Showing papers in "Nucleosides, Nucleotides & Nucleic Acids in 2005"
TL;DR: A number of terminal phosphate-labeled nucleotides with three or more phosphates and with varied length linkers attached between the terminal phosphate and the dye have been synthesized and tested as substrates for different DNA and RNA polymerases.
Abstract: A number of terminal phosphate-labeled nucleotides with three or more phosphates and with varied length linkers attached between the terminal phosphate and the dye have been synthesized. These nucleotides have been tested as substrates for different DNA and RNA polymerases. We have also explored their utility in DNA sequencing, SNP analysis, nucleic acid amplification, quantitative PCR, and other biochemical assays.
91 citations
TL;DR: PMEO-D APy and (R)-PMPO-DAPy, akin to PMEA and ( R)-PMPA, proved particularly active against HIV-1, HIV-2, and the murine retrovirus Moloney sarcoma virus (MSV).
Abstract: Three acyclic nucleoside phosphonates (ANPs) have been formally approved for clinical use in the treatment of 1) cytomegalovirus retinitis in AIDS patients (cidofovir, by the intravenous route), 2) chronic hepatitis B virus (HBV) infections (adefovir dipivoxil, by the oral route), and 3) human immunodeficiency virus (HIV) infections (tenofovir disoproxil fumarate, by the oral route). The activity spectrum of cidofovir {(S)- 1-[3-hydroxy-2-(phosphonomethoxy)propyl]cytosine [(S)-HPMPC)]}, like that of (S)-HPMPA [(S)-9-[3-hydroxy-2-(phosphonomethoxy)propyl]adenine) and (S)-HPMPDAP [(S)-9-[3-hydroxy-2-(phosphonomethoxy)propyl]-2, 6-diaminopurine), encompasses a broad spectrum of DNA viruses, including polyoma-, papilloma-, adeno-, herpes-, and poxviruses. Adefovir {9-[2-(phosphonomethoxy)ethyl]adenine (PMEA)} and tenofovir [(R)-9-[2-(phosphonomethoxy) propyl]adenine [(R)-PMPA)]} are particularly active against retroviruses (ie., HIV) and hepadnaviruses (ie., HBV); additionally, PMEA also shows activity against herpes- and poxviruses. We have recently identified a new class of ANPs, namely 6-[2-(phosphonomethoxy)alkoxy]-2,4-diaminopyrimidines, named, in analogy with their alkylpurine counterparts, HPMPO-DAPy, PMEO-DAPy, and (R)-PMPO-DAPy. These compounds exhibit an antiviral activity spectrum and potency that is similar to that of (S)-HPMPDAP, PMEA, and (R)-PMPA, respectively. Thus, PMEO-DAPy and (R)-PMPO-DAPy, akin to PMEA and (R)-PMPA, proved particularly active against HIV- 1, HIV-2, and the murine retrovirus Moloney sarcoma virus (MSV). PMEO-DAPy and (R)-PMPO-DAPy also showed potent activity against both wild-type and lamivudine-resistant strains of HBV. HPMPO-DAPy was found to inhibit different poxviruses (ie., vaccinia, cowpox, and orf) at a similar potency as cidofovir. HPMPO-DAPy also proved active against adenoviruses. In vivo, HPMPO-DAPy proved equipotent to cidofovir in suppressing vaccinia virus infection (tail lesion formation) in immunocompetent mice and promoting healing of disseminated vaccinia lesions in athymic-nude mice. The 6-[2-(phosphonomethoxy)alkoxy]-2,4-diaminopyrimidines offer substantial potential for the treatment of a broad range of retro-, hepadna-, herpes-, adeno-, and poxvirus infections.
74 citations
TL;DR: In order to improve the oral bioavailability of 2′-C-methylcytidine, a potent anti-HCV agent, the corresponding 3′-O-L-valinyl ester derivative has been synthesized.
