New Photoreactive mRNA Analogues for the Affinity Labeling of Ribosomes

Abstract

Chemical synthesis of the model mRNA analogues (AUGU₃, (pU)_n) bearing p-azidotetrafluorobenzamido, p-azidobenzamido or 2-nitro-5-azidobenzamido groups coupled to the 5′-terminal phosphate or to the C-8-position of adenosine is described. The first results of the photoaffinity labeling study of human placenta ribosomes are presented.     

Novel method for the synthesis of 2' -phosphorylated oligonucleotides

We have developed a new method for the preparation of oligodeoxyribonucleotides and oligo(2'-O-methylribonucleotides) that contain a 2'-phosphorylated ribonucleoside residue, and optimized it to avoid 2' -3' -isomerization and chain cleavage. Structures of the 2' -phosphorylated oligonucleotides were confirmed by MALDI-TOF MS and enzymatic digestion, and the stability of their duplexes with DNA and RNA was investigated. 2'-Phosphorylated oligonucleotides may be useful intermediates for the introduction of various chemical groups for a wide range of applications.     

Targeting insulin-like growth factor I with 10-23 DNAzymes: 2'-O-methyl modifications in the catalytic core enhance mRNA cleavage

Insulin-like growth factor I (IGF-I) and its cognate receptor (IGF-1R) contribute to normal cell function and to tumorigenesis. The role of IGF-I signaling in tumor growth has been demonstrated in vivo using nucleic acid-based strategies. Here, we designed the first 10-23 DNAzymes directed against IGF-I mRNA. Unlike antisense approaches and RNA interference that require protein catalysis, DNAzymes catalyze protein-free RNA cleavage. We identified target sequences and measured catalytic properties of differently designed DNAzymes on short synthetic RNA targets and on in vitro transcribed IGF-I mRNA. The most efficient cleavers were then transfected into cells, and their inhibitory effect was analyzed using reporter gene assays. We found that increasing the size of DNAzyme flanking sequences and modifications of the termini with 2'-O-methyl residues improved cleavage rates of target RNAs. Modification of the catalytic loop with six 2'-O-methyl ribonucleotides at nonessential positions increased or decreased catalytic efficiency depending on the mRNA target site. In cells, DNAzymes with 2'-O-methyl-modified catalytic cores and flanking sequences were able to inhibit reporter gene activity because of specific recognition and cleavage of IGF-I mRNA sequences. Mutant DNAzymes with inactive catalytic cores were unable to block reporter gene expression, demonstrating that the RNA cleaving ability of 10-23 DNAzymes contributed to inhibitory mechanisms. Our results show that nuclease-resistant 2'-O-methyl-modified DNAzymes with high catalytic efficiencies are useful for inhibiting IGF-I gene function in cells.     

Small interfering RNA targeted to IGF-IR delays tumor growth and induces proinflammatory cytokines in a mouse breast cancer model

Insulin-like growth factor I (IGF-I) and its type I receptor (IGF-IR) play significant roles in tumorigenesis and in immune response. Here, we wanted to know whether an RNA interference approach targeted to IGF-IR could be used for specific antitumor immunostimulation in a breast cancer model. For that, we evaluated short interfering RNA (siRNAs) for inhibition of in vivo tumor growth and immunological stimulation in immunocompetent mice. We designed 2'-O-methyl-modified siRNAs to inhibit expression of IGF-IR in two murine breast cancer cell lines (EMT6, C4HD). Cell transfection of IGF-IR siRNAs decreased proliferation, diminished phosphorylation of downstream signaling pathway proteins, AKT and ERK, and caused a G0/G1 cell cycle block. The IGF-IR silencing also induced secretion of two proinflammatory cytokines, TNF- α and IFN-γ. When we transfected C4HD cells with siRNAs targeting IGF-IR, mammary tumor growth was strongly delayed in syngenic mice. Histology of developing tumors in mice grafted with IGF-IR siRNA treated C4HD cells revealed a low mitotic index, and infiltration of lymphocytes and polymorphonuclear neutrophils, suggesting activation of an antitumor immune response. When we used C4HD cells treated with siRNA as an immunogen, we observed an increase in delayed-type hypersensitivity and the presence of cytotoxic splenocytes against wild-type C4HD cells, indicative of evolving immune response. Our findings show that silencing IGF-IR using synthetic siRNA bearing 2'-O-methyl nucleotides may offer a new clinical approach for treatment of mammary tumors expressing IGF-IR. Interestingly, our work also suggests that crosstalk between IGF-I axis and antitumor immune response can mobilize proinflammatory cytokines.     

