trans-(NH3)2PtII-modified deoxyoligonucleotides as potential antisense agents: cross-linking reactions between two 12-mers

 An approach is presented which probes the possible use of trans-(NH₃)₂PtCl]⁺-modified deoxyoligonucleotides in the antisense strategy. It consists of (1) the selective platination of an oligonucleotide containing 11 pyrimidine (T, C) bases as well as a single guanine (G) as a Pt-anchoring group at the 5′-end to give trans-(NH₃)₂Pt{5′-d(G^N7T₂C₂T₂C₂T₂C}Cl]^10– 1 ("antisense strand") and (2) subsequent hybridization with the purine 12-mer 5′-d(GA₂G₂A₂G₂A₂G)^11– ("sense strand"). According to HPLC, three major species 2–4 are formed during reaction (2), all of which are cross-linking adducts between 1 and the sense strand, as confirmed by ESI MS and melting temperature measurements. Only for the major product 3 can a structure be proposed on the basis of 1D and 2D NMR spectra. According to these, G₁ of the antisense strand is cross-linked with G₂₀ via trans-(NH₃)₂Pt^II. The complementary overhangs of the duplex represent "sticky ends" and are, in principle, capable of associating into multimers of the duplex. Received: 29 March 1999 / Accepted: 26 July 1999