Abstract: In order to improve the oral bioavailability of 2′-C-methylcytidine, a potent anti-HCV agent, the corresponding 3′-O-L-valinyl ester derivative (NM 283) has been synthesized. Based on its ease of synthesis and its physicochemical properties, NM 283 has emerged as a promising antiviral drug for treatment of chronic HCV infection.
70 citations
TL;DR: Among the most potent SAH hydrolase inhibitors and antiviral agents rank carbocyclic 3-deazaadenosine (C-c3Ado), neplanocin A, 3- deazaneplanoc in A, the 5′-nor derivatives of carbocyClic adenosine, and the 6′-R-alkyl derivatives of neplanOCin A.
Abstract: Ever since the S-adenosylhomocysteine (AdoHcy, SAH) hydrolase was recognized as a pharmacological target for antiviral agents (J. A. Montgomery et al., J. Med. Chem. 25:626-629, 1982), an increasing number of adenosine, acyclic adenosine, and carbocyclic adenosine analogues have been described as potent SAH hydrolase inhibitors endowed with broad-spectrum antiviral activity. The antiviral activity spectrum of the SAH hydrolase inhibitors include pox-, rhabdo-, filo-, arena-, paramyxo-, reo-, and retroviruses. Among the most potent SAH hydrolase inhibitors and antiviral agents rank carbocyclic 3-deazaadenosine (C-c3 Ado), neplanocin A, 3-deazaneplanocin A, the 5'-nor derivatives of carbocyclic adenosine (C-Ado, aristeromycin), and the 2-halo (i.e., 2-fluoro) and 6'-R-alkyl (i.e., 6'-R-methyl) derivatives of neplanocin A. These compounds are particularly active against poxviruses (i.e., vaccinia virus), and rhabdoviruses (i.e., vesicular stomatitis virus). The in vivo efficacy of C-c3 Ado and 3-deazaneplanocin A has been established in mouse models for vaccinia virus, vesicular stomatitis virus, and Ebola virus. SAH hydrolase inhibitors such as C-c3Ado and 3-deazaneplanocin A should in thefirst place be considered for therapeutic (or prophylactic) use against poxvirus infections, including smallpox, and hemorrhagic fever virus infections such as Ebola.
56 citations
TL;DR: Zebularine is a stable, antitumor agent that preferentially targets cancer cells and shows activity both in vitro and in experimental animals, even after oral administration.
Abstract: 1-(beta-D-ribofuranosyl)-1,2-dihydropyrimidin-2-one (zebularine) is structurally 4-deamino cytidine. The increased electrophilic character of this simple aglycon endows the molecule with unique chemical and biological properties, making zebularine a versatile starting material for the synthesis of complex nucleosides and an effective inhibitor of cytidine deaminase and DNA cytosine methyltransferase. Zebularine is a stable, antitumor agent that preferentially targets cancer cells and shows activity both in vitro and in experimental animals, even after oral administration.
48 citations
TL;DR: Site directed spin labeled RNA duplexes with different interspin distances were synthesized and Tm and CD studies showed that the spin label does not to disturb significantly the A-form of these duplexe.
Abstract: Site directed spin labeled RNA duplexes with different interspin distances were synthesized. The radical 2,2,5,5-tetramethyl-pyrrolin- 1-yloxyl-3-acetylene (TPA) was introduced during the solid-phase synthesis through a Sonogashira cross-coupling with 5-iodo-uridine. Tm and CD studies showed that the spin label does not to disturb significantly the A-form of these duplexes. 4-Pulse Electron Double Resonance (PELDOR) was then used to measure intramolecular spin-spin distances of 19.3, 33.0 and 40.9 A, which are in very good agreement with the calculated values of 17.6, 32.1 and 39.1 A, obtained from Molecular Dynamics (MD) simulations.
