Norma B. D'Accorso

Proton and C-13 nuclear magnetic resonance spectra of some benzoylated aldohexoses

Abstract Chemical shifts and coupling constants of 1 H-n.m.r. spectra of the perbenzoates of α- d -glucopyranose ( 1 ), β- d -glucopyranose ( 2 ), α- d -galactopyranose ( 3 ), α- d -mannopyranose ( 4 ), β- d -mannopyranose ( 5 ), and α- d -galactofuranose ( 6 ) are reported. The 13 C-n.m.r. chemical shifts of compounds 1-3 and 6 , and of penta- O -benzoyl-β- d -galactofuranose ( 7 ) are given. Mass spectra were used to differentiate the furanoses 6 and 7 from the pyranose 3 .

Inhibitory effect of thiosemicarbazone derivatives on Junin virus replication in vitro

The inhibitory effect of several thiosemicarbazones (TSCs), synthesized from aromatic ketones and terpenones, and their heterocyclic thiadiazoline (TDZ) derivatives, was investigated against Junin virus (JUNV), an arenavirus agent of Argentine haemorrhagic fever. From the 25 compounds tested, six compounds belonging to the TSC group were found to be selective inhibitors of JUNV, with EC50 values determined by a virus yield inhibition assay in the range 3.4–12.5 μM, and selectivity indices greater than 10. By contrast, most of the TDZs obtained by heterocyclization of the TSCs were not active against JUNV. No conclusive structure-activity relationships could be established but systematically higher activity was associated to TSCs derived from aromatic ketones. The mode of action of one of the most active compound, the 3,4-dihydronaphtalen-1(2H)one thiosemicarbazone (tetralone thiosemicarbazone), was studied further. This TSC lacked virucidal effects on JUNV virions. Results from time of addition experiments and viral protein expression assays suggest that tetralone thiosemicarbazone inhibited a late stage in the replicative cycle of JUNV.

Imidazo[2,1-b]thiazole carbohydrate derivatives: Synthesis and antiviral activity against Junin virus, agent of Argentine hemorrhagic fever

Herein, we describe the syntheses of 3,5-disubstituted imidazo[2,1-b]thiazole. The cyclization step was performed in two different conditions by using either thermal or microwave heating. Comparing the results of both methodologies, we found that the microwave assistance is an improved alternative to obtain this family of heterocyclic compound. Compounds were first evaluated for cytotoxicity in Vero cells by MTT method and then, the antiviral activity was assayed by a virus yield inhibition assay in the range of concentrations lower than the corresponding CC(50), using JUNV strain IV4454 as the model system. The most active compounds (3 and 4), showed a level of antiviral activity against JUNV in monkey Vero cells better than the reference substance ribavirin. Then, they are promising lead compound for further analysis and characterization to establish their therapeutic potential against hemorrhagic fever viruses.

Synthesis and evaluation of N-substituted acridones as antiviral agents against haemorrhagic fever viruses.

Background: In the present study, a series of N-substituted acridone derivatives was synthesized and evaluated against two haemorrhagic fever viruses (HFV). Methods: Compounds were tested against Junin virus (JUNV), an arenavirus agent of Argentine haemorrhagic fever, and dengue virus (DENV), a flavivirus agent of the most prevalent arthropod-borne viral disease in humans. Results: Among tested compounds, two N-allyl acridones (derivatives 3c and 3f) elicited a potent and selective antiviral activity against JUNV (strain IV4454) and DENV-2 (strain NGC) with 50% effective concentration values between 2.5 and 5.5 µM, as determined by virus yield inhibition. No cytotoxicity was detected at concentrations up to 1,000 µM, resulting in selectivity indices > 181.8–400.0. Both acridones were effective against a wide spectrum of arenaviruses and the four serotypes of DENV. Furthermore, 3c and 3f failed to inactivate virus before cell infection as well as to induce a refractory state by cell pretreatment, indicating that the inhibitory effect was exerted through a blockade in virus multiplication during the infectious process. Conclusion: These data are the first demonstration that acridone derivatives have a potent antiviral activity that block in vitro multiplication of HFV belonging to Arenaviridae and Flaviviridae, such as JUNV and DENV.

