SHORT MODIFIED ANTISENSE OLIGONUCLEOTIDES DIRECTED AGAINST HA-RAS POINT MUTATION INDUCE SELECTIVE CLEAVAGE OF THE MESSENGER-RNA AND INHIBIT T24 CELLS PROLIFERATION

We have used derivatized antisense oligodeoxynucleotides both in vitro and in vivo specifically to inhibit translation of the activated human oncogene Ha-ras. The oligonucleotides (5'-CCACACCGA-3') were targeted to a region of Ha-ras mRNA including the point mutation G --> T at the 12th codon which leads to a Gly --> Val substitution in the ras p21 protein. They were linked to an intercalating agent and/or to a hydrophobic tail, both to increase their affinity for their mRNA target and to enhance their uptake by tumor cells. A cell-free translation system was used to demonstrate an RNase H-dependent specific inhibition of activated ras protein synthesis. 50% inhibition was observed at a concentration of 0.5-mu-M of the most efficient oligonucleotide (5'-substitution with an acridine derivative and 3'-substitution by a dodecanol chain). This inhibitory effect stems from a point mutation-sensitive cleavage of the mRNA and it mirrors the growth inhibition obtained with T24 bladder carcinoma cells, which carry activated Ha-ras. The proliferation of HBL100 cells (non tumorigenic human mammary cell line) which carry two copies of normal Ha-ras was unaffected. This study shows that it is possible to design antisense agents that will inactivate the mutated oncogene but not the proto-oncogene which is generally essential to cell survival.