44 citations
TL;DR: At subtoxic concentrations, TMPyP4 induced MiaPaCa cell growth arrest, senescence, apoptosis, and telomere length shortening within 5 weeks, while similar biological effects were evident after 12 weeks following treatment with telomestatin.
Abstract: Our previous studies have demonstrated the preference of telomestatin for intramolecular, rather than the intermolecular, G-quadruplex structures, while TiMPyP4 has selectivity for intermolecular over intramolecular G-quadruplex structures. However, it was not clear whether the difference in the selectivity between two different G-quadruplex-interactive agents could determine the corresponding biological effects in cultured human tumor cells. Here we evaluated the biological effects of both TMPyP4 and telomestatin in the human pancreatic carcinoma cell line (MiaPaCa) using subtoxic and cytotoxic concentrations. The cytotoxicity of these agents against MiaPaCa cells is quite different, and the IC50 of telomestatin (0.5 microM) is about 100 times less than that of TMPyP4 (50 microM). At IC50 concentrations, TMPyP4 induced anaphase bridge formation in MiaPaCa cells, while telomestatin failed to induce anaphase bridge formation. At subtoxic concentrations, TMPyP4 induced MiaPaCa cell growth arrest, senescence, apoptosis, and telomere length shortening within 5 weeks, while similar biological effects were evident after 12 weeks following treatment with telomestatin. Our data suggest that binding of G-quadruplex-interactive agents to distinct G-quadruplexes could induce different biological effects in human cancer cells.
40 citations
TL;DR: A new series of derivatives containing naphthol as aryl masking group on the phosphate moiety, which has shown a significant increase in anticancer activity in preliminary biological evaluations is reported.
Abstract: The phosphoramidate technology we have developed has been recently applied to BVdU, leading to NB1011 (NewBiotics Inc., California), a novel potential anticancer compound recently entered into phase 2 of the clinical trials for colon cancer. We report in this work a new series of derivatives containing naphthol as aryl masking group on the phosphate moiety, which has shown a significant increase in anticancer activity in preliminary biological evaluations.
39 citations
TL;DR: Herbicidin B and fully protected tunicaminyluracil, which were undecose nucleoside antibiotics, were synthesized using a samarium diiodide (SmI2) mediated aldol reaction with the use of α-phenylthioketone as an enolate.
Abstract: Herbicidin B and fully prtected tunicaminyluracil, which were undecose nucleoside antibiotics, were synthesized using a samarium diiodide (SmI2) mediated aldol reaction with the use of alpha-phenylthioketone as an enolate. The characteristics of the SmI2-mediated aldol reaction are that the enolate can be regioselectively generated and the aldol reaction proceeds under near neutral condition. This reaction is proved to be a powerful reaction for the synthesis of complex nucleoside antibiotics. The synthesis of caprazol, the core structure of caprazamycins, was conducted by the strategy including beta-selective ribosylation without using a neighboring group participation and the construction of a diazepanone by a modified reductive amination. Our synthetic route would provide a range of key analogues with partial structures to define the pharmacophore, which can be a lead for the development of more effective anti-bacterial agents.
32 citations
TL;DR: An enzymatic transesterification reaction afforded large scale resolution of the cyclohexenol precursor needed for preparation of both series of CeNA building blocks.
Abstract: An enzymatic transesterification reaction afforded large scale resolution of the cyclohexenol precursor needed for preparation of both series of CeNA building blocks. CeNA oligos of "D-like" chirality display a strong and selective interaction with RNA, while preserving RNase H activity, and therefore have potential as antisense constructs. CeNAs of opposite chirality form a self-pairing system on their own.
30 citations
TL;DR: Recent synthetic approaches to pyrazole nucleosides preparation, chemical properties, biological activities, and structure-activity relationships are described, with emphasis to selected drugs or drug candidates.
