Simian Virus 40 Large T-Antigen G-Quadruplex DNA Helicase Inhibition by G-Quadruplex DNA-Interactive Agents

Abstract

On the basis of growing evidence for G-quadruplex DNA structures in genomic DNA and the presumed need to resolve these structures for DNA replication, the G-quadruplex DNA unwinding ability of a prototypical replicative helicase, SV40 large T-antigen (T-ag), was investigated. Here, we demonstrate that this G-quadruplex helicase activity is robust and comparable to the duplex helicase activity of T-ag. Analysis of the SV40 genome demonstrates the presence of sequences that may form intramolecular G-quadruplexes, which are the presumed natural substrates for the G-quadruplex helicase activity of T-ag. A number of G-quadruplex-interactive agents as well as new perylene diimide (PDI) derivatives have been investigated as inhibitors of both the G-quadruplex and the duplex DNA helicase activities of T-ag. A unique subset of these G-quadruplex-interactive agents inhibits the G-quadruplex DNA unwinding activity of T-ag, relative to those reported to inhibit G-quadruplex DNA unwinding by RecQ-family helicases. We also find that certain PDIs are both potent and selective inhibitors of the G-quadruplex DNA helicase activity of T-ag. Surface plasmon resonance and fluorescence spectroscopic G-quadruplex DNA binding studies of these T-ag G-quadruplex helicase inhibitors have been carried out, demonstrating the importance of attributes in addition to binding affinity for G-quadruplex DNA that may be important for inhibition. The identification of potent and selective inhibitors of the G-quadruplex helicase activity of T-ag provides tools for probing the specific role of this activity in SV40 replication.