Synthesis and biological evaluation of fatty acyl ester derivatives of 2',3'-didehydro-2',3'-dideoxythymidine

A number of 5′-O-fatty acyl derivatives of 2′,3′-didehydro-2′,3′-dideoxythymidine (stavudine, d4T) were synthesized and evaluated for anti-HIV activities against cell-free and cell-associated virus, cellular cytotoxicity, and cellular uptake studies. The conjugates were found to be more potent than d4T. Among these conjugates, 5′-O-12-azidododecanoyl derivative of d4T (2), displaying EC₅₀ = 3.1-22.4 μM, showed 4- to 9-fold higher activities than d4T against cell-free and cell-associated virus. Cellular uptake studies were conducted on CCRF-CEM cell line using 5(6)-carboxyfluorescein derivatives of d4T attached through β-alanine (9) or 12-aminododecanoic acid (10) as linkers. The fluorescein-substituted analog of d4T with long chain length (10) showed 12- to 15-fold higher cellular uptake profile than the corresponding analog with short chain length (9). These studies reveal that conjugation of fatty acids to d4T enhances the cellular uptake and anti-HIV activity of stavudine.     

Synthesis and mass spectrometry of new compounds related to the tocopherols and plastoquinones

Seven new isomers of α-tocopherol acetate have been synthesized from di- and trimethylated phenols. The compounds synthesized are: 2,5,6,7-tetramethyl-8-acetoxy-2-(4′,8′,12′-trimethyltridecyl) chroman (“ortho tocopherol acetate”), 7, and the six possible structural isomers of dimethylphytyl-1-methoxy-4-acetoxy-benzene, 12, 13, 14, 15, 18, and 19. Upon mass spectral determination, the seven synthetic compounds and natural α-tocopherol acetate produced the same fragment ions, the only differences in the spectra being in the relative intensities of some of the fragments.     

Oxime-phosphazenes containing dioxybiphenyl groups

2,2-Dichloro-4,4,6,6-bis[spiro(2′,2′′-dioxy-1′,1′′-biphenylyl]cyclotriphosphazene (2) was obtained from the reaction of hexachlorocyclotriphosphazene (1) with biphenyl-2,2′-diol. 2,2-Bis(4-formylphenoxy)-4,4,6,6-bis[spiro(2′,2′′-dioxy-1′,1′′-biphenylyl]cyclotriphosphazene (3) was synthesized from the reaction of 2 with 4-hydroxybenzaldehyde. The novel oxime-cyclophosphazene containing dioxybiphenyl groups (4) was synthesized from the reaction of 3 with hydroxylaminehydrochloride in pyridine. The reactions of this oxime-cyclophosphazene with propanoyl chloride, allyl bromide, acetyl chloride, methyl iodide, benzoyl chloride, 4-methoxybenzoyl chloride, benzenesulfonyl chloride, chloroacetyl chloride, ethyl bromide, benzyl chloride and 2-chlorobenzoyl chloride were studied. Disubstituted compounds were obtained from the reactions of 4 with propanoyl chloride, allyl bromide, acetyl chloride, methyl iodide, benzoyl chloride, 4-methoxybenzoyl chloride, chloroacetyl chloride, ethyl bromide, and 2-chlorobenzoyl chloride, however, the oxime groups on 4 rearranged to nitrile (11) in the reaction of 4 with benzenesulfonyl chloride. A monosubstituted compound was obtained from the reaction of 4 with benzyl chloride. All products were generally obtained in high yields. The structures of the compounds were defined by elemental analysis, IR, ¹H, ¹³C and ³¹P NMR spectroscopy.     

Synthesis of 4,6-dideoxy-3-fluoro-2-keto-β-d-glucopyranosyl analogues of 5-fluorouracil, N-benzoyl adenine, uracil, thymine, N-benzoyl cytosine and evaluation of their antitumor activities

