Rigid 2′,4′-Difluororibonucleosides: Synthesis, Conformational Analysis, and Incorporation into Nascent RNA by HCV Polymerase

Martı́nez-Montero, Saúl; Deleavey, Glen F.; Kulkarni, Anupriya S.; Martín-Pintado, Nerea; Lindovska, Petra; Thomson, M E; González, Carlos; Götte, Matthias; Damha, Masad J.

doi:10.1021/jo500794v

Cited by 46 publications

(80 citation statements)

References 48 publications

(87 reference statements)

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“…The therapeutic potential use of LNA (27) has led to the synthesis of a wide number of related analogues known as BNAs (bicyclic nucleic acids) (28). Our laboratory has had a long standing interest in nucleosides modified with fluorine at C2´ (11,(29)(30)(31)(32)(33) and more recently at both the C2´ and C4´ positions (34,35). 4´-Fluoro nucleosides are relatively unexplored in the literature, investigated in only a handful of studies (36)(37)(38)(39)(40), most of which encountered acid instability of the glycosidic linkage, which precluded these molecules from further studies and incorporation within oligonucleotides.…”

Section: Introductionmentioning

confidence: 99%

Locked 2′-Deoxy-2′,4′-Difluororibo Modified Nucleic Acids: Thermal Stability, Structural Studies, and siRNA Activity

et al. 2015

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2′-Deoxy-2′,4′-difluorouridine (2′,4′-diF-rU) was readily incorporated into DNA and RNA oligonucleotides via standard solid phase synthesis protocols. NMR and thermal denaturation (T m) data of duplexes was consistent with the 2′,4′-diF-rU nucleotides adopting a rigid North (RNA-like) sugar conformation, as previously observed for the nucleoside monomer. The impact of this modification on T m is neutral when incorporated within RNA:RNA duplexes, mildly destabilizing when located in the RNA strand of a DNA:RNA duplex, and highly destabilizing when inserted in the DNA strand of DNA:RNA and DNA:DNA duplexes. Molecular dynamics calculations suggest that the destabilization effect in DNA:DNA and DNA:RNA duplexes is the result of structural distortions created by A/B junctions within the helical structures. Quantum mechanics calculations suggest that the “neutral” effect imparted to A-form duplexes is caused by alterations in charge distribution that compensate the stabilizing effect expected for a pure North-puckered furanose sugar. 2′,4′-diF-RNA modified siRNAs were able to trigger RNA interference with excellent efficiency. Of note, incorporation of a few 2′,4′-diF-rU residues in the middle of the guide (antisense) strand afforded siRNAs that were more potent than the corresponding siRNAs containing LNA and 2′-F-ANA modifications, and as active as the 2′-F-RNA modified siRNAs.

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Section: Introductionmentioning

confidence: 99%

Locked 2′-Deoxy-2′,4′-Difluororibo Modified Nucleic Acids: Thermal Stability, Structural Studies, and siRNA Activity

et al. 2015

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“…As previously reported, quantum mechanical calculations indicate a clear preference for the North pucker in 2′,4′-diF-rU with a very high interconversion barrier to the destabilized South conformation ( P ≈ 180°). 17 For 2′-F-araU, quantum mechanical calculations predict similar energies for the North and South puckers with a low activation barrier. 22 The South conformation is shifted toward the East region ( P ≈ 140).…”

Section: Resultsmentioning

confidence: 94%

“…17 Thus, reaction of commercially available 2′-F-araU ( 1 ) with triphenylphosphine and iodine afforded the corresponding 5′-iodo derivative 2 in 93% yield. The 4′,5′-exocyclic double bond in 3 was installed by an elimination reaction of the 5′-iodo with sodium methoxide in 53% yield.…”

Section: Resultsmentioning

confidence: 99%

“…Because the reactivity of the 5′-iodine is considerably decreased due to the presence of the 4′-fluorine, we placed a 3′-benzoyl group in nucleoside 4 to assist in the substitution reaction. 17,25,26 The actual substitution was carried out in the next step by activating the protected 5′-iodo,4′-fluoro analogue 5 to the corresponding hypoiodite with m CPBA in water-saturated dichloromethane with concomitant migration of the benzoyl group from the 3′ to the 5′ position to obtain 5 in 68% yield. 17,24 Deprotection of the 5′- O -benzoyl group with methanolic ammonia proceeded in nearly quantitative yields to afford the novel nucleoside monomer 2′,4′-diF-araU ( 7 ).…”

Section: Resultsmentioning

confidence: 99%

“…For example, we recently reported the effect of introducing a 4′-fluorine on 2′-deoxy-2′-fluororibouridine. 17 The strong gauche and anomeric effects 18–21 imparted by both the 2′- and 4′-fluorines, respectively, strongly favor the North conformation, thus locking the sugar in the North region of the pseudorotational cycle. In the case of 2′,4′-difluoroarabinonucleosides, the 2′-fluorine is expected to promote a [O4′–C1′–C2′–F2′] gauche interaction that favors the South sugar conformation, whereas the 4′-fluorine should impart a strong anomeric effect [O4′(p-type)/ σ * C4′–F4′ ] that drives the pseudorotational equilibrium toward the North conformation (Figure 1B).…”

Section: Introductionmentioning

confidence: 99%

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Synthesis and Properties of 2′-Deoxy-2′,4′-difluoroarabinose-Modified Nucleic Acids

et al. 2015

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We report the synthesis, thermal stability, and RNase H substrate activity of 2′-deoxy-2′,4′-difluoroarabino-modified nucleic acids. 2′-Deoxy-2′,4′-difluoroarabinouridine (2,′4′-diF-araU) was prepared in a stereoselective way in six steps from 2′-deoxy-2′-fluoroarabinouridine (2′-F-araU). NMR analysis and quantum mechanical calculations at the nucleoside level reveal that introduction of 4′-fluorine introduces a strong bias toward the North conformation, despite the presence of the 2′-βF, which generally steers the sugar pucker toward the South/East conformation. Incorporation of the novel monomer into DNA results on a neutral to slightly stabilizing thermal effect on DNA–RNA hybrids. Insertion of 2′,4′-diF-araU nucleotides in the DNA strand of a DNA–RNA hybrid decreases the rate of both human and HIV reverse transcriptase-associated RNase H-mediated cleavage of the complement RNA strand compared to that for an all-DNA strand or a DNA strand containing the corresponding 2′-F-araU nucleotide units, consistent with the notion that a 4′-fluorine in 2′-F-araU switches the preferred sugar conformation from DNA-like (South/East) to RNA-like (North).

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The Medicinal Chemistry of Antisense Oligonucleotides

Watts

2018

Oligonucleotide‐Based Drugs and Therapeutics

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Rigid 2′,4′-Difluororibonucleosides: Synthesis, Conformational Analysis, and Incorporation into Nascent RNA by HCV Polymerase

Cited by 46 publications

References 48 publications

Locked 2′-Deoxy-2′,4′-Difluororibo Modified Nucleic Acids: Thermal Stability, Structural Studies, and siRNA Activity

Locked 2′-Deoxy-2′,4′-Difluororibo Modified Nucleic Acids: Thermal Stability, Structural Studies, and siRNA Activity

Synthesis and Properties of 2′-Deoxy-2′,4′-difluoroarabinose-Modified Nucleic Acids

The Medicinal Chemistry of Antisense Oligonucleotides

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