Interaction of a dimeric distamycin analog with poly(dA)poly(dT), poly[d(A–T)]poly[d(A–T)], and duplex O₂₃ at the origin of replication of the herpes simplex virus

The binding of a dimeric distamycin analog (Pt–bis–Dst) to poly[d(A–T)]poly[d(A–T)], poly(dA)poly(dT), and duplex O₂₃ with the sequence 5’-GCCAATATATATATATTATTAGG-3’, which occurs at the origin of replication (OriS) of the herpes simplex virus, was studied via UV and CD spectroscopy. The synthetic polyamide differs from the natural antibiotic in having two distamycin moieties that are linked via a glycine cis-diamino platinum group. The Pt–bis–Dst binding to poly[d(A–T)]poly[d(A–T)] and poly(dA)poly(dT) reached saturation at approximately one ligand molecule per eight bp. As the ligand–base pair ratio further increased, the maximum wavelength band tended to shift toward longer wavelengths in the CD spectra of complexes with poly[d(A–T)]poly[d(A–T)] and a shoulder appeared in the 290–310 nm spectral region that was absent from the CD spectra of complexes with lower ligand coverages. At higher ligand–oligonucleotide molar ratios, Pt–bis–Dst could bind to poly[d(A–T)]poly[d(A–T)] in the form of hairpins or associations that result from interactions between the distamycin moieties of two neighbor Pt–bis–Dst molecules. The structures of the complexes were stabilized by interactions between the pirrolcarboxamide moieties of two Pt–bis–Dst molecules absorbed on adjacent overlapping binding sites. The interactions could also be responsible for the concentration-dependent spectral changes that were observed during the formation of a complex between Pt–bis–Dst and poly[d(A–T)]poly[d(A–T)]. Spectral changes were almost absent in the case of Pt–bis–Dst binding to poly(dA)poly(dT). The binding of Pt–bis–Dst to duplex O₂₃ reached saturation at two ligand molecules per duplex, which contained a cluster of 18 AT pairs. At higher molar-concentration ratios, duplex CD spectra underwent changes similar to those that were observed for Pt–bis–Dst binding to poly[d(A–T)]poly[d(A–T)]. Testing Pt–bis–Dst for antiviral activity identified 1.5 μg/mL as a concentration that halved the cytopathic effect of the herpes simplex virus on Vero E6 cells; the selectivity index of antiviral action was 65; cytotoxicity was relatively low. The Pt–bis–Dst concentration that caused the death of approximately half of the cells was estimated at 100 μg/mL.