A novel 111In-labeled antisense DNA probe with multi-chelating sites (MCS-probe) showing high specific radioactivity and labeling efficiency

Abstract

A multi-aminolinked oligodeoxynucleotide (ODN) was synthesized by substitution of dT with aminolinked dU in the sequence, following conjugation with isothiocyanobenzyl-EDTA (IBE) for 111In labeling. As a model target gene, the c-erbB-2 protooncogene was used. The probability of the number of aminolinked dU in the 20mer ODN was 5, but there were actually 3 and 4 in the selected antisense and sense ODNs, respectively. The IBE/ODN conjugation levels of probes with multi-chelating sites (MCS-probe) were 1.6 (antisense) and 2.4 (sense), more than 50 times higher than those of our previous studies using 5'-end aminolinked ODNs (IBE/ODN = 0.03). Labeling studies using the MCS-probe and 111In indicated that specific radioactivity as high as 48 MBq/nmol could be obtained with a labeling efficiency of over 90%. The 111In-antisense-MCS-probe could bound to sense ODN under physiological conditions, but the 111In-sense-MCA-probe could not. Thus, side-chain modification of ODN for metal labeling is considered to be useful for antisense techniques.