Chang Hyun Oh

Synthesis and anti-HCMV activity of novel cyclopropyl phosphonic acid nucleosides.

A simple synthetic route for novel acyclic phosphonate nucleosides is described. The characteristic cyclopropyl moiety 8 was constructed employing the Simmons-Smith reaction as key step starting from simple acyclic 2-butene-1,4-diol. The condensation of the mesylate 11 with natural nucleosidic bases (A,C,T,U) under nucleophilic substitution conditions (K2CO3, 18-Crown-6, DMF) and hydrolysis afforded the target nucleosides 16, 17, 18, and 19. In addition, the antiviral evaluations against various viruses were performed.

Design and Synthesis of Dually Branched 5′-Norcarbocyclic Adenosine Phosphonodiester Analogue as a New Anti-HIV Prodrug

A novel 3′,4′-dimethyl-5′-norcarbocyclic adenosine phosphonic acid was prepared using acyclic stereoselective route from 4-hydroxybutan-2-one (4). To improve the cellular permeability and enhance the anti-HIV activity of this phosphonic acid, a (bis)SATE phosphonodiester nucleoside prodrug (20) was prepared and its chemical stability was evaluated. The newly synthesized bis(SATE) analogue (20) and its parent nucleoside phosphonic acid (18) were assayed for anti-HIV activity using an in vitro assay system in a CEM cell line.

Design, synthesis and anti-HIV activity of homologous PMEA derivatives.

This article describes an efficient route for synthesizing novel cyclopropyl homologous PMEA analogues. The condensation of the bromide 8 with nucleosidic bases (A, U, T, C, 5-FU, G) under standard nucleophilic substitution and deprotection conditions, afforded the target phosphonic acid analogues 14∼18 and 21. These compounds were evaluated for their potential antiviral properties against various viruses. Guanine derivative 21 showed significant antiviral activity.

Short Synthesis And Antiviral Evaluation Of c-Fluoro-Branched Cyclopropyl Nucleosides

A series of novel fluorocyclopropyl nucleosides were synthesized using the Simmons-Smith reaction as a key reaction starting from 1,3-dihydroxyacetone. All the nucleosides synthesized were assayed against several viruses. Among the compounds synthesized, the 5-fluorouracil analogue 15 showed significant anti-HCMV activity (9.22 μM).

Synthesis and anti-HCMV activity of novel acyclic nucleosides.

ABSTRACT A series of novel acyclic nucleosides 10, 11, 21, and 22 were synthesized efficiently starting from D-lactose. The condensation of the mesylate 5 and 16 with an adenine and cytosine base under standard nucleophilic substitution conditions (K2CO3, 18-Crown-6, DMF) afforded a series of acyclic novel nucleosides. Compound 21 displayed moderate anti-HCMV activity in the AD-169 cells (EC50=18.5 µg/mL) without exhibiting any cytotoxicity up to 100 µM.

Design and synthesis of novel carbocyclic versions of 2'-spirocyclopropyl ribonucleosides as potent anti-HCV agents.

The discovery of 2′-spirocyclopropyl-ribocytidine as a potent inhibitor of RNA synthesis by NS5B (IC50 = 7.3 μM), the RNA polymerase encoded by hepatitis C virus (HCV), has led to the synthesis and biological evaluation of carbocyclic versions of 2′-spiropropyl-nucleosides from cyclopentenol 6. Spirocyclopropylation of enone 7 was completed by using (2-chloroethyl)-dimethylsulfonium iodide and potassium t-butoxide to form the desired intermediate 9a. The synthesized nucleoside analogues, 18, 19, 26, and 27, were assayed for their ability to inhibit HCV RNA replication in a subgenomic replicon Huh7 cell line. The synthesized cytosine nucleoside 19 showed moderate anti-HCV activity (IC50 = 14.4 μM).

First Synthesis and Anti-HIV Evaluation of 4′-Methyl-Cyclopentanyl 9-Deazaadenosine

The first synthesis of a 4′-methylated carbocyclic C-nucleoside 16 was achieved via the mesylate intermediate 10, which was prepared using ring-closing metathesis and SN2 alkylation from acetol 5. When antiviral evaluation of synthesized compound 16 was performed against various viruses such as HIV, HSV-1, HSV-2, and HCMV, it showed moderate anti-HIV activity in MT-4 cell line (EC50 = 14.7 μmol).

Synthesis and In-vitro Activity of 4′-Modified Analogues of ddA as Potent Anti-HIV Agents

This paper reports the synthesis of novel 4′‐hydrophobic pocket deoxythreosyl C‐nucleosides. The key threose‐like intermediates 9 and 14 were constructed from acyclic ketone derivatives, respectively. The antiviral activities of the synthesized compounds against the HIV‐1, HSV‐1, HSV‐2, and HCMV viruses were evaluated. The 9‐deaza‐adenine derivatives 10 and 20 showed good anti‐HIV activity without exhibiting significant cytotoxicity.

Simple Synthesis and Anti-Hiv Activity of Novel 3′-Vinyl Branched Apiosyl Pyrimidine Nucleosides

Novel vinyl branched apiosyl nucleosides were synthesized in this study. Apiosyl sugar moiety was constructed by sequential ozonolysis and reductions. The bases (uracil and thymine) were efficiently coupled by glycosyl condensation procedure (persilyated base and TMSOTf). The antiviral activities of the synthesized compounds were evaluated against the HIV-1, HSV-1, HSV-2, and HCMV. Compound 10β displayed moderate anti-HIV activity (EC50 = 17.3 μg/mL) without exhibiting any cytotoxicity up to 100 μM.