Abstract: Pyrazole nucleosides and condensed pyrazole nucleosides exhibit various biological activities This article describes recent synthetic approaches to their preparation, chemical properties, biological activities, and structure-activity relationships, with emphasis to selected drugs or drug candidates Two pyrazole C-nucleoside compounds pyrazofurin (pyrazomycin) and its alpha-epimer pyrazofurin B are active components of potent antivirals approved for therapeutic use in human medicine aimed against various diseases caused by DNA viruses
TL;DR: A series of new dinucleotide cap analogs with methylene groups replacing oxygens within the pyrophosphate moieties have been synthesized as mentioned in this paper, which are resistant to the human scavenger decapping hydrolase, DcpS.
Abstract: A series of new dinucleotide cap analogs with methylene groups replacing oxygens within the pyrophosphate moieties have been synthesized. All the compounds were resistant to the human scavenger decapping hydrolase, DcpS. Binding constants of the modified caps to eIF4E are comparable to those obtained for m7GpppG. This suggests these methylene modifications in the pyrophosphate chain do not significantly affect cap-binding at least for eIF4E. These cap analogs are also good inhibitors of in vitro translation. mRNAs capped with novel analogs were translated similarly to the mRNA capped with the parent m7GpppG.
TL;DR: Preclinical and clinical studies will be discussed, aiming to design improved future strategies in anti-cancer treatment, and the action of cell cycle inhibition in vivo may be limited by unfavorable pharmacokinetics.
Abstract: In anti-cancer treatment, deoxynucleoside analogues are widely used in combination chemotherapy. Improvement can be achieved by rational design of novel combinations with cell cycle inhibitors. These compounds inhibit protein kinases, preventing the cell cycle from continuing when affected by deoxynucleoside analogs. The efficacy is dependent on the site of cell cycle inhibition, whether multiple cyclin-dependent kinases are inhibited and whether the inhibitors should be given before or after the deoxynucleoside analogs. The action of cell cycle inhibition in vivo may be limited by unfavorable pharmacokinetics. Preclinical and clinical studies will be discussed, aiming to design improved future strategies.
TL;DR: During this study, an intermolecular migration of the Boc protecting group is observed in the course of the tert-butyldimethylsilyl ether cleavage using tetrabutyl ammonium fluoride.
Abstract: Synthetic pathways to a mononucleotide prodrug of cytarabine (Ara-C) bearing S-pivaloyl-2-thioethyl (tBuSATE) groups, as biolabile phosphate protections, are reported. Using a common phosphoramidite approach, two different kinds of nucleoside protecting groups have been investigated. During this study, we observed an intermolecular migration of the Boc protecting group in the course of the tert-butyldimethylsilyl ether cleavage using tetrabutyl ammonium fluoride.
TL;DR: A new method has been investigated for the functionalization of gold nanoparticles with DNA, designed to react with modified DNA containing a diene functionality at one end of the molecule through a Diels-Alder reaction.
Abstract: A new method has been investigated for the functionalization of gold nanoparticles with DNA. Silica-coated nanoparticles functionalized with a maleimide have been prepared. These particles are designed to react with modified DNA containing a diene functionality at one end of the molecule. The result would be the formation of a more stable attachment of the DNA to the particle through a Diels-Alder reaction. This covalent attachment would not be susceptible to ligand exchanges, which are known to occur in the conventional DNA functionalization of gold nanoparticles.
TL;DR: A chelator-peptide-PNA- peptide chimera specific for KRAS has been prepared by continuous solid phase coupling with a C-terminal insulin-like growth factor 1 (IGF1) ligand and d(cys-ser-lys-cys) diaminopropanoate chelator for radionuclide labeling.
Abstract: A chelator-peptide-PNA-peptide chimera specific for KRAS has been prepared by continuous solid phase coupling with a C-terminal insulin-like growth factor 1 (IGF1) ligand, d(cys-ser-lys-cys), and N-terminal bis(s-benzoyl thioglycoloyl) diaminopropanoate chelator for radionuclide labeling. The probe was purified by RP-HPLC and characterized by MALDI-TOF mass spectroscopy. The probe was labeled with 99 mTc and 64Cu. Both labeled probes accumulated in human pancreatic cancer xenografts in immunocompromised mice. Control experiments with mismatch chimeras and control xenografts will be necessary to determine the specificity of this molecular diagnostic strategy.