The synthesis of the unsaturated 4,6-dideoxy-3-fluoro-2-keto-β-d-glucopyranosyl nucleosides of 5-fluorouracil (6a), N⁶-benzoyl adenine (6b), uracil (6c), thymine (6d) and N⁴-benzoyl cytosine (6e), is described. Monoiodination of compounds 1a,b, followed by acetylation, catalytic hydrogenation and finally regioselective 2′-O-deacylation afforded the partially acetylated dideoxynucleoside analogues of 5-fluorouracil (5a) and N⁶-benzoyl adenine (5b), respectively. Direct oxidation of the free hydroxyl group at the 2′-position of 5a,b, with simultaneous elimination reaction of the β-acetoxyl group, afforded the desired unsaturated 4,6-dideoxy-3-fluoro-2-keto-β-d-glucopyranosyl derivatives 6a,b. Compounds 1c-e were used as starting materials for the synthesis of the dideoxy unsaturated carbonyl nucleosides of uracil (6c), thymine (6d) and N⁴-benzoyl cytosine (6e). Similarly a protection-selective deprotection sequence followed by oxidation of the free hydroxyl group at the 2′-position of the dideoxy benzoylated analogues 9c-e with simultaneous elimination reaction of the β-benzoyl group, gave the desired nucleosides 6c-e. None of the compounds was inhibitory to a broad spectrum of DNA and RNA viruses at subtoxic concentrations. The 5-fluorouracil derivative 6a was more cytostatic (50% inhibitory concentration ranging between 0.2 and 12 μM) than the other compounds.     

Spirodiketopiperazine-based CCR5 antagonist: discovery of an antiretroviral drug candidate

Following the discovery that hydroxylated derivative 3 (Fig. 1) was one of the oxidative metabolites of the original lead 1, it was found that hydroxylated compound 4 possesses higher in vitro anti-HIV potency than the corresponding non-hydroxylated compound 2. Structural hybridation of 4 with the orally available analog 5 resulted in another orally-available spirodiketopiperazine CCR5 antagonist 6a that possesses more favorable pharmaceutical profile for use as a drug candidate.     

Structural requirements of (E)-6-benzylidene-4a-methyl-4,4a,5,6,7,8-hexahydronaphthalen-2(3H)-one derivatives as novel melanogenesis inhibitors

Chalcone type compound 1a ((E)-6′-benzylidene-4a′-methyl-4′,4a′,7′,8′-tetrahydro-3′H-spiro[[1,3]dithiolane-2,2′-naphthalen]-5′(6′H)-one) was discovered as an potent inhibitor in melanogenesis. To define its structure-activity relationship, a series of analogs 1b-n, dithiolane truncated 2a-b and ring A removed 3a-e were prepared and evaluated. The electron donating substitution on the phenyl ring (ring C) rather than an electron withdrawing group and dithiolane motif of 1 are needed for the activity enhancement. The scaffold containing both rings A and B associated with α,β-unsaturated system connected to phenyl of 1 was essential for antimelanogenesis.     

Enantiopure dihalocyclopropyl alcohols and esters by lipase catalyzed kinetic resolution

Four halogenated cyclopropane derivatives with a side chain containing a primary (1 and 2) or secondary (3 and 4) alcohol moiety were subject to kinetic resolution catalyzed by lipases. Two of them containing secondary alcohol groups gave excellent results with Candida antarctica lipase B with E-values around 1000. Two enantiopure alcohols and two enantiopure butanoates are described: (1S,1′S)-1-(2′,2′-dichloro-3′,3′-dimethylcyclopropyl) ethanol (3), the corresponding (1R,1′R)-butanoate (3b) and (1S,1′S)-1-(1′-methyl-2′,2′-dibromocyclopropyl) ethanol (4) and the corresponding (1R,1′R)-butanoate (4b).     

β-Diiminatolanthanoid(III) halides revisited

The crystalline compounds [LnCl₂(L)(thf)₂] [Ln = Ce (1), Tb (2), Yb (3)], [NdI₂(L)(thf)₂] (4), [LnCl(L′)₂] [Ln = Tb (5), Yb (6) (a known compound)] and [YbCl(L′′)(μ-Cl)₂Li(OEt₂)₂] (7) have been prepared [L = {N(C₆H₃Prⁱ₂-2,6)C(H)}₂CPh, L′ = {N(SiMe₃)C(Ph)}₂CH, L′′ = {N(SiMe₃)C(C₆H₄Ph-4)}₂CH]. The X-ray molecular structures of 2-7 have been established; in each, the monoanionic ligand L, L′ or L′′ is N,N′-chelating and essentially π-delocalised. Each of 1-7 was prepared from the appropriate LnCl₃, or for 4 [NdI₃(thf)₂], and an equivalent portion of the appropriate alkali metal [Li for 7, Na for 2, 3 and 5, or K for 1, 4 and 6] β-diiminate in thf; the isolation of exclusively 5 and 6 (rather than the L′ analogues of 2 or 3) is noteworthy, as is the structure of 7 which has no precedent in Group 3 or 4f metal β-diiminato chemistry.     

