targets Antiproliferative compounds SAR studiesbiologyMolecular Structure010405 organic chemistryTopoisomeraseOrganic ChemistryQuinolineGeneral MedicineDNA NeoplasmSettore CHIM/08 - Chimica Farmaceutica0104 chemical sciencesDNA-Binding ProteinsG-QuadruplexesHistonechemistryBiochemistrybiology.proteinQuinolinesHistone deacetylaseCamptothecinDNATopoisomerase inhibitormedicine.drugdescription
Quinoline is one of the most important and versatile nitrogen heterocycles embodied in several biologically active molecules. Within the numerous quinolines developed as antiproliferative agents, this review is focused on compounds interfering with DNA structure or with proteins/enzymes involved in the regulation of double helix functional processes. In this light, a special focus is given to the quinoline compounds, acting with classical/well-known mechanisms of action (DNA intercalators or Topoisomerase inhibitors). In particular, the quinoline drugs amsacrine and camptothecin (CPT) have been studied as key lead compounds for the development of new agents with improved PK and tolerability properties. Moreover, notable attention has been paid to the quinoline molecules, which are able to interfere with emerging targets involved in cancer progression, as G-quadruplexes or the epigenetic ones (e.g.: histone deacetylase, DNA and histones methyltransferase). The antiproliferative and the enzymatic inhibition data of the reviewed compounds have been analyzed. Furthermore, concerning the SAR (structure-activity relationship) aspects, the most recurrent ligand-protein interactions are summarized, underling the structural requirements for each kind of mechanism of action.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2021-02-02 | European journal of medicinal chemistry |