Suppression of c-myc proto-oncogene expression by small interfering RNA (siRNA) in human epidermoid carcinoma KB-3-1 and neuroblastoma SK-N-MC cell lines was investigated. The siRNA duplex targeted to the exon 3 of c-myc mRNA (siRNA-I) was prepared by in vitro transcription using T7 RNA polymerase and short double-stranded DNA (dsDNA) templates. siRNA-I was shown to efficiently decrease c-myc mRNA expression in both tumor cell lines and to arrest their proliferation. Incubation of KB-3-1 cells with 150 nM siRNA-I results in a 92% decrease in the c-myc mRNA level and an 83% decrease in the protein level. In SK-N-MC cells, 150 nM siRNA-I causes a 60% decrease in the c-myc mRNA level and a 55% decrease in the protein level. The reduction of the c-myc mRNA level correlates with the inhibition of cell proliferation; 150 nM siRNA-I causes a 2.5-fold reduction in the SK-N-MC proliferation rate and a 15-fold decrease in the proliferation rate and complete arrest of cell division in KB-3-1 cells. siRNA-I has little effect on proliferation of the IMR-32 cells that overexpress the N-myc but not the c-myc gene, demonstrating that siRNA-I antiproliferation activity is mediated by specific block of c-myc expression.
Inhibition of p-glycoprotein (PGP) expression and reverse of multidrug resistance (MDR) phenotype in KB-8-5 cells by synthetic 21-bp double-stranded oligoribonucleotides were investigated. siRNA constructs for the efficient down regulation of MDR1 that are active in nanomolar concentrations and cause reversal of MDR phenotype in cells were developed.
Interaction of oligonucleotides condensed into long concatemeric complexes with cancer cells was investigated. Pairs of 24- and 25-mer oligodeoxyribonucleotides were designed so that they could hybridize and form concatemeric structures. Pre-assembling of the oligonucleotides into concatemers considerably enhanced their ability to bind to human embryo kidney 293 cells and neuroblastoma IMR-32 cells as compared to free oligonucleotides. Efficiency of concatemers binding to the cells is improved with increase of the length and concentration of concatemeric complexes. The obtained results suggest incorporation of pharmacologically active oligonucleotides into concatemeric complexes as an approach to improvement of their cellular interaction.
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