Extended exposure to substrate regulates the human equilibrative nucleoside transporter 1 (hENT1)

ABSTRACT

Human equilibrative nucleoside transporter 1 (hENT1) is a major route of entry of nucleosides and nucleoside analog drugs. The regulation of hENT1 is poorly understood in spite of its clinical importance as a drug transporter. Immunofluorescence microscopy and fluorescence-activated cell sorting suggested that cytidine pre-treatment (40 μM, 6 h) promotes hENT1 internalization in a way that does not affect either hENT1-mediated nucleoside uptake or gemcitabine-induced cytotoxicity. The Scatchard plot analyses of our NBTI binding data support previous speculations that hENT1 proteins exist as two sub-populations, and suggest that cytidine pre-treatment leads to the internalization of one population.     

Synthesis of Nucleotide Lipophilic Prodrugs Containing Two Inhibitors Targeted Against Different Phases of the HIV Replication Cycle

Abstract

We describe the preparation of nucleoside acyl 5′-di or 5′-triphosphates, containing a nucleoside analog moiety and 13-oxa-myristic acid as lipophilic chain. At physiological pH these products liberated exclusively the corresponding nucleotides.     

Synthesis and biochemical evaluation of Aminopropanolyl-Thymine tri-Phosphate (ap-TTP)

Abstract

Deoxyribonucleoside triphosphates (dNTPs) are building blocks for the biosynthesis of DNA. Various modified dNTPs’ analogs have synthesized by structural changes of nucleoside’s susgar and nucleobases and employed for synthesis of modified DNA. A very few modified dNTPs have prepared from non-sugar nucleoside analogs. This report describes the synthesis of acyclic nucleoside triphosphate (NTP) analog from amino acid L-Serine as aminopropanolyl-thymine triphosphate (ap-TTP) and demonstrate its biochemical evaluation as enzymatic incorporation of ap-TTP into DNA with DNA polymerases with primer extension methods. Alanyl peptide nucleicacids (Ala-PNA) are the analogs of DNA which contains alanyl backbone. Aminopropanolyl – analogs are derivatives of alanyl back bone. Ap-TTP analog is nucleoside triphosphate analog derived from Ala-PNA. Importantly, this report also sheds light on the crystal packing arrangement of alaninyl thymine ester derivative in solid-state and reveals the formation of self-duplex assembly in anti-parallel fashion via reverse Watson-Crick hydrogen bonding and π–π interactions. Hence, ap-TTP is a useful analog which also generates the free amine functional group at the terminal of DNA oligonucleotide after incorporation.     

Properties of Oligonucleotide with Phenyl-Substituted Carbocyclic Nucleoside Analogs for the Formation of Duplex and Triplex DNA

(1S,3S,4R)-1-Phenyl-1-thymidyl-3-hydroxy-4-hydroxymethylcyclopentane (10) and their analogs were synthesized, incorporated into the oligodeoxynucleotides, and their properties were evaluated for the formation of duplex and triplex DNA. The known chiral cyclopentanone derivative was converted into the corresponding ketimine sulfonamide derivative, which was subjected to a stereoselective PhLi addition. The formed sulfonamide was hydrolyzed to afford the primary amino group, on which the thymine moiety was built. The benzyl protecting groups were removed to form the nucleoside analog having a phenyl group and the thymine unit at the 1′ position of a carbocyclic skeleton (10). In the estimation of the oligodeoxynucleotides incorporating 10 for duplex and triplex formation, the carbocyclic nucleoside analog 10 did not show the stabilizing effect for duplex formation; on the other hand, it stabilized the triplex. Therefore, the skeleton of the phenyl-substituted carbocyclic nucleoside analog 10 may be a platform for the formation of stable triplex DNA.     

Gene Therapy of Cancer: Activation of Nucleoside Prodrugs with E. coli Purine Nucleoside Phosphorylase

Abstract

During the last few years, many gene therapy strategies have been developed for various disease targets. The development of anticancer gene therapy strategies to selectively generate cytotoxic nucleoside or nucleotide analogs is an attractive goal. One such approach involves the delivery of herpes simplex virus thymidine kinase followed by the acyclic nucleoside analog ganciclovir. We have developed another gene therapy methodology for the treatment of cancer that has several significant attributes. Specifically, our approach involves the delivery of E. coli purine nucleoside phosphorylase, followed by treatment with a relatively non-toxic nucleoside prodrug that is cleaved by the enzyme to a toxic compound. This presentation describes the concept, details our search for suitable prodrugs, and summarizes the current biological data.     

Synthesis and Anti-HIV Activity of Novel 4′-Trifluoromethylated 5′-Deoxycarbocyclic Nucleoside Phosphonic Acids

Efficient synthetic route to novel 4′-trifluoromethylated 5′-deoxycarbocyclic nucleoside phosphonic acids was described from α-trifluoromethyl-α,β-unsaturated ester. Coupling of purine nucleosidic bases with cyclopentanol using a Mitsunobu reaction gave the nucleoside intermediates which were further phosphonated and hydrolyzed to reach desired nucleoside analogs. Synthesized nucleoside analogs were tested for anti-HIV activity as well as cytotoxicity. Adenine analog 22 shows significant anti-HIV activity (EC₅₀ = 8.3 μM) up to 100 μM.     

