Felipe T. Martins

Variação química do óleo essencial de Hyptis suaveolens (L.) Poit., sob condições de cultivo

This study was performed to establish the correlation between the growth conditions and essential oil composition of Hyptis suaveolens from Alfenas (MG), Brazil. The plants were grown in a greenhouse, four treatments were used and they were harvested at two different periods of time (60 and 135-day-old plants). The essential oil composition was determined by GC-MS analysis. The terpenes spathulenol, globulol, dehydroabietol, a-cadinol and b-phellandrene were the major constituents found in the essential oil. Oxygenated sesquiterpenes represented the main group of constituents in most of the treatments. The major changes in the essential oil composition were found in 135-day-old plants grown under NPK deficiency. We also identified three groups of volatile components that have not been previously described in H suaveolens.

Composition, and Anti‐Inflammatory and Antioxidant Activities of the Volatile Oil from the Fruit Peel of Garcinia brasiliensis

The composition of the volatile oil obtained by hydrodistillation from the fruit peel of Garcinia brasiliensis (Mart.) Planch. et Triana was determined by GC/MS. A total of 38 components were identified, including γ‐muurolene (10.3%), spathulenol (8.7%), δ‐cadinene (8.3%), torreyol (8.0%), α‐cadinol (7.0%), cadalene (6.3%), and γ‐cadinene (5.3%). Oxygenated sesquiterpenes (43%) were the main group of compounds. The anti‐inflammatory activity of the volatile oil was evaluated through the rat‐paw edema model induced by carrageenan. Inhibition of the inflammatory process was noticed 3 h after carrageenan administration. In addition, the volatile oil showed poor antioxidant activity.

Complete assignment of the 1H and 13C NMR spectra of garciniaphenone and keto-enol equilibrium statements for prenylated benzophenones.

This article reports the structural elucidation by IR, UV and MS spectroscopic data along with 1H and 13C NMR chemical shift assignments of two benzophenones isolated from the fruit pericarp of Garcinia brasiliensis Mart. (Clusiaceae): garciniaphenone, (1R,5S,7S)‐3‐benzoyl‐4‐hydroxy‐6,6‐dimethyl‐5,7‐di(3‐methyl‐2‐butenyl)bicyclo[3.3.1]non‐3‐ene‐2,9‐dione, a novel triprenylated benzophenone; and 7‐epi‐clusianone, a tetraprenylated benzophenone that has already been extracted from another species of the same family. Furthermore, the keto‐enol tautomeric equilibrium at solution‐state was described for these compounds by 1D and 2D NMR spectral methods and one attempt to rationalize the different ratios between the noted tautomers was based on stereochemical features. Copyright

Intermolecular contacts influencing the conformational and geometric features of the pharmaceutically preferred mebendazole polymorph C

Mebendazole (MBZ) is a common benzimidazole anthelmintic that exists in three different polymorphic forms, A, B, and C. Polymorph C is the pharmaceutically preferred form due to its adequated aqueous solubility. No single crystal structure determinations depicting the nature of the crystal packing and molecular conformation and geometry have been performed on this compound. The crystal structure of mebendazole form C is resolved for the first time. Mebendazole form C crystallizes in the triclinic centrosymmetric space group and this drug is practically planar, since the least-squares methyl benzimidazolylcarbamate plane is much fitted on the forming atoms. However, the benzoyl group is twisted by 31(1) degrees from the benzimidazole ring, likewise the torsional angle between the benzene and carbonyl moieties is 27(1) degrees. The formerly described bends and other interesting intramolecular geometry features were viewed as consequence of the intermolecular contacts occurring within mebendazole C structure. Among these features, a conjugation decreasing through the imine nitrogen atom of the benzimidazole core and a further resonance path crossing the carbamate one were described. At last, the X-ray powder diffractogram of a form C rich mebendazole mixture was overlaid to the calculated one with the mebendazole crystal structure.

