Tat (transactivator of transcription) is a small HIV protein rich in arginines that interacts with a viral RNA structure called TAR (trans-activation responsive region). Tat-TAR interaction is essential for viral gene expression, replication and pathogenesis. Small molecules able to interfere with TAR and to compete for Tat binding possess antiviral activity due to inhibition of viral transcription and expression, thus impairing formation of infectious virions. We report here, the synthesis and biological evaluation of a new series of quinolone derivatives, namely 2-phenylquinolones, designed with the aim of interfering with the protein/RNA complex. These new derivatives are able to efficiently interfere with Tat/TAR complex in vitro depending on precise structural requirements as demonstrated by fluorescence quenching assay analysis
Syhtesis and Biological Evaluation of 2-Phenylquinolones Targeted at Tat/TAR Recognition
MANFRONI, GIUSEPPE;TABARRINI, Oriana;SABATINI, STEFANO;CECCHETTI, Violetta;FRAVOLINI, Arnaldo
2009
Abstract
Tat (transactivator of transcription) is a small HIV protein rich in arginines that interacts with a viral RNA structure called TAR (trans-activation responsive region). Tat-TAR interaction is essential for viral gene expression, replication and pathogenesis. Small molecules able to interfere with TAR and to compete for Tat binding possess antiviral activity due to inhibition of viral transcription and expression, thus impairing formation of infectious virions. We report here, the synthesis and biological evaluation of a new series of quinolone derivatives, namely 2-phenylquinolones, designed with the aim of interfering with the protein/RNA complex. These new derivatives are able to efficiently interfere with Tat/TAR complex in vitro depending on precise structural requirements as demonstrated by fluorescence quenching assay analysisI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