Imidazothiazole and related heterocyclic systems. Synthesis, chemical and biological properties

Fused heterobicyclic systems have gained much importance in the field of medicinal chemistry because of their broad spectrum of physiological activities. Among the heterocyclic rings containing bridgehead nitrogen atom, imidazothiazoles derivatives are especially attractive because of their different biological activities. Since many imidazothiazoles derivatives are effective for treating several diseases, is interesting to analyze the behavior of some isosteric related heterocycles, such as pirrolothiazoles, imidazothiadiazoles and imidazotriazoles. In this context, this review summarizes the current knowledge about the syntheses and biological behavior of these families of heterocycles. Traditional synthetic methodologies as well as alternative synthetic procedures are described. Among these last methodologies, the use of multicomponent reaction, novel and efficient coupling reagents, and environmental friendly strategies, like microwave assistance and solvent-free condition in ionic liquids are also summarized. This review includes the biological assessments, docking research and studies of mechanism of action performed in order to obtain the compounds leading to the development of new drugs.

Behavior of free sugar thiosemicarbazones toward heterocyclization reactions

The heterocyclization reaction on thiosemicarbazones having the D-galacto, D-gluco and D-manno configuration was studied. We applied two different acetylating conditions, and the reaction products obtained were identified, spectroscopically characterized, and conformationally analyzed. Using experimental data, we discuss a possible mechanistic pathway for heterocyclization and evaluate the influence of several factors, including starting material configuration, pH of reaction medium, and reaction time.

Acridones As Antiviral Agents: Synthesis, Chemical and Biological Properties

Acridones are a class of compounds that have attracted attention in recent years for their wide range of biological properties, including selective inhibition of diverse human pathogenic viruses. The wide spectrum of antiviral activity includes DNA and RNA viruses, such as herpes simplex virus, cytomegalovirus, adenovirus, hepatitis C virus, dengue virus, and Junin virus, among others, indicative of the involvement of cellular factors as potential targets of acridone derivatives. At the present, their precise mode of action is not clearly determined, although the predominant action seems to be centered on the synthesis of nucleic acids. Regarding this point, inhibitory activity against cellular and viral enzymes and the ability to intercalate into nucleic acid molecules was demonstrated for some acridone compounds. Then, the possibility of a multiple effect on different targets renewed interest in these agents for virus chemotherapy allowing a potent inhibitory effectiveness associated to less feasibility of generating antiviral resistance. This review summarizes the current knowledge regarding the methods of synthesis, the antiviral properties of acridone derivatives, their mechanism of action, and structural characteristics related to antiviral activity as well as the perspectives of this class of compounds for clinical application against human viral infections.

Effects of p-Vinylphenyl Glycosides and Other Related Compounds on the Oviposition Behavior of Ceratitis capitata

Elaphoside-A [p-vinylphenyl (β-d-glucopyranosyl)-(1→3)-β-d-allopyranoside], a Mediterranean fruit fly oviposition deterrent, was previously isolated from an Argentine collection of the fern Elaphoglossum piloselloides. In order to establish the structural requirements for the observed oviposition inhibition, we synthesized and characterized 4 known and 21 new aromatic glycosides structurally related to elaphoside-A. Their effects on the oviposition behavior of Ceratitis capitata females are discussed.

Synthesis of N-allyl and N-propadienylacridones using phase-transfer catalysis

A convenient procedure for the synthesis of N-allyl substituted acridones under phase-transfer catalysis is reported using allyl bromide as alkylating agent. When propargyl bromide was used, in the same reaction conditions, no propynylacridone was detected in the reaction and only propadienylacridone was obtained in moderate yield.

Synthesis of New Five Membered Nitrogen Containing Heterocycles Bearing D-Galactose Side Chains

Abstract The synthesis of 5-[6′-deoxy-(1′,2′:3′,4′-di-O-isopropylidene-α-D-galactopyranos-6′-yl)]tetrazole and its reaction with acetic anhydride and 1,2:3,4-di-O-isopropylidene-6-O-(4-toluenesulfonyl)-α-D-galactopyranose are described.