TL;DR: Among these compounds, 7-benzyl-9-deazaadenosine (14b) showed the most potent cytotoxic activity, with IC50 values of 0.9, 0.3, and 5 µM against L1210 leukemia, P388 leukemia, CCRF-CEM lymphoblastic leukemia, and B16F10 melanoma cells, respectively.
Abstract: A series of 2-halogen and 7-alkyl substituted analogues of 9-deazaadenosine and 2'-deoxy-9-deazaadenosine was synthesized by new efficient methodology involving transformation of corresponding 9-deazaguanosine and 2'-deoxyguanosine, which in turn were synthesized by direct C-glycosylation of 1-benzyl-9-deazaguanine with 1-O-acetyl-2,3,5-tri-O-benzoyl-D-ribofuranose and methyl 2-deoxy-3,5-di-O-(p-toluoyl)-D-ribofuranoside, respectively. Deoxychlorination of C6 and diazotization/chloroor fluoro-dediazoniation of the sugar-protected 9-deazaguanosine, followed by selective ammonolysis at C6 and deprotection of the sugar moiety, gave 2-chloro- and 2-fluoro-9-deazaadenosine (6 and 9). Substitution of the 7-position of the dihalogen-intermediate with alkyl groups, followed by ammonolysis and deprotection, provided 2-chloro-7-alkyl-9-deazaadenosines (13a-e) and 2-fluoro-7-benzyl-9-deazaadenosine (13f). Catalytic hydrogenation of 13a-e gave 7-alkyl-9-deazaadenosines 14a-e. Similarly, 2-chloro-2'-deoxy-9-deazaadenosine (21), 2-chloro-2'-deoxy-7-methyl-9-deazaadenosine (25), 2'-deoxy-9-deazaadenosine (22), and 2'-deoxy-7-methyl-9-deazaadenosine (26) were prepared from sugar-protected 2'-deoxy-9-deazaguanosine. Among these compounds, 7-benzyl-9-deazaadenosine (14b) showed the most potent cytotoxic activity, with IC50 values of 0.07, 0.1, 0.2 and 1.5 microM, while both 7-methyl-9-deazaadenosine (14a) and 2-fluoro-9-deazaadenosine (9) also demonstrated significant cytotoxic activity with IC50 values of 0.4, 0.7, 0.3, and 1.5 microM, and 1.5, 0.9, 0.3, and 5 microM against L 1210 leukemia, P388 leukemia, CCRF-CEM lymphoblastic leukemia, and B16F10 melanoma cells, respectively.
TL;DR: Findings are pointing to a duplex stabilizing effect of the interaction of side chain amino groups with backbone phosphoric acid in 2′-O-Aminohexyl side chains.
Abstract: 2'-O-Aminohexyl side chains provide excellent conditions for zwitterionic interstrand and intrastrand interactions of oligonucleotides. 2'-O-Aminoalkylated phosphoramidites of adenosine and uridine were synthesized and incorporated in increasing number into homo adenosine and homo uridine/thymidine dodecamers, respectively. CD spectra of these dodecamers with complementary sense DNA exhibited a B-DNA type structure. While duplex stability values of all tested oligonucleotides were lower than those of the native oligonucleotides, they were significantly higher than those of 2'-O-heptyl modified oligonucleotides. The destabilization amounted to 0.9, 1.5, and 2.7 degrees C per modification for 2'-O-aminohexyl adenosine, 2'-O-aminohexyl uridine, and 2'-O-heptyl adenosine substitutions. These findings are pointing to a duplex stabilizing effect of the interaction of side chain amino groups with backbone phosphoric acid.
