Antioxidation and Tyrosinase Inhibition of Polyphenolic Curcumin Analogs

A series of polyphenolic curcumin analogs were synthesized and their inhibitory effects on mushroom tyrosinase and the inhibition of 1,1-diphenyl-2-picryl-hydrazyl (DPPH) free radical formation were evaluated. The results indictated that the analogs possessing m-diphenols and o-diphenols exhibited more potent inhibitory activity on tyrosinase than reference compound rojic acid, and that the analogs with o-diphenols exhibited more potent inhibitory activity of DPPH free-radical formation than reference compound vitamin C. The inhibition kinetics, analyzed by Lineweaver–Burk plots, revealed that compounds B₂ and C₂ bearing o-diphenols were non-competitive inhibitors, while compounds B₁₁ and C₁₁ bearing m-diphenols were competitive inhibitors. In particular, representative compounds C₂ and B₁₁ showed no side effects at a dose of 2,000 mg/kg in a preliminary evaluation of acute toxicity in mice. These results suggest that such polyphenolic curcumin analogs might serve as lead compounds for further design of new potential tyrosinase inhibitors.     

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 Physiological Activity of Methyl 6′6′-Didemethyl Abscisate and New Chiral Analogs

Methyl 6′, 6′-didemethyl abscisate (5) was synthesized and assayed to elucidate the physiological activity of methyl substituents on the cyclohexene ring of abscisic acid (ABA). During this study two new chiral stereoisomeric analogs 6 and 7 were synthesized from l-and d-carvone. The rice seedling assay and germination assay of garden radish showed that 6′-methyl groups of ABA were not important in biological activity and that 5′-isopropenyl analogs 6 and 7 were inactive.     

Anti-HIV Derivatives of 1-(2,3-Dideoxy-3-N-hydroxyamino-β-D-threo-pentofuranosyl)thymine

Abstract

Representative examples of the title compounds including bicyclic analogs (7–9) in which a perhydro-1,3-oxazine is ortho-fused to the furanose ring, have been prepared in good to excellent yields. Compounds 5 and 7 showed marked activity against HIV-1 and HIV-2 replication in CEM cells (50% inhibitory concentration: 0.80–4.3μg/mL). Their di-O-acetylated (6) and mono-O-acetylated (8) derivatives were considerably less effective. To the best of our knowledge, these β-D-threo anti-HIV nucleoside analogs constitute the first examples of anti-HIV active nucleosides bearing this configuration.     

Design and synthesis of 3-[(7-chloro-1-oxidoquinolin-4-ylamino)alkyl]-1,3-thiazolidin-4-ones as antimalarial agents

A new series of quinoline analogs have been synthesized and found active against P. falciparum in vitro and P. yoelli in vivo. Compounds 8, 10 and 11 exhibited superior in vitro activity compared to chloroquine. Selected compounds 8, 10 and 11 exhibited significant suppression of parasitaemia in vivo assay. These analogs form a complex with hematin and inhibit the β-hematin formation, suggesting that this class of compounds act on a heme polymerization target. Further this study confirms that quinoline ring nitrogen is essential for both transportation of the molecule across the membrane as well as for tight binding to hematin.     

Synthesis and biological evaluation of O-methyl and O-ethyl NSAID hydroxamic acids

This paper reports the synthesis of O-methyl and O-ethyl NSAID hydroxamic acids, their antimicrobial activities, and their ability to inhibit urease and soybean lipoxygenase activities. Ibuprofen and fenoprofen hydroxamic acids with free hydroxy groups present the highest antimicrobial activity, while indomethacin and diclofenac analogs show significantly lower antimicrobial activity. Diclofenac hydroxamic acid 4e exerts the highest anti-urease activity. Indomethacin O-ethyl hydroxamic acid 3h and ibuprofen O-benzyl hydroxamic acid 4b exert significant inhibitory activities on soybean lipoxygenase. Fenoprofen and indomethacin O-ethyl hydroxamic acids 3b and 3h and diclofenac and indomethacin O-benzyl analogs 4g and 4i highly inhibit lipid peroxidation. The highest antioxidant activity was shown by fenoprofen derivative 3b.     

Synthesis of Pyrrolo[2,3-d]pyrimidines that are Structurally Related to Methylated Guanosines from tRNA and the Nucleoside Q Analogs,PreQ0 and PreQ1

Abstract

The N-3- and N-2-methylated analogs of several 5-substituted 2 amino-7-(β-D-ribofuranosyl)pyrrolo[2,3-d]pyrimidin-4-ones were synthesized from 5-cyano-2,4-dichloro-7-(2,3,5-tri-O-acetyl-β-D-ribofuranosyl)pyrrolo[2,3-d]pyrimidine (10). These compounds are analogs of nucleoside Q that are methylated in a manner similar to some of the naturally occurring methylated guanosines.