Synthesis of novel mononuclear and dinuclear ruthenium(II) complexes with terpyridine and acetylacetonate ancillary ligands and cyanamide derivative ligands

Several new mononuclear and dinuclear ruthenium(II) complexes - incorporating 2,2′:6′,2″-terpyridine and acetylacetonate as ancillary ligands and phenylcyanamide derivative ligands - of the type [Ru(tpy)(acac)(L)] and [{Ru(tpy)(acac)}₂(μ-L′)] (where tpy = 2,2′:6′,2″-terpyridine, acac = acetylacetonate, L = hmbpcyd = 4-(3-hydroxy-3-methylbutynyl)phenylcyanamide anion (2) and epcyd = 4-ethynylphenylcyanamide anion (3) and L′ = bcpda = bis(4-cyanamidophenyl)diacetylene dianion (4) and bcpea = 9,10-bis(4-cyanamidophenylethynyl)anthracene dianion (5)) were synthesized in a stepwise manner starting from [Ru(tpy)(acac)(Ipcyd)] (1), where Ipcyd = 4-iodophenylcyanamide anion. Tetraphenylarsonium salts of the phenylcyanamide derivative ligands were also prepared. The four complexes have been characterized by UV-Vis, IR, ES-MS, electrochemistry and ¹H NMR. Mononuclear complexes 2 and 3 were further characterized by ¹³C NMR. The single crystal X-ray structure of 2 was determined, it crystallized with one molecule of water with empirical formula of C₃₂H₃₁N₅O₅Ru, in a monoclinic crystal system and space group of P2₁/n with a = 17.642(5) Å, b = 9.634(2) Å, c = 20.063(7) Å, β = 92.65(3)°, V = 3406(2) Å³ and Z = 4. The structure was refined to a final R factor of 0.040. The Ru(III/II) couple of 1-3 appeared around 0.34 V versus the saturated calomel electrode in dimethylformamide and at a slightly higher potential, around 0.36-0.37 V for 4 and 5. Spectroelectrochemical studies were also performed for 4 and 5, no intervalence transition was observed despite all attempts.     

Absolute configuration of podophyllotoxin related lignans from Bursera fagaroides using vibrational circular dichroism

The ethanol extract from the dried exudate of Bursera fagaroides (Burseraceae) showed significant cytotoxic activity in the HT-29 (human colon adenocarcinoma) test system. The extract provided four podophyllotoxin related lignans, identified as (7′R,8R,8′R)-(−)-deoxypodophyllotoxin (3), (7′R,8R,8′R)-(−)-morelensin (4), (8R,8′R)-(−)-yatein (5), and (8R,8′R)-(−)-5′-desmethoxyyatein (6), whose spectroscopic and chiroptical properties were compared with those of (7R,7′R,8R,8′R)-(−)-podophyllotoxin (1) and its acetyl derivative (2). Their absolute configurations were assigned by comparison of the vibrational circular dichroism spectra of 1 and 3 with those obtained by density functional theory calculations.     

Structural studies of copper catalyzed hydroxylation reactions

The reaction of 2,6-diacetylpyridine, CuCl₂, and semicarbazide hydrochloride was studied as a function of pH to yield three different products: aqua(2-acetylsemicarbazone-3-hydroxo-6-acetylpyridine) chlorocopper(II) hemihydrate, 1, bis(2,6-diacetylpyridinedisemicarbazone)copper(I) chloride dimer, 2, and bis(2,6-diacetylpyridinedisemicarbazone)copper(II) chloride dimer, 3. The reaction of 1 with a mol of semicarbazide hydrochloride gave chloro(3-hydroxo-2,6-diacetylpyridinedisemicarbazone)copper(II) chloride hydrate, 4, and with a mol of semicarbazide hydrochloride and cupric chloride gave aquachlorocopper(II)(μ-chloro)(μ′-[2-acetylsemicarbazone-O,N-3-hydroxy-6-acetylsemicarbazonepyridine-O,N,N])aquacopper(II) trihydrate, 5. The crystal structures of compounds 1-5 were determined by X-ray diffraction. Some observations on the course of the reactions are given.     