TL;DR: It is suggested that targeting HIV-1 mRNA with simultaneously expressed intracellular decoy TAR and Vif-siRNA could lead to an effective gene therapy strategy for the control and management of HIV-AIDS.
Abstract: RNA interference (RNAi) silences gene expression via short interfering 21–23 mer double-stranded RNA (siRNA) segments that guide cognate mRNA degradation in a sequence-specific manner. On the other hand, HIV-1 decoy TAR RNA are known to competitively interact with the HIV-1 Tat protein, to downregulate the enhanced gene expression from the long terminal repeat (LTR) promoters. Here we report that a novel expression construct, encoding both HIV-1 decoy TAR and Vif siRNA, as a single RNA substrate, was expressed under the control of the human U6 promoter, and later the TAR and siRNA were cleaved into their respective separate RNA by the endogenous RNase III-like enzyme. Each of the cleaved HIV-1 anti-genes then synergistically contributed toward enhancing the inhibition efficacy (> 80%) of HIV-1 replication in transduced Jurkat cells. These results suggest that targeting HIV-1 mRNA with simultaneously expressed intracellular decoy TAR and Vif-siRNA could lead to an effective gene therapy strategy for the co...
TL;DR: A useful route is described for obtaining Z and E unsaturated alkylating agents 3 and 4 and the introduction of a propargyl group at the N-3 position of acyclonucleosides 7, 8, 17, 18, 19, and 20 was achieved using potassium carbonate in DMF.
Abstract: A useful route is described for obtaining Z and E unsaturated alkylating agents 3 and 4. Coupling 6-azauracils 5 and 6 with unsaturated alkylating agent followed by the deprotection with H+ resin gave acyclonucleosides 11–14 in good overall yields. Unsaturated acyclonucleosides phosphonates 19 and 20 were prepared using potassium carbonate as base and 4-bromobut-2-enyl diethyl phosphonate 16 as the alkylating agent. The introduction of a propargyl group at the N-3 position of acyclonucleosides 7, 8, 17, 18, 19, and 20 was achieved using potassium carbonate in DMF. In honor and celebration of the 70th birthday of Professor Leroy B. Townsend. Financial support by the scientific program CNRST (Morocco)/DFG (Germany) and CNRST (Morocco)/CNRS (France) are gratefully acknowledged. We thank Professor De Clercq (Rega Institute for Medical Research Catholic University, Leuven, Belgium) For providing biological tests. We thank Dr. C. Kwong (Southern Research Institute, Birmingham, Alabama) for reviewing this manusc...
TL;DR: A high potential of phosphonate-containing PNA derivatives for a number of biological applications, such as diagnostic, nucleic acids analysis, and inhibition of gene expression is revealed.
Abstract: Negatively charged DNA mimics containing phosphonate analogoues of peptide nucleic acids were designed, and their physicochemical and biological properties were evaluated in the comparison with natural oligonucleotides, classical peptide nucleic acids, and morpholino phosphorodiamidate oligonucleotide analogues. The results obtained revealed a high potential of phosphonate-containing PNA derivatives for a number of biological applications, such as diagnostic, nucleic acids analysis, and inhibition of gene expression.
TL;DR: The synthesis of a water-soluble, ethynyl-linked AQ-dA conjugate, 8-[(anthraquinone-2-yl)ethynyl]-2′-deoxyadenosine 3′-benzyl hydrogen phosphate, based on initial formation of a 5-O-(4,4′-dimethoxytrityl) (5′-O-DMTr) intermediate.