Natural Polyprenylated Benzophenones: Keto-Enol Tautomerism and Stereochemistry

The keto-enol tautomerism and stereochemistry study of a HIV-inhibitory natural benzophenone, (1R,5R,7R,8S)-(+)-3-(10-(3,4-dihydroxyphenyl)-10-hydroxymethylene)-8-methyl -1,5,7-tris(3-methyl-2-butenyl)-8-(4-methyl-3-pentenyl)-bicyclo[3.3.1]nonane-2,4,9-trione (a), isolated from Garcinia brasiliensis seeds is presented. The crystal structure of (a), which is also know as guttiferona A, was determined by X-ray diffraction and its intra and inter-molecular geometries discussed and compared with two analogue natural benzophenones: clusianone and epiclusianone. In (a), the hydroxyl H atom from enolizable 2,4,10-trione moiety is linked in the oxygen atom bonded to 10-(3,4-dihydroxyphenyl)methylene group, in opposition to the related natural benzophenones, where this analogue H-atom is placed in different O-atoms from bicyclo[3.3.1]nonane ring system. Such behaviour can be explained by the presence of aromatic OH6 group in (a) that origins a further delocalized resonance path along of 3,4-dihydroxyphenyl-C10-OH2 group. In addition, the (a) stereochemistry around C7 atom is compared with known structures of clusianone and epiclusianone and the influence from configuration in this chiral C-atom to structural features found in the enolizable system is proposed.

Antiproliferative effect of benzophenones and their influence on cathepsin activity.

The antiproliferative activity of two prenylated benzophenones isolated from Rheedia brasiliensis, the triprenylated garciniaphenone and the tetraprenylated benzophenone 7‐epiclusianone, was investigated against human cancer cell lines. The antiproliferative activity on melanoma (UACC‐62), breast (MCF‐7), drug‐resistant breast (NCI‐ADR), lung/non‐small cells (NCI460), ovarian (OVCAR 03), prostate (PC03), kidney (786‐0), lung (NCI‐460) and tongue (CRL‐1624 and CRL‐1623) cancer cells was determined using spectrophotometric quantification of the cellular protein content. The effect of these benzophenones on the activity of cathepsins B and G was also investigated. Garciniaphenone displayed cytostatic activity in all cell lines, whereas 7‐epiclusianone showed a dose‐dependent cytotoxic effect. The IC50 values for cell proliferation revealed that 7‐epiclusianone is more active than garciniaphenone against most of the cell lines. Furthermore, the antiproliferative effects demonstrated by garciniaphenone and 7‐epiclusianone were related to their cathepsin inhibiting properties. In conclusion, 7‐epiclusianone is a promising naturally occurring agent which displays multiple inhibitory effects which may be working in concert to inhibit cancer cell proliferation in vitro. The putative pathway by which 7‐epiclusianone affects cancer cell development may involve cathepsin inhibition. Copyright

Lamivudine Salts with Improved Solubilities

To optimize solubility of drugs, current strategies mainly focus on engineering and screening of smart crystal phases. Two salts of the anti-human immunodeficiency virus (HIV) drug lamivudine--namely, lamivudine hydrochloride and lamivudine hydrochloride monohydrate, were prepared in the course of screening the crystallization conditions of lamivudine duplex, an uncommon DNA-mimic, double-stranded helical structure made up of partially protonated drug pairs. Here, water solubilities of lamivudine hydrochloride, lamivudine hydrochloride monohydrate, and lamivudine duplex are reported. The aqueous solubility of this anti-HIV drug was significantly increased in both salts and also in lamivudine duplex in relation to the water solubility of lamivudine form II. In comparison with the lamivudine form II incorporated into therapeutic formulations, the drug solubility was increased at a temperature of 299 ± 2 K by factors of 1.2, 3.3, and 4.5 in lamivudine hydrochloride, lamivudine hydrochloride monohydrate, and lamivudine duplex, respectively, demonstrating that this solid-state property of lamivudine can be improved by crystal engineering strategies. Solubility profiles were understood on the basis of structural and solvent-solute interaction approaches. At last, correlations between solubility and crystal structures allowed for a rational approach to understand how this physicochemical feature could be enhanced by engineering new salts of the drug.