Synthesis and Structural Analysis of Oxadiazole Carboxamide Deoxyribonucleoside Analogs

Two novel C-linked oxadiazole carboxamide nucleosides 5-(2′-deoxy-3′,5′-β-D-erythro-pentofuranosyl)-1,2,4-oxadiazole-5-carboxamide (1) and 5-(2′-deoxy-3′,5′-β-D-erythro-pentofuranosyl)-1,2,4-oxadiazole-3-carboxamide (2) were successfully synthesized and characterized by X-ray crystallography. The crystallographic analysis shows that both unnatural nucleoside analogs 1 and 2 adapt the C2′-endo (“south”) conformation. The orientation of the oxadiazole carboxamide nucleobase moiety was determined as anti (conformer A) and high anti (conformer B) in the case of the nucleoside analog 1 whereas the syn conformation is adapted by the unnatural nucleoside 2. Furthermore, nucleoside analogs 1 and 2 were converted with high efficiency to corresponding nucleoside triphosphates through the combination chemo-enzymatic approach. Oxadiazole carboxamide deoxyribonucleoside analogs represent valuable tools to study DNA polymerase recognition, fidelity of nucleotide incorporation, and extension.

     

Synthesis and Hybridization Studies of Oligonucleotide Sequences with Modified Fluorescent Nucleoside Analogs

Abstract

Two complementary oligodeoxynucleotide hexamers CATGAA and TTCATG and a pentamer with a fluorescent nucleoside analog viz. 9-N-(2′-deoxy-β-D-ribofuranosyl) carbazole (C*) incorporated into it, TTC*ATG were synthesized and characterised by spectroscopic and chromatographic studies. The comparative fluorescent studies of the two nucleoside analogs viz. 9-N-(2′-deoxy-β-D-ribofuranosyl) acridone and its carbazole analog (C*) have been carried out under different experimental conditions. The effect on fluorescence by incorporation of (C*) into the sequence and its subsequent hybridization with the complementary sequence have been studied.     

The subcellular location of nucleoside analog phosphorylation is a determinant of synergistic effects of hydroxyurea

The ribonucleotide reductase inhibitor hydroxyurea exhibits synergistic pharmacological activity with several nucleoside analogs used in antiviral and anticancer chemotherapy. We have used a cell model system where a deoxycytidine kinase (dCK)-deficient cell line was reconstituted with genetically engineered dCK targeted to the cytosol, the nucleus, or the mitochondria to investigate how the subcellular location of nucleoside analog phosphorylation affected the synergistic effects of a ribonucleotide reductase inhibitor. Hydroxyurea showed synergistic cytotoxicity with the nucleoside analogs 1-beta-d-arabinofuranosylcytosine and 2-chloro-2'-deoxyadenosine when dCK was expressed in the cytosol or in the nucleus, but not when dCK was expressed in the mitochondria. These data indicate that the synergistic effect of ribonucleotide reductase inhibition is limited to nucleoside analogs phosphorylated in the cytosol or the cell nucleus.     

Gemcitabine: Actions and Interactions

Abstract

Gemcitabine is a nucleoside analog that acts by multiple mechanisms. Incorporation of the triphosphate and subsequent inhibition of DNA replication and repair appears to be the major mode of action. Ribonucleotide reductase is inhibited by gemcitabine diphosphate, an activity that leads to metabolic self-potentiating effects.     

Beta-L-(-)-dioxolane Cytidine (β-L-(-)-OddC) as a Potent Compound for the Treatment of Cancer

Abstract

L-(-)-OddC is the first nucleoside analog with the unnatural L-configuration and the first chain-terminator shown to have anti-cancer activity. This compound was found to be highly active against solid tumor growth in several human xenograft models. L-(-)-OddC exerts its activity be terminating DNA chain elongation after its incorporation.     

Anti-Inflammatory Activity of Purine Nucleoside Analogs

Abstract

It is well known that adenosine plays an important role in inflammatory processes. A collection of adenosine analogs modified in the base and/or sugar functional moiety have been synthesized and submitted for biological testing. Each purine nucleoside analog was tested for inhibition of endothelial cell activation by various inflammatory stimuli. A number of analogs exhibited potent anti-inflammatory activity. Animal studies have been carried out on AMG002370 which was found to potently inhibit adjuvant induced arthritis in the Lewis rat.     

Synthesis of Novel Peptidyl Adenosine Antibiotic Analogs

A small library of peptidyl adenosine antibiotic analogs was synthesized, under the Pilot Scale Library Program of the NIH Roadmap initiative, from 2′,3′-O-isoproylideneadenosine-5′-carboxylic acid 2 in excellent yield. The coupling of the amino terminus of L-2-aminophenylbutyric methyl ester to a free 5′-carboxylic acid moiety of 2 followed by sodium hydroxide treatment led to carboxylic acid analog 4. Hydrolysis of this latter gave unprotected nucleoside analog 5. Intermediate 4 served as the precursor for the preparation of novel peptidyl adenosine analogs 6–18 in good yields and high purity through peptide coupling reactions to diverse amine derivatives. No marked anticancer and antimalaria activity was noted on preliminary cellular testing; however these analogs should be useful candidates for other types of biological activity.     

