Synthesis of 3'-acetamidoadenosine derivatives as potential A3 adenosine receptor agonists.

On the basis of high binding affinity of 3'-aminoadenosine derivatives 2b at the human A3 adenosine receptor (AR), 3'-acetamidoadenosine derivatives 3a-e were synthesized from 1,2:5,6-di-O-isopropylidene-D-glucose via stereoselective hydroboration as a key step. Although all synthesized compounds were totally devoid of binding affinity at the human A3AR, our results revealed that 3'-position of adenosine can only be tolerated with small size of a hydrogen bonding donor like hydroxyl or amino group in the binding site of human A3AR.

Stereoselective synthesis of homo-apioneplanocin A as potential inhibitor of S-adenosylhomocysteine hydrolase.

Homo-apioneplanocin A (1) as a potential inhibitor of S-adenosylhomocysteine hydrolase was synthesized from D-ribose, employing stereoselective hydroxymethylation, regioselective oxidation, and regio- and chemoselective hydroboration as key steps.

Asymmetric synthesis of novel apio carbocyclic nucleoside analogues as potential antiviral and antitumor agent.

Novel apio carbocyclic nucleosides 18-21 were asymmetrically synthesized as potential antiviral and antitumor agent, starting from D-ribose employing aldol reaction, RCM reaction and Mitsunobu reaction as key reactions.

Synthesis of N6-substituted 3'-ureidoadenosine derivatives as highly potent agonists at the mutant A3 adenosine receptor.

Several N6-substituted 3 '-ureidoadenosine derivatives were efficiently synthesized starting from D-glucose for the development of H272E mutant A3 adenosine receptor (AR) agonists. Among compounds tested, 3 '-ureido-N6-(3-iodobenzyl)adenosine (2c) exhibited the highest binding affinity (Ki = 0.22 micro M) at the H272E mutant A3 AR without binding to the natural A3AR.

Synthesis and antitumor activity of fluorocyclopentenyl-pyrimidines.

Synthesis of fluorocyclopentenyl pyrimidine nucleosides 6-9 was enantiopurely accomplished employing oxidative rearrangement, RCM reaction and electrophilic fluorination starting from d-ribose. Cytosine analog 8 was found to exhibit significant anticancer activity in various human tumor cell lines.

Asymmetric synthesis and biological activity of L-bicyclocarba-d4T.

Novel L-bicyclocarba-d4T (1), an enantiomer of D-N-MCd4T has been enantiopurely synthesized as a potent anti-HIV agent starting from (R)-epichlorohydrin using tandem alkylation, chemoselective reduction of ester in the presence of lactone functional group, Grignard reaction, RCM reaction, and Mitsunobu reaction as key steps. L-N-MCd4T (1) was found to be very potent anti-HIV-1 (EC(50) = 6.76 microg/mL) agent with no cytotoxicity.

Design, synthesis, and anti-tumor activity of 4'-thionucleosides as potent and selective agonists at the human A3 adenosine receptor.

On the basis of potent and selective binding affinity of Cl-IB-MECA to the human A(3) adenosine receptor, its 4'-thioadenosine derivatives were efficiently synthesized starting from D-gulonic gamma-lactone. Among compounds tested, 2-chloro-N(6)-(3-iodobenzyl)- and 2-chloro-N(6)-methyl-4' -thioadenosine-5' -methyluronamides (7a and 7b) exhibited nanomolar range of binding affinity (K(i) = 0.38 nM and 0.

Asymmetric synthesis of cyclopropyl-fused 2'-C-methylcarbanucleosides as potential anti-HCV agents.

Novel 2'-C-methyl-cyclopropyl-fused carbocyclic nucleosides as potential anti-HCV agents were stereoselectively synthesized, utilizing regioselective cleavage of the isopropylidene group and cyclic sulfate chemistry as key steps.

Stereoselective synthesis of 1'-functionalized-4'-thionucleosides.

Stereoselective functionalization of the 1'-position of 4'-thionucleosides was achieved using a stereoselective S(N)2 reaction controlled by 5-membered ring coordination.

Asymmetric synthesis of novel pseudo-D-vinylcyclopropyl nucleosides bearing quaternary carbon as potential anti-herpesvirus agent.

Pseudo-D-vinylcyclopropyl nucleosides 10-12 bearing a quaternary carbon were designed and synthesized starting from (R)-epichlorohydrin using a tandem reaction of double alkylation and lactonization via oxirane-ring opening reaction, a Wittig reaction, and chemoselective reduction as potential anti-herpesvirus agent.

Synthesis of enantiopure pseudo-L-vinylcyclopropyl nucleosides bearing quaternary carbon as potential anti-herpesvirus agent.

Pseudo-L-vinylcyclopropyl adenine and guanine nucleosides 11 and 12 were designed and enantiopurely synthesized starting from (S)-epichlorohydrin using tandem alkylation, regioselective oxirane-ring opening, and chemoselective reduction as key steps.

Asymmetric synthesis of apio fluoroneplanocin A analogs as potential AdoHcy hydrolase inhibitor.

Apio fluoroneplanocin A (apio F-NPA, 3) and its uracil analogue 4 have been designed and asymmetrically synthesized starting from D-ribose. Introduction of fluoro group into vinylic position of 5 was accomplished successfully over 5 steps employing key reactions such as iodination according to an addition-elimination reaction mechanism, stereo- and regioselective reduction of alpha,beta-unsaturated ketone, and electrophilic fluorination. This methodology can be adapted to the synthesis of fluoro compounds extensively.

Design, enantiopure synthesis, and biological evaluation of novel iso-D-2',3'-dideoxy-3'-fluorothianucleoside derivatives as a bioisostere of lamivudine.

