[Cholesterol-modified anti-MDR1 small interfering RNA: uptake and biological activity].

Small interfering RNAs (siRNA) are considered to be potent agents for specific gene silencing, but troubles in delivery of siRNA into cells limit their biomedical application. An accumulation of siRNA coupled with cholesterol residue at the 5'-end of the "passenger" strand (chol-siPHK) was investigated in HEK293, HepG2, SC1, and KB-8-5 cells. In the absence of a transfectant levels of both unmodified and chol-siRNAs were very low, whereas transfectant substantially increased transfection rate in all cell lines; in HEK293, SC1, and KB-8-5 cells transfection efficiency for the chol-siRNA being higher than that for the corresponding siRNA. Multiple drug resistance phenotype reversing activity of anti-MDR1-siRNAs targeted to the 557-577 region of MDR1 gene mRNA was investigated in KB-8-5 cancer cells. The chol-siRNA induced cancer cells' death in the presence of vinblastine doses tolerated before more effectively than the conventional siRNA did.

[Oligo(2'-O-methylribonucleotides) and their derivatives: III. 5'-mono- and 5'-bispyrenyl derivatives of oligo(2'-O-methylribonucleotides) and their 3'-modified analogues: synthesis and properties].

5'-Pyrenylmethylphosphoramidite and 5'-bispyrenylmethylphosphordiamidite derivatives of oligo(2'-O-methylribonucleotides) and their analogues with thymidine attached at their 3'-termini by a 3'-3'-phosphodiester internucleotide bond (inverted thymidine) were synthesized. The effect of the pyrene residue(s) on the thermal stability of duplexes of the modified oligonucleotides with RNA and DNA was studied. A possibility of detection of hybridization of 5'-mono- and 5'-bispyrenyl derivatives with RNA and DNA targets in solution was demonstrated according to the changes in fluorescence. 5'-Pyrenylmethylphosphoramidite derivatives of oligo(2'-O-methylribonucleotides) and their inverted analogues were shown to serve as sensitive probes for the detection of oligonucleotide substitutions in RNA and DNA by the method of thermal denaturation of the formed duplexes detected according to changes in their fluorescence.

[Protein S3 in the human 80S ribosome adjoins mRNA from 3'-side of the A-site codon].

The protein environment of mRNA 3' of the A-site codon (the decoding site) in the human 80S ribosome was studied using a set of oligoribonucleotide derivatives bearing a UUU triplet at the 5'-end and a perfluoroarylazide group at one of the nucleotide residues at the 3'-end of this triplet. Analogues of mRNA were phased into the ribosome using binding at the tRNAPhe P-site, which recognizes the UUU codon. Mild UV irradiation of ribosome complexes with tRNAPhe and mRNA analogues resulted in the predominant crosslinking of the analogues with the 40S subunit components, mainly with proteins and, to a lesser extent, with rRNA. Among the 40S subunit ribosomal proteins, the S3 protein was the main target for modification in all cases. In addition, minor crosslinking with the S2 protein was observed. The crosslinking with the S3 and S2 proteins occurred both in triple complexes and in the absence of tRNA. Within triple complexes, crosslinking with S15 protein was also found, its efficiency considerably falling when the modified nucleotide was moved from positions +5 to +12 relative to the first codon nucleotide in the P-site. In some cases, crosslinking with the S30 protein was observed, it was most efficient for the derivative containing a photoreactive group at the +7 adenosine residue. The results indicate that the S3 protein in the human ribosome plays a key role in the formation of the mRNA binding site 3' of the codon in the decoding site.

[C-domain of translation termination factor eRF1 neighbors stop codon at the 80S ribosomal A site].

Positioning of stop codon and the adjacent triplet downstream of it with respect to the components of human 80S termination complex was studied with the use of mRNA analogues that bore stop signal UPuPuPu (Pu is A or G) and photoactivatable perfluoroaryl azide group. This group was attached to one of nucleotides of the stop signal or 3' of it (in positions +4 to +9 with respect to the first nucleotide of the P site codon). It was shown that upon mild UV irradiation the mRNA analogues crosslinked to components of model complexes imitating state of 80S ribosome in the course of translation termination. It was found that termination factors eRF1 and eRF3 do not affect mutual arrangement of stop signal and the 18S rRNA. Factor eRF1 was shown to cross-link to modified nucleotides in positions +5 to +9 (ability of eRF1 to cross-link to stop codon nucleotide in position +4 was shown earlier). Fragments of eRF1 containing cross-linking sites of the mRNA analogues were determined. In fragment 52-195 (containing the N-domain and a part of the M-domain) we have found cross-linking sites of the analogues that bore modifying groups on A or G in positions +5 to +9 or at the terminal phosphate of nucleotide in position +7. For mRNA analogues bearing modifying groups on G site of cross-linking from positions +5 to +7 was found in the eRF1 fragment

[Protein environment of the sense codon of the template in the A site of the human ribosome as inferred from crosslinking to oligoribonucleotide derivatives]. / Belkovoe okruzhenie smyslovogo kodona matritsy v A-uchastke ribosom cheloveka po dannym fotosshivok s proizvodnymi oligoribonukloeotidov.