Abstract: The challenge in working with anthraquinone-2'-deoxyadenosine (AQ-dA) conjugates is that they are insoluble in water and only sparingly soluble in most organic solvents. However, water-soluble AQ-dA conjugates with short linkers are required for study of their electrochemical and intramolecular electron transfer properties in this solvent prior to their use in laser kinetics investigations of photoinduced hole (cation) transport in DNA. This article first describes the synthesis of a water-soluble, ethynyl-linked AQ-dA conjugate, 8-[(anthraquinone-2-yl)ethynyl]-2'-deoxyadenosine 3'-benzyl hydrogen phosphate, based on initial formation of a 5'-O-(4,4'-dimethoxytrityl) (5'-O-DMTr) intermediate. Because intended H2 over Pd/C reduction of the ethynyl linker in 5'-O-DMTr-protected 2'-deoxyadenosines cleaves the DMTr protecting group and precipitates multiple side products, this work also describes the synthesis of an ethylenyl-linked AQ-dA conjugate, 8-[2-(anthraquinone-2-yl)ethyl]-2'-deoxyadenosine 3'-benzyl hydrogen phosphate, starting with a 5'-O-tert-butyldiphenylsilyl protecting group.
TL;DR: The LNA/DNA chimeras corresponding to the well-known DNA sequences 5′-GGTTGGTGTGGTT GGTTGG-3′, capable of forming an unimolecular quadruplex, are investigated.
Abstract: LNAs (locked nucleic acids) are new DNA analogues with higher binding affinities toward nucleic acids than the canonical counterparts mainly due to the characteristic conformational restriction arising from the 2′-O, 4′-C methylene bridge. In light of the promising therapeutic applications and considering the advantageous characteristics of LNAs, such as their high water solubility, easy handling, and synthetic accessibility through the conventional phosphoramidite chemistry, we undertook a study concerning the capability of these nucleic acid analogues to form quadruplex structures. Particularly, we have been investigating the LNA/DNA chimeras corresponding to the well-known DNA sequences 5′-GGTTGGTGTGGTTGG-3′, capable of forming an unimolecular quadruplex. This article deals with the study of the sequence 5′-ggTTggTGTggTTgg-3′ (upper and lower case letters represent DNA and LNA residues, respectively), which, according to CD spectroscopy, is able to fold into a quadruplex structure.
TL;DR: The chemo-enzymatic method was successfully applied to the synthesis of 2-chloro-2′-deoxyadenosine (CdA, cladribine) in two ways: direct conversion of chemically synthesized 2- deoxy-α-D-ribose 1-phosphate to CdA and a two-step route via 9-(2-Deoxy-β-D.ribos-1-yl)-2,6-dichlor
Abstract: Our chemo-enzymatic method was successfully applied to the synthesis of 2-chloro-2′-deoxyadenosine (CdA, cladribine) in two ways: 1) direct conversion of chemically synthesized 2-deoxy-α-D-ribose 1-phosphate (dRP) to CdA; 2) a two-step route via 9-(2-deoxy-β-D-ribos-1-yl)-2,6-dichloropurine (Cl2Pu-dR, 5).
TL;DR: Mixmer oligonucleotides consisting of residues of both 2′-O-methylnucleosides (OMe) and locked nucleic acids (LNA) were found to inhibit syncitia formation dose- and sequence-dependently when delivered to HeLa T4 LTR β-Gal cells and subsequently infected with HIV-1.
Abstract: Mixmer oligonucleotides consisting of residues of both 2'-O-methylnucleosides (OMe) and locked nucleic acids (LNA) were designed targeting two stem-loops in the 5'-UTR of HIV-1 RNA, the transactivation response region (TAR), which is the site of binding of the Tat protein, and the SL3 loop, which is the primary packaging element that binds the Gag polyprotein. These oligonucleotides were found to inhibit syncitia formation dose- and sequence-dependently when delivered to HeLa T4 LTR beta-Gal cells and subsequently infected with HIV-1.
TL;DR: A novel series of 6-methylpurine nucleoside derivatives with substitutions at 5′-position have been synthesised and have been evaluated for their substrate activity with E. coli PNP.
