Synthesis and Evaluation of Bioactivity of Thiazolo[3,2‐b]‐[1,2,4]‐triazoles and Isomeric Thiazolo[2,3‐c]‐[1,2,4]‐triazoles

Synthesis of 2‐(o‐nitrophenyl)‐6‐arylthiazolo[3,2‐b]‐[1,2,4]‐triazoles 4 and its isomer 3‐(o‐nitrophenyl)‐5‐arylthiazolo[2,3‐c]‐[1,2,4]‐triazoles 6 has been achieved starting from the appropriate 1‐(o‐nitrobenzoyl)‐3‐thiosemicarbazide 1 . Compound 1 on condensation with α‐haloketones gives 2‐(o‐nitrobenzoyl)hydrazino‐4‐arylthiazole hydrobromide 5 , which, on cyclization with POCl₃, affords thiazolo[3,2‐b]‐[1,2,4]‐triazoles 6 and not the isomeric thiazolo[3,2‐b]‐[1,2,4]‐triazoles 4 . This has been established by an unequivocal synthesis of 4 through polyphosphoric acid cyclization of 5‐aroylmethylmercapto‐3‐o‐nitrophenyl‐[1,2,4]‐triazole 3 . Compound 3 was synthesized by condensation of α‐haloketones with 5‐mercapto‐3‐(o‐nitrophenyl)‐[1,2,4]‐triazole 2 , obtained cyclization of 2‐(o‐nitrobenzoyl)hydrazinecarbothioamide 1 with NaOH. The antibacterial and antifungal activities of some of the compounds have also been evaluated.     

10‐Ethyl‐3‐(4‐methoxy­phenyl)‐1,2,4‐triazolo­[4′,3′:2,3]‐1,2,4‐triazino[5,6‐b]­indole

Oxidative cyclization of 5‐ethyl‐3‐(4‐methoxy­benzyl­idene)­hydrazino‐1,2,4‐triazino­[5,6‐b]­indole gave the linearly annel­ated title compound, C₁₉H₁₆N₆O. The skeleton is approx­imately planar, except for the ethyl group.     

Furopyridines. XXVI. Reactions of cyanopyridine derivatives of furo[2,3‐b]‐, ‐[3,2‐b]‐, ‐[2,3‐c]‐ and ‐[3,2‐c]pyridine

Bromination of α‐cyanopyridine derivatives of furopyridines 1a‐d gave the 2,3‐dibromo‐2,3‐dihydro compounds 2a‐d in excellent yields. Treatment of 2a‐d with sodium hydroxide in methanol yielded compounds formed through the dehydrobromination and solvolysis of the nitrile. N‐Oxidation of 1a and 1b gave N‐oxide in much poor yield, while 1c and 1d gave the N‐oxide 13c and 13d in good yields. The nucleophilic reactions (cyanation, chlorination and acetoxylatoin) of 13c through a Reissert‐Henze type reaction gave poor results, which would be caused by the strong electron withdrawing effect of the cyano group.     

On triazoles XLVIII. Synthesis of isomeric amino‐thiazolo‐[1,2,4]triazole,amino‐[1,2,4]triazolo‐[1,3]thiazine and ‐[1,3]thiazepine derivatives

Isomeric type 1 and 2 amino‐1,2,4‐triazoles condensed with thiazole, thiazine and thiazepine rings were synthesised from 5‐amino‐2,3‐dihydro‐1H‐1,2,4‐triazol‐3‐thione and α,ω‐dihaloalkanes through the 5‐amino‐3‐(ω‐haloalkylthio)‐1H‐1,2,4‐triazole intermediates. The reaction conditions leading to derivatives 1 and 2 , respectively, were determined. A general and safe method for the unambiguous differentiation between structures 1 and 2 was offered by their cmr spectra.     