Biomimetic conversion of (-)-fusoxypyridone and (-)-oxysporidinone to (-)-sambutoxin: further evidence for the structure of the tricyclic pyridone alkaloid, (-)-fusoxypyridone

Biomimetic-type reactions of the tricyclic pyridone alkaloid, (−)-fusoxypyridone [(−)-4,6′-anhydrooxysporidinone] (1), recently encountered in an endophytic strain of Fusarium oxysporum, and (−)-oxysporidinone (2) afforded (−)-sambutoxin (3) and an analogue of 1, identified as (−)-1′(6′)-dehydro-4,6′-anhydrooxysporidinone (4), thus confirming the structure previously proposed for 1 and suggesting that 1-3 bear the same relative stereochemistry. Oxidation of 4 with 2,3-dichloro-5,6-dicyano-1,4-benzoquinone (DDQ) yielded a hitherto unknown sambutoxin analogue, (−)-4,2′-anhydrosambutoxin (5).     

Protonated 4′-(2-pyridyl)-2,2′:6′,2″-terpyridine and its Fe(II) bischelates: Syntheses and molecular structures

Compounds of the molecular formulae, [LH₃](NO₃)₃ (1), [Fe(LH)₂](PF₆)₄·5H₂O (2), [Fe(L)₂][Fe(L)(LH)](PF₆)₅·H₂O (3), [Fe(L)₂][Fe(L)(LH)](BF₄)₅·2H₂O (4) and [Fe(L)₂](Cr₂O₇)·6H₂O (5) have been synthesized using 4′-(2-pyridyl)-2,2′:6′,2″-terpyridine (L). The molecular structures of all the compounds were determined. The Fe(II) complexes are high spin in nature at room temperature and upon cooling a gradual spin-transition is observed. Among 1-5, hydrogen-bonding, π···π, and anion···π interactions as well as water tetramer and pentamer are present in the molecular packing.     

Synthesis and biological evaluation of glycal-derived novel tetrahydrofuran 1,2,3-triazoles by ‘click’ chemistry

Thirteen new 1,2,3-triazoles (5a-e, 15a-d, 17a-b, 19, and 21) were synthesized by ‘click’ reaction of sugar-derived azides with commercially available acetylenes. The synthesized triazoles were tested in vitro for their biological activity, and compound 5b displayed both antibacterial and antifungal activities at an MIC value of 12.5 μg/mL, while compounds 15b and 19 showed antibacterial activity at an MIC value of 25 μg/mL.     

Synthesis, structure and antitumor activity of [RhCl3(N-N)(DMSO)] polypyridyl complexes

The [RhCl₃(N-N)(DMSO)] complexes, the N-N being 2,2′-bipyridine (1), 1,10-phenanthroline (2), 4,7-diphenyl-1,10-phenanthroline (3), 4,4′-dimethyl-2,2′-bipyridine (4) and 1,10-phenanthroline-5,6-dione (5), have been synthesized and characterized with spectroscopic methods. The compounds 2-5 adopt mer- and complex 1fac-structure. The molecular and electronic structure studies of mer- and fac-complexes with bpy and phen ligands at the DFT B3LYP level with 3-21G^∗∗ basis set showed that mer-isomers are more stable. The cytostatic activity of the [RhCl₃(N-N)(DMSO)] complexes against Caco-2 and A549 tumor cells have been studied. Their antibacterial activity have also been investigated. It has been found that the very promising biological activity show complexes 2, 3 and 4.     

Synthesis, structures and luminescent properties of new heterobimetallic Zn-4f Schiff base complexes

A series of new 3d-4f heterobimetallic Schiff base complexes of the general formula [Zn(μ-L²)Ln(NO₃)₃(H₂O)_n] (Ln = La 1, Nd 2, Gd 3, Er 4 and Yb 5; n = 1 or 2; H₂L² = N,N′-bis(3-methoxy-5-p-tolylsalicylidene)ethylene-1,2-diamine) are synthesized and characterized. Complexes 1, 2, 4 and 5 are structurally characterized by X-ray crystallography. The photophysical properties of these complexes are also investigated. At room temperature, complexes 1-5 exhibit similar solution absorption and emission spectra in the UV-Vis region. Furthermore, compounds 2, 4 and 5 exhibit solution emission corresponding to the lanthanide(III) ion in the near-infrared region at room temperature. The triplet state emission of the 3d-4f bimetallic complexes without energy transfer is also determined through the photophysical study of complex 3.     