The protein environment of each nucleotide of the template codon located in the A site of the human ribosome was studied with UUCUCAA and UUUGUU derivatives containing a Phe codon (UUC and UUU, respectively) and a perfluoroarylazido group at U4, U5, or U6. The analogs were positioned in the ribosome with the use of tRNA(Phe), which is cognate to the UUC or UUU codon and directs it to the P site, bringing a modified codon in the A site with a modified nucleotide occupying position +4, +5, or +6 relative to the first nucleotide of the P-site codon. On irradiation of ribosome complexes with tRNA(Phe) and mRNA analogs with mild UV light, the analogs crosslinked predominantly to the 40S subunit, modifying the proteins to a greater extent than the rRNA. The 18S rRNA nucleotides crosslinking to the analogs were identified previously. Of the small-subunit proteins, S3 and S15 were the major targets of modification in all cases. The former was modified both in ternary complexes and in the absence of tRNA, and the latter, only in ternary complexes. The extent of crosslinking of mRNA analogs to S15 decreased when the modified nucleotide was shifted from position +4 to position +6. The results were collated with the data on ribosomal proteins located at the decoding site of the 70S ribosome, and conclusion was made that the protein environment of the A-site codon strikingly differs between bacterial and eukaryotic ribosomes.

[Highly conserved region 1816-1831 of the 18S ribosomal RNA is close to the first nucleotide of the A-site codon in elongation and termination of translation]. / Vysokokonservativnyi uchastok 1816-1831 18S ribosomnoi RNK sblizhen s pervym nukleotidom kodona v A-uchastke ribosomy pri élongatsii i terminatsii transliatsii.

Two mRNA analogs, pUUCUAAA (with stop codon UAA) and pUUCUCAA (with Ser codon UCA) containing a perfluoroarylazido group at U4, were used to study the position relative to the 18S rRNA for the first nucleotide of the codon located in the A site of the human 80S ribosome. To place UAA or UCA in the A site, UCC-recognizing tRNAPhe was bound in the P site. With each analog, crosslinking was detected for highly conserved fragment 1816-1831, which contains invariant dinucleotide A1823/A1824 and is in helix 44 at the 3' end of the 18S rRNA. Since 18S rRNA modification did not depend on whether the U4 photoreactive group was in the sense or stop codon, it was assumed that polypeptide chain release factor 1 directly recognizes the trinucleotide of a stop codon located in the A site.

[The mRNA codon environment at the P and E sites of human ribosomes deduced from photo crosslinking with pUUUGUU]. / Okruzhenie kodonov mRNK v P- i E-uchastkakh ribosom cheloveka po dannym fotosshivok s proizvodnymi pUUUGUU.

Three mRNA analogs--derivatives of hexaribonucleotide pUUUGUU comprising phenylalanine and valine codons with a perfluoroarylazido group attached to the C5 atom of the uridine residue at the first, second, or third position--were used for photocrosslinking with 80S ribosomes from human placenta. The mRNA analogs were positioned on the ribosome with tRNA recognizing these codons: UUU was at the P site if tRNA(Phe) was used, while tRNA(Val) was used to put there the GUU codon (UUU at the E site). Thus, the crosslinking group of mRNA analog might occupy positions -3 to +3 with respect to the first nucleotide of the codon at the P site. Irradiation of the complexes with soft UV light (lambda > 280 nm) resulted in the crosslinking of pUUUGUU derivatives with 18S RNA and proteins in the ribosome small subunit. The crosslinking with rRNA was observed only in the presence of tRNA. The photoactivatable group in positions -1 to +3 binds to G1207, while that in positions -2 or -3 binds to G961 of 18S RNA. In all cases, we observed crosslinking with S2 and S3 proteins irrespective of the presence of tRNA in the complex. Crosslinking with S23 and S26 proteins was observed mainly in the presence of tRNA when modified nucleotide occupied the +1 position (for both proteins) or the -3 position (for S26 protein). The crosslinking with S5/S7 proteins was substantial when modified nucleotide was in the -3 position, this crosslinking was not observed in the absence of tRNA.

[Arrangement of the sense and terminating codons of the template in the A-segment of human ribosomes from photocrosslinking data withe oligonucleotide derivatives]. / Raspolozhenie smyslovogo i terminiruiushchego kodonov matritsy v A-uchastke ribosom cheloveka po dannym fotosshivok i proizvodnymi oligoribonukleotidov.

Oligoribonucleotide derivatives containing Phe codon UUC along with a 3'-flanking sense codon or stop codon carrying a perfluoroarylazido group at G or U were used to study the position of each nucleotide of the latter codon relative to the 18S rRNA in the A site of the 80S ribosome. To place the modified sense or stop codon in the A site, UCC-recognizing tRNA(Phe) was bound in the P site. Regardless of the position in the sense or stop codon, the modified nucleotide crosslinked with invariant dinucleotide A1823/A1824 or nucleotide A1825 in helix 44 close to the 3' end of the 18S rRNA. Located in the second or third position of either codon, the modified G bound with invariant nucleotide G626, which is in the evolutionarily conserved 530 stem-loop segment. The results were collated with the X-ray structure of the bacterial ribosome, and the template codon was assumed to be similarly arranged relative to the small-subunit rRNA in various organisms.