Synthesis of 2‐formyl‐1‐aza‐dibenzo[e,h]azulenes

Synthesis of a novel heterocyclic class of compounds, 1‐aza‐dibenzo[e,h]azulenes [1] ( 6a‐c and 7a‐c ), derived from dibenzo[b,f]oxepin, its 8‐chloro analogue and dibenzo[b,f]thiepin, respectively, is described. Aldol condensation of the starting ketones 4a‐c with (dimethyl‐hydrazono)‐acetaldehyde affords hydrazonoethylidene derivatives 5a‐c , which on reduction with sodium dithionite and subsequent cyclization provide the target tetracyclic 1‐aza‐dibenzo[e,h]azulenes 6a‐c . Regiospecific formylation of 6a‐c with Vilsmeier reagent leads to 2‐formyl derivatives 7a‐c . A series of derivatives 6a‐c and 7a‐c was tested for antiinflammatory activity as potential inhibitors of tumor necrosis factor alpha (TNF‐α) production in vitro.     

2‐(2‐Pyridyl­imino)‐2H‐1,2,4‐thia­diazo­lo­[2,3‐a]­pyridine

The title compound, C₁₁H₈N₄S, is found to have a symmetrical resonance structure in which both pyridyl‐N atoms interact with the S atom forming hemi‐bonds. This also results in the formation of a delocalized di­imine region and disturbance of the aromaticity in the pyridyl rings.     

A Convenient Synthesis of 2,3‐Dihydro‐4H‐thiopyrano[2,3‐b]‐, ‐[2,3‐c]‐, or ‐[3,2‐c]pyridin‐4‐ones by the Reaction of the Corresponding 1‐(Chloropyridinyl)alk‐2‐en‐1‐ones with NaSH

2,3‐Dihydro‐4H‐thiopyrano[2,3‐b]pyridin‐4‐ones 4 were prepared by a three‐step sequence from commercially available 2‐chloropyridine ( 1 ). Thus, successive treatment of 1 with ⁱPr₂NLi (LDA) and α,β‐unsaturated aldehydes gave 1‐(2‐chloropyridin‐3‐yl)alk‐2‐en‐1‐ols 2 , which were oxidized with MnO₂ to 1‐(2‐chloropyridin‐3‐yl)alk‐2‐en‐1‐ones 3 . The reactions of 3 with NaSH?n H₂O proceeded smoothly at 0° in DMF to provide the desired thiopyranopyridinones. Similarly, 2,3‐dihydro‐4H‐thiopyrano[2,3‐c]pyridin‐4‐ones 8 and 2,3‐dihydro‐4H‐thiopyrano[3,2‐c]pyridin‐4‐ones 12 were obtained starting from 3‐chloropyridine ( 5 ) and 4‐chloropyridine ( 9 ), respectively.     

Azinoiminophosphorane mediated 4H,8H‐1,2,4‐triazolo[1,5‐C]‐[1,3]oxazepin‐4‐ones and 5,6‐dihydro‐7H, 12H‐naphtho[2,1‐f]‐[1,2,4]triazolo[1,5‐c][1,3]oxazepin‐7‐ones synthesis

The aza‐Wittig reactions of benzaldehyde‐, acetophenone‐ and benzophenone 1‐[(triphenylphosphor‐anylidene)amino]ethylidenehydrazones ( 1 ) with 2,3‐furandiones 6 provide a new route to 4H,8H‐1,2,4‐triazolo[1,5‐c][1,3]oxazepin‐4‐ones 14 or 5,6‐dihydro‐7H,12H‐naphtho[2,1‐f|[1,2,4]triazolo[1,5‐c]‐[1,3]oxazepin‐7‐ones 17 via the thermal reaction of the expected azinoimine vinylogous lactones.     

Three‐Step Synthesis of 3‐Aryl‐2‐sulfanylthieno[2,3‐b]‐, ‐[2,3‐c]‐, or ‐[3,2‐c]pyridines from the Corresponding Aryl(halopyridinyl)methanones

A convenient three‐step procedure for the synthesis of three types of 3‐aryl‐2‐sulfanylthienopyridines 4, 8 , and 12 has been developed. The first step of the synthesis of thieno[2,3‐b]pyridine derivatives 4 is the replacement of the halo with a (sulfanylmethyl)sulfanyl group in aryl(2‐halopyridin‐3‐yl)methanones 1 by successive treatment with Na₂S?9 H₂O and chloromethyl sulfides to give aryl{2‐[(sulfanylmethyl)sulfanyl]pyridin‐3‐yl}methanones 2 . In the second step, these were treated with LDA (LiNⁱPr₂) to give 3‐aryl‐2,3‐dihydro‐2‐sulfanylthieno[2,3‐b]pyridin‐3‐ols 3 , which were dehydrated in the last step with SOCl₂ in the presence of pyridine to give the desired products. Similarly, thieno[2,3‐c]pyridine and thieno[3,2‐c]pyridine derivatives, 8 and 12 , respectively, can be prepared from aryl(3‐chloropyridin‐4‐yl)methanones 5 and aryl(4‐chloropyridin‐3‐yl)methanones 9 , respectively.     