Cd(II)-NCS/NCO complexes of 1-alkyl-2-(arylazo)imidazole: Single crystal X-ray structure of [Cd(HaaiMe)2(SCN)2]

The reaction of Cd(OAc)₂ · 4H₂O and 1-alkyl-2-(arylazo)imidazole [RaaiR′ where R = H (a), Me (b); R′ = Me (1/3/5), Et (2/4/6)] and NH₄NCS/NaNCO in methanol in 1:2:2 mole ratio has afforded [Cd(RaaiR′)₂(NCS)₂] (3, 4) and [Cd(RaaiR′)₂(NCO)₂] (5, 6) complexes. The complexes are characterized by different physicochemical methods and in one case, the structure was confirmed by single crystal X-ray diffraction study for title compounds.     

Discovery of novel ureas and thioureas of 3-decladinosyl-3-hydroxy 15-membered azalides active against efflux-mediated resistant Streptococcus pneumoniae

A series of novel ureas and thioureas of 3-decladinosyl-3-hydroxy 15-membered azalides, were discovered, structurally characterized and biologically evaluated. They have shown good antibacterial activity against selected Gram-positive and Gram-negative bacterial strains. These include N″ substituted 9a-(N′-carbamoyl-γ-aminopropyl)- (6a,c), 9a-(N′-thiocarbamoyl-γ-aminopropyl)- (7a,e), 9a-[N′-(β-cyanoethyl)-N′-(carbamoyl-γ-aminopropyl)]- (9a-c, 9g) 9a-[N′-(β-cyanoethyl)-N′-(thiocarbamoyl-γ-aminopropyl)]-derivatives (10d-f) of 5-O-desosaminyl-9-deoxo-9-dihydro-9a-aza-9a-homoerythronolide A (3).Among the synthesized compounds thiourea 7a and urea 9b have shown substantially improved activity comparable to azithromycin (1) and significantly better activity than the 3-decladinosyl-azithromycin (2) and the parent 3-cladinosyl analogues against efflux-mediated resistant S. pneumoniae.     

Synthesis, photoluminescence and electrochemiluminescence of ruthenium(II) polypyridyl complexes based on bipyridine derivatives with carbazole moieties

Six complexes (1-6) with the type of [Ru(bpy)₂L]X₂ (1-3: L = L1-L3, X = Cl⁻; 4-6: L = L1-L3, X = PF₆⁻) were synthesized based on 2,2′-bipyridine and three 2,2′-bipyridine derivatives L1, L2 and L3 (L1 = 5,5′-dibromo-2,2′-bipyridine, L2 = 5-bromo-5′-carbazolyl-2,2′-bipyridine, L3 = 5,5′-dicarbazolyl-2,2′-bipyridine). The complexes 1-6 were characterized by ¹H NMR, MS(ESI) and IR spectra, along with the X-ray crystal structure analysis for 1, 5 and 6. Their photophysical properties and electrochemiluminescence (ECL) properties were investigated in detail. In the UV-Vis absorption spectra, all complexes 1-6 show strong intraligand (π → π^∗) transitions and metal-ligand charge transfer (MLCT, dπ (Ru) → π^∗) bands. Upon the excitation wavelengths at ∼508 nm, all complexes 1-6 exhibit typical MLCT emission of ruthenium(II) polypyridyl complexes. The introduction of carbazole moieties improves the MLCT absorption and emission intensity. The ruthenium(II) complexes 1-6 exhibit good electrochemiluminescence (ECL) properties in [Ru(bpy)₂L]²⁺/tri-n-propylamine (TPrA) acetonitrile solution and the complexes with PF₆⁻ showed higher ECL emission intensity than that of the complexes with Cl⁻ based on the same ligands.     

Oxazolone copper(I) complexes inspired by the methanobactin active site

Two oxazolone-derived potential ligands with enethioether substituents have been synthesized that differ by the terminal thioether moiety (S-Et in L¹, S-C₆H₄(OMe)-2 in L²). Both L¹ and L² behave as bidentate {NS} chelate ligands to form stable complexes with copper(I) triflate that crystallize as dimeric complexes [L₂Cu₂(OTf)₂] (4 and 5) featuring a central {Cu₂S₂} diamond core with distinctly different Cu-S bonds. L¹ as well as 4 and 5 have been characterized by single crystal X-ray diffraction. NMR spectroscopy including ¹H and ¹⁹F DOSY experiments reveals that 4 and 5 dissociate into monomeric species [LCu(OTf)] (4′ and 5′) in CDCl₃ solutions. 4′ and 5′ retain the {NS} binding motif of the oxazolone-derived ligands, but are in slow equilibrium with their {OS} isomers 4″ and 5″ that result from E/Z isomerization of the exocyclic enethioether double bond.