Abstract: A novel series of 6-methylpurine nucleoside derivatives with substitutions at 5′-position have been synthesised. These compounds bear a 5′-heterocycle such as triazole or a imidazole with a two carbon chain, and an ether, thio ether or amine. To extend the SAR study of 2-fluoroadenine and 6-methyl purine nucleosides, their corresponding α–linker nucleosides with l-xylose and l-lyxose were also synthesized. All of these compounds have been evaluated for their substrate activity with E. coli PNP.
TL;DR: Reaction of L-tartaric acid with thiocarbohydrazide afforded (1R, 2S)-1,2-bis(4-amino-5-mercapto-1, 2,4-triazol-3-yl)-ethane-1-2-diol (3), which allowed the construction of fused heterocycles on the 1,2,4 -triazole rings.
Abstract: Reaction of L-tartaric acid with thiocarbohydcrazide afforded (1R, 2S)-1,2-bis(4-amino-5-mercapto-1,2,4-triazol-3-yl)-ethane-1,2-diol (3). The functional groups in 3 allowed the construction of fused heterocycles on the 1,2,4-triazole rings, mainly of the 1,2,4-triazolo[3,4-b][1,3,4]thiadiazine type as in 4, 5, 7, 10, 13 and 1,2,4-triazolo[3,4-b][1,3,4]thiadiazole type as in 14.
TL;DR: A novel approach for the synthesis of 5′-capped 2′-O-methyloligoribonucleotides on a disulfide-tethered solid support is described, using ZnCl2 promoted coupling of m7GDP imidazolide to a fully deprotected oligonucleotide5′-phosphate on-support.
Abstract: A novel approach for the synthesis of 5-capped 2'-O-methyloligoribonucleotides on a disulfide-tethered solid support is described. The key step of the synthesis is ZnCl2 promoted coupling of m7GDP imidazolide to a fully deprotected oligonucleotide 5'-phosphate on-support. By this methodology m7G5'pppm2'Apm2'Upm2'Ap has been prepared.
TL;DR: The dimethoxytritylation 5′/3′ ratios and yield were improved by the use of 2,6-lutidine as the base and a method to selectively hydrolyze benzoyl ester impurities was developed.
Abstract: We describe an improved process to produce 2'-O-(2-methoxyethyl)-pyrimidines. Starting with commercially available O-2,2'-anhydro-5-methyluridine and tris-(2-methoxyethyl)borate, we modified the ring-opening reaction conditions and changed to a continuous extraction purification method to give 2'-O-(2-methaxyethyl)-5-methyluridine. The dimethoxytritylation 5'/3' ratios and yield were improved by the use of 2,6-lutidine as the base. Conditions to convert to the 5'-methylcytidine analog and its isolation by crystallization were optimized. Final benzoylation was improved by developing a method to selectively hydrolyze benzoyl ester impurities.
TL;DR: An efficient method for the synthesis of nucleoside analogs bearing structural features of both AZT and d4T was described, from which a series of pyrimidine and purine nucleosides were synthesized in high yields and evaluated as potential anti-HIV agents.
Abstract: Since the discovery of 3'-azido-3'-deoxythymidine (AZT) and 2',3'-didehydro-2',3'-dideoxythymidine (d4T) as potent and selective inhibitors of the replication of human immunodeficiency virus (HIV), there has been a growing interest for the synthesis of 2',3'-didehydro-2',3'dideoxynucleosides with electron withdrawing groups on the sugar moiety. Here we described an efficient method for the synthesis of such nucleoside analogs bearing structural features of both AZT and d4T The key intermediate, 3-azido-1,2-bis-O-acetyl-5-O-benzoyl-3-deoxy-D-ribofuranose, 5 was synthesized from commercially available D-xylose in five steps, from which a series of pyrimidine and purine nucleosides were synthesized in high yields. The resultant protected nucleosides were converted to target nucleosides using appropriate chemical modifications. The final nucleosides were evaluated as potential anti-HIV agents.