8‐Chloro‐6‐phenyl‐4H‐[1,2,4]­triazolo­[4,3‐a][1,5]­benzodiazepin‐5(6H)‐one

The title compound, C₁₆H₁₁ClN₄O, is an anticonvulsant agent. In the crystal, a particularly short C—H?N intermolecular hydrogen bond is noted [H?N 2.22 (2) Å]. The diazepine ring has a boat conformation.     

Synthesis of 6‐(5‐Methylisoxazol‐3yl)‐3‐alkyl Sulfanyl‐[1,2,4]triazolo‐[3,4‐b][1,3,4]thiadiazoles

A new series of isoxazole substituted fused triazolo‐thiadiazoles have been synthesized by the cyclocondensation of 5‐methylisoxazole‐3‐craboxylic acid and 4‐amino 1,2‐4‐triazole‐ 3,5‐dithiol using phosphorous oxychloride. The cyclised intermediate 6‐(5‐methylisoxazol‐3‐yl)‐[1,2,4]triazolo[3,4‐b][1,3,4]thiadiazole‐3‐thiol later on S‐alkylated with different alkyl halides in ethanol to give the title products in good to excellent yields.     

Synthesis and Hypolipidemic Activity of New 6,6‐Disubstituted 3‐R‐6,7‐Dihydro‐2H‐[1,2,4]triazino[2,3‐c]quinazolin‐2‐Ones

Presented article describes the synthesis and hypolipidemic activity of previously unknown 6,6‐disubstituted 3‐R‐6,7‐dihydro‐2H‐[1,2,4]triazino[2,3‐c]quinazolin‐2‐ones. It was shown, that interaction of 6‐R‐3‐(2‐aminophenyl)‐1,2,4‐triazin‐5(2Н)‐оnes with methylalkylketones in acetic acid resulted the single product, namely, the desired tricyclic derivatives. At the same time, after refluxing of 6‐R‐3‐(2‐aminophenyl)‐1,2,4‐triazin‐5(2Н)‐оnes with methylarylketones in acetic acid the mixture of target compound and insignificant amount of corresponding 3‐substituted 6‐methyl‐2H‐[1,2,4]triazino[2,3‐c]quinazolin‐2‐ones were isolated. The mechanism of above‐mentioned mixture formation was discussed. The structures of all synthesized compounds were proven using the appropriate physicochemical methods. The compounds with promising lipid‐lowering activity were identified and the «structure — hypolipidemic activity» correlations were discussed.     

Synthesis and biological evaluation of new benzo[f]furo[2,3‐h]‐and benzo[f]pyrano[2,3‐h]coumarin derivatives.

Furocoumarins 3,5 and pyranocoumarin 7 were synthesized from the reaction of furonaphthalenediones 2,4 and pyranonaphthalenedione 6 respectively with carbethoxymethylene(triphenyl)phosphorane in refluxing DCM for 3‐6 hours or under microwave irradiation in toluene for a few minutes. Compounds 3,5,7 and their precursors were tested as anti‐inflammatory/antioxidant agents. They were found to compete significantly high DMSO for OH radicals, to scavenge O₂^? and to inhibit lipoxygenase to a high extent.     

Synthesis and antifungal activity of novel 3,6‐diaryl‐5H‐[1,2,4]triazolo[4,3‐b][1,2,4]triazepines

5‐Aryl‐3,4‐diamino‐1,2,4‐triazoles 5 on treatment with β‐chlorocinnamaldehydes 7 in the presence of catalytic amount of p‐TsOH and N,N‐dimethylformamide as an energy transfer medium under microwave irradiation and as solvent with oil‐bath heating at 80 °C affords novel 3,6‐diaryl‐5H‐[1,2,4]triazolo[4,3‐b]‐1,2,4]triazepines 8 . The structures of the synthesized compounds were established on the basis of ¹H NMR, IR, mass spectral data and elemental analysis.     