Synthesis and Biological Effects of 5′-Deoxy-5′-(Cyclo-Propylmethylthio)Adenosine

Abstract

A novel synthesis of the nucleoside analog, 5′-deoxy-5′-(cyclopropylmethylthio)adenosine (CPMTA, 1) has been developed. CPMTA is a closely related structural analog of 5′-deoxy-5′-(isobutylthio)-adenosine (SIBA, 2), which has been widely studied and shown to exert a multitude of biological effects. The in vitro and in vivo antitumor (L1210 leukemia) activity of CPMTA has been found to be comparable to that of SIBA, whereas its in vitro antiviral (HSV and VSV) activity is diminished. These agents are being developed as inhibitors of methylation and/or polyamine synthesis.     

SITE-DIRECTED ALKYLATION TO CYTIDINE WITHIN DUPLEX BY THE OLIGONUCLEOTIDES CONTAINING FUNCTIONAL NUCLEOBASES

We have previously described that oligonucleotides (ODN) containing phenylsulfoxide derivative of 2-amino-6-vinylpurine nucleoside analog (1) are activated within duplex to form cross-link toward cytidine selectively at the target site. In this paper, we wish to report the search for more stable precursor susceptible for activation within duplex.     

Pyrimidine Nucleotidases/Phosphotransferases from Human Erythrocyte

Abstract

Two cytoplasmic pyrimidine 5′-nucleotidase have been purified from human erythrocytes to homogeneity and partially characterized. The two enzymes, indicated as PN-I and PN-II, preferentially hydrolyse pyrimidine 5′-monophosphates and 3′-monophosphates, respectively. The kinetic analysis demonstrate that pyrimidine 5′-nucleotidases, in the presence of suitable nucleoside substrates, can operate as phosphotransferases by transferring phosphate to various nucleoside acceptors, including nucleoside analogues known as important drugs widely used in chemotherapy.     

医疗机构合理用药评价模型的构建研究

目的 针对医疗机构的合理用药水平进行评价研究。方法 根据医疗机构合理用药的具体要求,构建医疗机构合理用药评价指标体系,采用基于模糊群决策的方法和多指标评价分析法构建医疗机构合理用药评价模型。结果 构建了基于模糊群决策的医疗机构合理用药评价模型,并通过实例分析证明了评价模型的可行性。结论 建立的基于模糊群决策的医疗机构合理用药评价模型能够对医疗机构的合理用药水平进行科学评价,为提高医疗机构合理用药水平奠定基础。     

Study of Different Substituted Cyclic and Acyclic Benzylpronucleotides of d4T Relative to Their Hydrolytic Stability and Antiviral Activity

Abstract

CycloSal-d4TMP and two different bis(benzyl) phosphate triesters of the antivirally active nucleoside analog d4T were studied with regard to their chemical hydrolysis behavior at pH 7.3, in CEM/0 cell extracts, and their anti-HIV activity. In contrast to triesters 2–4, bis-(o-AB)-d4TMP 1 was found to be chemically exquisitely stable. All compounds led to the formation of d4TMP in cell extracts and all triesters achieved the TK-bypass.     

An in vitro nucleoside analog screening method for cancer gene therapy

Suicide genes that sensitize cells to drugs that are normally nontoxic at therapeutic levels represent an important approach in human gene therapy research. We have developed an in vitro screening assay to assess the modulation of nucleoside analogs after transfection of a vector expressing the herpes simplex virus thymidine kinase gene (HSV-TK). The thymidine kinase gene enhances nucleoside phosphorylation to nucleotides that kill cells by blocking DNA elongation. Cells lines used are 3T3-NIH fibroblasts (parental cells) and 3T3-TKc3 (HSV-TK gene-transfected 3T3-NIH). Two types of analysis are performed: a cytotoxicity assay, the neutral red uptake assay to assess the IC₅₀ on the two cell lines, and an HPLC analysis coupled to a radiochemical flow detector to evaluate metabolic profiles after incubation of cells with tritiated analogs. Results show that cells expressing the HSV-TK gene are more sensitive than the parent cells to the effect of acyclovir or ganciclovir, the reference purine analog drugs, and also to the effect of pyrimidine analogs, bromodeoxyuridine, bromovinyldeoxyuridine, and ethyldeoxyuridine. Promising nucleoside analogs for gene therapy that can be achieved by HSV-TK could be evaluated using this model.Abbreviations ACV acyclovir - ACV-MP acyclovir monophosphate - ACV-DP acyclovir diphosphate - ACV-TP acyclovir triphosphate - BDU bromodeoxyuridine - BVDU bromovinyldeoxyuridine - EDU ethyldeoxyuridine - FDU fluorodeoxyuridine - GCV ganciclovir - HSV-TK herpes simplex virus thymidine kinase gene - IDU iododeoxyuridine - NA nucleoside analog