Novel iso D-2',3'-dideoxythianucleoside derivatives 1-3 were designed and asymmetrically synthesized to search for new anti-HIV agents. Final compounds 1-3 were evaluated against a variety of viruses including HIV-1 and 2. Only cytosine analog 3 showed a potent anti-VSV activity (EC(50) = 9.

Synthesis of novel L-N-MCd4T as a potent anti-HIV agent.

L-N-MCd4T (1) has been synthesized as a potent anti-HIV agent starting from (R)-epichlorohydrin using tandem alkylation, chemoselective reduction of ester in the presence of lactone functional group, RCM reaction and Mitsunobu reaction as key steps and was found to be a very potent anti-HIV-1 (EC50 = 6.76 microg mL(-1)) agent without cytotoxicity up to 100 microg mL(-1), indicating that the anti-HIV-1 activity found is similar to that of ddI (EC50 = 4.95 microg mL(-1)), which is used clinically for the treatment of AIDS patients.

Synthesis of 3'-ureidoadenosines and their high binding affinity at the mutant A3 adenosine receptor.

For the purpose of developing optimal neoceptor-neoagonist pair, 3'-ureidoadenosine derivatives were synthesized. Among compounds tested, 2-chloro-3'-ureido-N6-(3-iodobenzyl)adenosine (10b) showed the best binding affinity (Ki = 0.20 microM) at the H272E mutant A3 AR, but was inactive at the natural A3 AR.

Development of potent and selective human A3 adenosine receptor agonists.

On the basis of bioisosteric rationale, structure-activity relationship of Cl-IB-MECA, which showed high binding affinity at the human A3 adenosine receptor, was studied. From this study, 2-chloro-4'-thioadenosine-5'-methyluronamide was discovered as the most potent and selective agonist at the human A3 adenosine receptor.

Design, synthesis, and biological evaluation of novel iso-D-2',3'-dideoxy-3'-fluorothianucleoside derivatives.

Novel iso-d-2',3'-dideoxythianucleoside derivatives 1-4 were designed and asymmetrically synthesized as a bioisostere of lamivudine to search for new anti-HIV agents. The information about using sulfur participation occurred on DAST fluorination and Mitsunobu reaction will be of great help in synthesizing sulfur-containing compounds. Final compounds 1-4 were evaluated against HIV-1 and 2, HSV-1 and 2, EMCV, Cox.

Design, synthesis, and biological activity of N6-substituted-4'-thioadenosines at the human A3 adenosine receptor.

A large series of N6-substituted-4'-thioadenosines were synthesized starting from D-gulonic-gamma-lactone, and structure-activity relationships were studied at the human A3 and other subtypes of adenosine receptors (ARs). 2-Chloro-substituted and 2-H analogues were compared. 2-Chloro-N6-methyl-4'-thioadenosine 19b was a highly potent and selective agonist (Ki=0.

Structure-activity relationships of 2-chloro-N6-substituted-4'-thioadenosine-5'-uronamides as highly potent and selective agonists at the human A3 adenosine receptor.

We have established structure-activity relationships of novel 4'-thionucleoside analogues as the A(3) adenosine receptor (AR) agonists. Binding affinity, selectivity toward other AR subtypes, and efficacy in inhibition of adenylate cyclase were studied. From this study, 2-chloro-N(6)-methyl-4'-thioadenosine-5'-methyluronamide (36a) emerged as the most potent and selective agonist at the human A(3) AR.

Synthesis of 3'-ureidoadenosine analogues and their binding affinity to the A3 adenosine receptor.

Novel 3'-ureidoadenosine analogues were synthesized from 1,2:5, 6-di-O-isopropylidene-D-glucose in order to lead to stronger hydrogen bonding at the A3 adenosine receptor than the corresponding 3'-aminoadenosine derivatives. However, all synthesized 3'-ureidoadenosine analogues have lost their binding affinities to the all subtypes of adenosine receptors, indicating that bulky 3'-urea moiety led to conformational distortion.

Stereoselective synthesis of novel thioiso dideoxy nucleosides with exocyclic methylene as potential antiviral agents.

Novel thioiso pyrimidine and purine nucleosides substituted with exocyclic methylene have been synthesized, starting from D-xylose. Cyclization of the dimesylate to the 4-thiosugar 6a proceeded in pure SN2 reaction in the presence of allylic functional group.

Synthesis of homo-N-nucleoside with 1,2,4-triazole-3-carboxamide.

On the basis of potent biological activities of ribavirin and homo-N-nucleosides, a novel homo-N-1,2,4-triazole-3-carboxamide derivative 1 was synthesized starting from 2,3,5-tri-O-benzoylribofuranosyl-1-acetate as a potential antiviral agent.

Synthesis of 3'-deoxy-3'-C-hydroxymethyl analogues of tiazofurin and ribavirin.

On the basis of potent biological activity of 3'-branched-3'-deoxynucleoside analogues, novel ribavirin and tiazofurin derivatives with 3'-C-hydroxymethyl substituent were synthesized, starting from D-xylose.

Stereoselective synthesis of conformationally rigid apio carbanucleosides as potential antiviral agents.

Apio north-methanocarbocyclic nucleosides 1-3 with bicyclo[3. 1.0]hexane template were first synthesized.

Structure-activity relationship of 5'-substituted fluoro-neplanocin a analogues as potent inhibitors of S-adenosylhomocysteine hydrolase.

Four 5'-substituted fluoro-neplanocin A analogues la-d were designed and synthesized, and the inhibitory activity against SAH was in the following order: NH2 > SH > F, N3, indicating a hydrogen bonding donor is essential for inhibitory activity.