     

Molecular docking analysis of imine stilbene analogs and evaluation of their anti-aging activity using yeast and mammalian cell models

The NAD⁺-dependent histone deacetylase SIRT1 was shown to be associated with aging and longevity. A stilbene, resveratrol (RV) was shown to exert anti-aging activity by stimulating the SIRT1 activity. However, the utility of RV is limited by its low bioavailability and structural instability. It is thus envisaged to test imine stilbene (IMS) analogs of RV for their potential anti-aging activity. In the present study, molecular docking analysis of five IMS analogs (3a, 3b, 3c, 3d and 3e) against the SIRT1 protein has been carried out. All the five IMS analogs displayed enhanced binding affinity towards SIRT1; three out of five IMS analogs (3a, 3?b, 3e) showed significantly higher affinity with lower binding energies (?9.58, ?9.54, and ?9.82?kcal mol^?1) than RV (?8.11?kcal mol^?1). Further, experimental validation of anti-aging activity was performed by measuring the chronological life span in vitro using yeast and cellular replicative senescence (CRS) in mammalian cell line models. All IMS analogs extended the chronological life span in yeast as compared to untreated cells as well as RV treated cells. Enhanced anti-aging activity was also observed in an analogous mammalian cell line model upon treatment with either RV or IMS analogs. The results thus suggest that most of the IMS analogs tested may serve as potent drug lead molecules with anti-aging activity.     

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.     

Design and Biological Evaluation of New Mechanismbased Inhibitors of S-Adenosyl-L-homocysteine Hydrolase

Abstract

Geminal dihalohomovinyl 2 and haloacetylenic 4 analogs derived from adenosine were prepared. These compounds exhibited type II (covalent) mechanism-based inactivation of S-adenosyl-L-homocysteine hydrolase.     

A Convenient Synthesis of Acyclic Adenosines with an Unsaturated Side Chain by Modification of 9-(2,3-O-Isopropylidene-D-Ribityl)Adenine

Abstract

In expectation of discovering their antiviral activity, acyclic adenosine derivatives 7, 11, 12, and 16 were designed as analogs of neplanocin A (NPA) and L-eritadenine which are strong inhibitors of S-adenosyl-L-homocysteine hydrolase. The 1′,5′-seco-analog of 4′-deoxymethyl-NPA (DHCA) 7 was synthesized by dideoxygenation of 9-(2,3-O-isopropylidene-D-ribityl)adenine (2). Acyclic DHCA analogs 11 and 16 were obtained by Wittig reaction of the aldehyde 3 with Ph₃P=CHCO₂Et and Ph₃P=CHCN, respectively. Hydrolysis of the ester 11 afforded a vinylog of L-eritadenine 12. The synthesized acyclic nucleosides 7, 10, and 11 were evaluated for antiviral activity, however, none of them showed any significant antiviral activity.     

Transient Expression of Drosophila melanogaster Deoxynucleoside Kinase Gene Enhances Cytotoxicity of Nucleoside Analogs

The Drosophila melanogaster deoxynucleoside kinase gene was introduced into HeLa cells with cationic lipids to allow its transient expression, and cytotoxic effects of several nucleoside analogs in the transfected cells were examined. Of the analogs tested, cytotoxicities of 1-β-D-arabinofuranosylcytosine (araC), 5-fluorodeoxyuridine (FUdR), and 1-(2-deoxy-2-methylene-β-D-erythro-pentofuranosyl)cytosine (DMDC) were increased by the deoxynucleoside kinase gene. These results suggest that the combination of the transient expression of the Drosophila deoxynucleoside kinase gene and these nucleoside analogs is a candidate for the suicide gene therapy.     

Synthesis of 3-fluoro-6-S-(2-S-pyridyl) nucleosides as potential lead cytostatic agents

The 3-deoxy-3-fluoro-6-S-(2-S-pyridyl)-6-thio-β-d-glucopyranosyl nucleoside analogs 7 were prepared via two facile synthetic routes. Their precursors, 3-fluoro-6-thio-glucopyranosyl nucleosides 5a-e, were obtained by the sequence of deacetylation of 3-deoxy-3-fluoro-β-d-glucopyranosyl nucleosides 2a-e, selective tosylation of the primary OH of 3 and finally treatment with potassium thioacetate. The desired thiolpyridine protected analogs 7a-c,f,g were obtained by the sequence of deacetylation of 5a-c followed by thiopyridinylation and/or condensation of the corresponding heterocyclic bases with the newly synthesized peracetylated 6-S-(2-S-pyridyl) sugar precursor 13, which was obtained via a novel synthetic route from glycosyl donor 12. None of the compounds 6 and 7 showed antiviral activity, but the 5-fluorouracil derivative 7c and particularly the uracil derivative 7b were endowed with an interesting and selective cytostatic action against a variety of murine and human tumor cell cultures.     