Short double-stranded RNA with immunostimulatory activity: sequence dependence

Small interfering RNAs (siRNA) are able to activate the mammalian innate immune system depending on their structure, sequence, and method of delivery. The immunostimulatory activity of double-stranded RNA can be applied to antiviral and antitumor therapy. Here we identified a set of 19-bp RNA duplexes with 3-nucleotid overhangs in the 3' ends that display immunostimulating activity (here and after immunostimulating RNA, or isRNA) and studied their sequence/activity relationships. It was found that the introduction of substitutions in the middle part of the isRNA sequence (10-16 positions counting from the 5' end of strand 1) does not alter the antiproliferative activity, while substitutions in the 3' end region of isRNA substantially reduce it. isRNAs efficiently inhibit the proliferation of human oral epidermoid carcinoma cells [half-maximal inhibitory concentration (IC(50)) values varied from 10 to 100 nM]. Our research demonstrated that antiproliferative effects of isRNAs are related to cell growth arrest, rather than the induction of apoptosis. These isRNAs strongly stimulate the synthesis of interferon-α (IFN-α), and to a lesser extent the synthesis of tumor necrosis factor (TNF-α) and interleukin-6 (IL-6), in adherent peripheral blood mononuclear cells. An intravenous injection of isRNA/Lipofectamine complexes into C57BL mice increases IFN-α and IL-6 levels in the blood serum up to 15-fold and 3-fold, respectively, compared to the control mice. The results obtained clearly demonstrate the pronounced immunostimulatory and antiproliferative properties of the isRNAs under study. Hence, these short double-stranded RNAs can be considered as potential agents for the therapy of oncological and viral diseases.     

Carrier-free cellular uptake and the gene-silencing activity of the lipophilic siRNAs is strongly affected by the length of the linker between siRNA and lipophilic group

The conjugation of siRNA to molecules, which can be internalized into the cell via natural transport mechanisms, can result in the enhancement of siRNA cellular uptake. Herein, the carrier-free cellular uptake of nuclease-resistant anti-MDR1 siRNA equipped with lipophilic residues (cholesterol, lithocholic acid, oleyl alcohol and litocholic acid oleylamide) attached to the 5'-end of the sense strand via oligomethylene linker of various length was investigated. A convenient combination of H-phosphonate and phosphoramidite methods was developed for the synthesis of 5'-lipophilic conjugates of siRNAs. It was found that lipophilic siRNA are able to effectively penetrate into HEK293, HepG2 and KB-8-5 cancer cells when used in a micromolar concentration range. The efficiency of the uptake is dependent upon the type of lipophilic moiety, the length of the linker between the moiety and the siRNA and cell type. Among all the conjugates tested, the cholesterol-conjugated siRNAs with linkers containing from 6 to 10 carbon atoms demonstrate the optimal uptake and gene silencing properties: the shortening of the linker reduces the efficiency of the cellular uptake of siRNA conjugates, whereas the lengthening of the linker facilitates the uptake but retards the gene silencing effect and decreases the efficiency of the silencing.     

Binary hammerhead ribozymes with improved catalytic activity

A new design of binary hammerhead ribozymes displaying high catalytic activity and nucleolytic stability is described. These catalytic structures consist of two partially complementary oligoribonucleotides, capable of assembling into the hammerhead-like structure without tetraloop II on binding to the RNA target. A series of these binary ribozymes targeting the translation initiation region of multiple drug resistance gene mdr1 mRNA was synthesized and assessed in terms of catalytic activity under single and multiple reaction turnover conditions. Enhanced nuclease resistance of the binary ribozymes was achieved by incorporation of 2'-modified nucleotides at selected positions, along with addition of a 3'-3'-linked thymidine cap. The new binary ribozymes exhibit higher RNA cleavage activity than their full-length analogs because of faster dissociation of cleavage products. Furthermore, an excess of one of the ribozyme strands provides the possibility to unfold structured regions of the target RNA and facilitate productive complex formation.     

Impact of chemical modifications in the structure of isRNA on its antiproliferative and immunostimulatory properties

Short double-stranded RNAs, depending on their structure, sequence, and the method of delivery to cells, can activate the system of innate and adaptive immunity. The immunostimulatory activity of nucleic acids can be used in antitumor and antiviral therapy. We have previously identified a biologically active immunostimulatory 19-bp dsRNA (isRNA) with 3′-nucleotide overhangs, which inhibits the proliferation of tumor cells, stimulates interferon synthesis, and suppresses the growth and metastasis of tumors. Here, we have studied the impact of chemical modifications in the isRNA structure and the type of the transfection agent on the antiproliferative and immunostimulatory properties of isRNA. It has been shown that the attachment of an aminohexyl group or a cholesterol residue to the 5′-terminus of the first strand of the isRNA duplex does not impair its antiproliferative and immunostimulatory properties in vitro and in vivo when it is used in complex with a transfection agent, whereas the modification at the 5′-end of the second strand has an adverse effect on the biological activity of isRNA. It has been found that, when used without the transfection agent, isRNA conjugated with a cholesterol residue does not display antiproliferative and immunostimulatory properties. The use of isRNA in complex with low-toxicity liposomes 2Х3-DOPE enhances its activity: the intravenous injection of the isRNA/2Х3-DOPE complex induces a 55-fold increase in the level of interferon α (INF-α) in the murine blood 6 h after the injection, which is significantly higher than the INF-α level after the injection of the isRNA/Lipofectamine 2000 complex. The cytoplasmic localization of isRNA is crucially important for the manifestation of its antiproliferative activity since the selective inhibition of the dsRNA cytoplasmic sensor PKR (dsRNA-dependent protein kinase R) by 2-aminopurine completely blocks the antiproliferative effect of isRNA.