Syntheses of some new azolopyrido‐[4′,3′:4,5]thieno[2,3‐d]pyrimidines

Diethyl 2‐[(ethoxythioxomethyl)amino]‐4,5,6,7‐tetrahydrothieno[2,3‐c]‐pyridine‐3,6‐dicarboxylate 2 , prepared from diethyl 2‐isothiocyanato‐4,5,6,7‐tetrahydrothieno[2,3‐c]pyridine‐3,6‐dicarboxylate 1 by boiling in anhydrous ethanol, was converted into pyrido[4′,3′:4,5]thieno[2,3‐d]pyrimidine derivatives 3, 4 by treatment with hydrazine hydrate. The tetracyclic systems imidazo[1,2‐a]pyrido‐[4′,3′:4,5]thieno[2,3‐d]pyrimidine 9 and pyrido[4′,3′:4,5]thieno[2,3‐d][1,3]thiazolo‐[3,2‐a]pyrimidine 10 were synthesized by the reaction of 2 with 1,2‐diaminoethane and aminoethanethiol, respectively. The hydrazino derivative 4 underwent cyclization reactions with orthoesters and nitrous acid to give the corresponding pyrido[4′,3′:4,5]thieno[2,3‐d][1,2,4]triazolo[1,5‐a]pyrimidines 5, 6 and pyrido[4′,3′:4,5]thieno[3,2‐e][1,2,3,4]tetrazolo[1,5‐a]pyrimidine 8 , respectively. Moreover, reactions of 3 with cyanogen bromide, N‐carbethoxyhydrazine, carbon disulfide, and ethylchloroformate resulted in the formation of the new pyrido[4′,3′:4,5]thieno[2,3‐d][1,3,4]thiadiazolo[3,2‐a]pyrimidine derivatives 12–15 . © 2002 Wiley Periodicals, Inc. Heteroatom Chem 13:280–286, 2002; Published online in Wiley Interscience (www.interscience.wiley.com). DOI 10.1002/hc.10030     

One‐step preparation of some 2‐isopropenyl‐2,3‐dihydronaphtho‐[2,3‐b]furan‐4,9‐diones

Some 2‐isopropenyl‐2,3‐dihydronaphtho[2,3‐b]furan‐4,9‐diones la‐f,b',f were prepared by one‐step cyclizations of 2‐hydroxy‐1,4‐naphthoquinones 2a‐f with 1,4‐dibromo‐2‐methyl‐2‐butene ( 3 ).     

4‐[4‐(Di­methyl­amino)­benzyl­idene­amino]‐3,5‐bis(2‐pyridyl)‐4H‐1,2,4‐triazole

The title compound, C₂₁H₁₉N₇, is a poly­pyridine ligand that is suitable for assembling complex metal systems capable of photoinduced electron transfer. The solid‐state structure has been determined at room temperature by single‐crystal X‐ray diffraction. The mol­ecule is not flat and both the bis­(pyridyl)­triazole and the benzyl­id­ene­amine fragments show significant distortions from planarity.     

Synthesis of 5‐[(4‐phenylpiperazin‐1‐yl)methyl]pyrrolo‐[2,3‐d]pyrimidine derivatives as potential dopamine D4 receptor ligands

A series of pyrrolo[2,3‐d]pyrimidine Mannich bases of type 9, 12, 15 and 16 have been prepared as potential dopamine D4 receptor ligands. The syntheses start from 4‐aminopyrimidin‐6‐one 3 with pyrrole annulations and Mannich reactions with formaldehyde and phenylpiperazines 8 as new amine components.     

4‐[2‐(4‐Methoxyphenyl)ethenyl]‐N‐methylpyridinium tetraphenylborate

In the cation of the title compound, C₁₅H₁₆NO⁺·C₂₄H₂₀B^?, the pyridyl ring makes a dihedral angle of 14.03° with the phenyl ring. The anion has a slightly distorted tetrahedral geometry and forms honeycomb‐like sheets which extend along the b axis, forming channels containing the cations. A comparison of packing energies reveals a difference between the title compound and a similar material which has non‐linear optical properties.