Studies ON Epimeric-D-asabino-and-D-ribo-tetritol-1-yl-2-phenyl-2 H-1,2,3-triazoles. Synthesis and Anomeric Configuration of 4-(α-and β-D-Erythrofuranosyl)-2-phenyl-2 H-1,2,3-Triazole C-Nucleoside Analogs

Abstract

Treatment of 4-(D-arabino-tetritol-1-yl)-2-phenyl-2 H-1,2,3-triazole (1) with one mole equivalent of tosyl chloride in pyridine solution, afforded the C-nucleoside analogs, 4-(α-D-erythrofuranosyl)-2-phenyl-2 H-1,2,3-triazole (2) in 25% yield, as well as the byproduct 4-(4-chloro-4-deoxy-D-arabino-tetritol-1-yl)-2-phenyl-2 H-1,2,3-triazole(3). Treatment of the epimeric 4-(D-ribo-tetritol-1-yl)-2-phenyl-2 H-1,2,3-triazole(8) with tosyl chloride in pyridine solution afforded the anomeric C-nucleoside analogs, 4-(β-D-erythrofuranosyl)-2-phenyl-2 H-1,2,3-triazole (9) in 23% yield. Similar treatment of 8 with trifluoromethanesulfonyl chloride in pyridine solution afforded 9. The structure and anomeric configuration of these compounds were determined by acylation, NMR, NOE, circular dichroism spectroscopy and mass spectrometry.     

Papers of interest in other journals

Abstract

Nonlithified, dome‐shaped deep‐water stromatolite analogs grow at a depth of 36 m and a light intensity of 100 Es^?1m^?2 off French Reef in the Key Largo National Marine Sanctuary. The only other modern deep‐water stromatolite analogs known to occur in the world are in antarctic freshwater lakes and these structures exist at light levels ≤ 1% of surface values (<1.0 Es^?1m^?2). Even though the two habitats are very dissimilar, they share the commonality of nonlithified, laminated stromatolite analogs growing in low‐light environments. The Key Largo formations exist on a carbonate sand substrate and have a low chlorophyll a:biomass ratio in comparison to the antarctic stromatolite analogs. The dominant cyanobacteria in the majority of antarctic habitats and in the Key Largo habitat are members of the genus Phormidium. The cyanobacterium in the Key Largo stromatolite analogs has been tentatively identified as Phormidium nov. sp. Reasons for the ability of the Key Largo structures to exist in areas of potential metazoan bioturbation present a biological enigma that remains to be explained.     

Synthesis And Anti-HIV Property of Novel Oligo-DNA Phosphorothioate Analogs Bearing an Intercalative Moiety and/Or Polyamine Residues

Abstract

Novel oligoDNA phosphorothioate analogs (S-ODN-1 to -3) bearing an intercalative moiety at the 5′-terminus and/or polyamine at the C-5 position of certain uridine residues substituting for normal thymidine residues were synthesized and their physicochemical properties as well as the anti-HIV activities were studied. The analogs have identical base sequence which is complementary to art/tris region of human immunodeficiency virus type 1 (HIV-1). The polyamine moiety on the analogs is found to be effective not only to enhance the hybridization ability but also reduce the nonspecific cytotoxicity and strengthen the anti-HIV activity of the analogs.     

Enantioselective Synthesis of the Carbocyclic Tetrazole C-Ribonucleosides

Abstract

Enantioselective synthesis of the protected derivative of the carbocyclic 5-(β-D-ribofuranosyl)tetrazole 10, a suitable intermediate for further transformation to the carbocyclic formycin analogs, was accomplished via the lactone (+)-4.     

Design and Synthesis of Acyclic Nucleoside Analogs with Chlorinated Imidazo[1,2-a]pyridine Bases

Abstract

A series of acyclic C-nucleoside analogs of 2,6-dichloro- and 2,6,7-trichloroimidazo[1,2-a]pyridine were synthesized and tested for antiviral activity. The appropriate hydroxymethyl-substituted heterocycles were treated successively with thionyl chloride, an appropriate nucleophile, then diisopropylethylamine to obtain the desired acyclic nucleoside analogs. These compounds were evaluated for activity against human cytomegalovirus and herpes simplex virus, type 1. Two of the dichloro analogs, but none of the trichloro analogs demonstrated slight antiviral activity (IC₅₀'s = 20–45 µM) at non-cytotoxic concentrations.     

Synthesis of 5-Methyl-2′-O-Deoxycytidine Analogs to Determine Monoclonal Antibody Specificity in the Recognition of the 6-(p-Bromobenzoylamino) Caproyl Radical

Abstract

Eight new p-bromobenzoyl derivatives of 5-methyl-2′-O-deoxycytidine analogs, substituted at the 4-position, were synthesized. The best conditions for obtaining 5-methyl-4-N-aminoalkyl-2′-O-deoxycytidine from 3′,5′-di-O-acetyl-4–(1,2,4-triazol-1-yl)-2′-O-deoxythymidine were studied. The nucleoside analogs were used to identify the fragment of the 6-(p-bromobenzoylamino)caproyl radical that binds to the monoclonal antibody obtained against it and to define an affinity scale of monoclonal antibody against them.     

Synthesis and activity of phosphono desmuramyldipeptide analogs

Summary Two phosphono desmuramyldipeptide analogs, 6 and 11, were synthesized and evaluated for immunomodulatory activity. Phthalimido-and adamantyl-substituted side chains as a replacement for the N-acetylmuraminic acid were coupled with appropriate dipeptides using DPPA as the coupling reagent. Introduction of a phosphonamidate moiety in compound 6 resulted in lower biological activity.