Solid state chemistry of the antibiotic doxycycline: structure of the neutral monohydrate and insights into its poor water solubility†

The active pharmaceutical ingredient (API) doxycycline (DOX) is a broad-spectrum antibiotic mainly used in the treatment of respiratory and urinary tract infections and, like many drugs, its efficacy may be affected by the crystal form. Up to now, only the crystal structure of doxycycline hyclate (DOX·HYC) (generic name of brand names such as DORYX®, PERIOSTAT®, ATRIDOX®, and VIBRAMYCIN®) has been reported. This study presents the single-crystal X-ray diffractometry structural characterisation of another crystal form, doxycycline monohydrate (DOX·H2O) (generic name of brand names such as MONODOX® and ORACEA®). The DOX·H2O structure was compared with the known DOX·HYC one in terms of intra- and intermolecular geometries, and their melting temperature, water solubility and dissolution rate were measured. These data allowed us to establish relationships between solid state properties related to the pharmaceutical performance of the two DOX crystal variants and their supramolecular structures for the first time. Both hyclate and monohydrate forms crystallise the DOX molecules as zwitterions in which their dimethylamine groups are protonated and one of their hydroxyl groups is deprotonated. Whereas two conformers were observed in the DOX·HYC (i.e., the amine group is next to the enolate in one of them (T1) and beside the carbonyl in the other one (T2)), only one (T2) was found in DOX·H2O. Additionally, in the hyclate form, the presence of ethanol in the crystal lattice could be related to a rotation around the C–C bond of the amide group, directing the oxygen toward the amine group in one (T1) of the two conformers present in this solid state phase. Meanwhile, in the other crystallographically independent molecule (T2), the amide nitrogen is on the same side as the amine. However, only the conformer similar to T1 in DOX·HYC was observed in DOX·H2O. The crystal packing of DOX·H2O was stabilised by several intermolecular hydrogen bonds, with each drug entity interacting with another two DOX and three water molecules in such a way that a compact supramolecular network was formed. This structure was saturated in terms of hydrogen bonding, which could be related to its lower solubility and dissolution rate relative to DOX·HYC.

Salts of the anti-HIV drug lamivudine with phthalic and salicylic acids

Salts of the anti-HIV drug lamivudine, with phthalic acid and salicylic acid as counterions, were investigated in this study. Neither the packing of the (lamivudine)+(phthalic acid)− ion pairs nor the conformation of the lamivudine moiety itself were similar to those found in other multicomponent molecular salts of the drug, such as hydrogen maleate and saccharinate ones, even though all three salts crystallize in the same P212121 orthorhombic space group with similar unit cell metrics. Lamivudine salicylate assumes a different crystal structure to those of the hydrogen maleate and saccharinate salts, crystallizing in the P21 monoclinic space group as a monohydrate whose (lamivudine)+(salicylic acid)− ion pair is assembled through two hydrogen bonds with cytosine as a dual donor to both oxygens of the carboxylate, such as in the pairing of lamivudine with a phthalic acid counterion. In lamivudine salicylate monohydrate, the drug conformation is related to the hydrogen maleate and saccharinate salts. However, such a conformational similarity is not related to the intermolecular interaction patterns. Lamivudine and water molecules alternate into helical chains in the salicylate salt monohydrate.

Preparation of achiral and chiral (E)-enaminopyran-2,4-diones and their phytotoxic activity.

A short and efficient approach to a range of new chiral and achiral functionalized (E)-enaminopyran-2,4-diones starting with commercially available dehydroacetic acid is described. The phytotoxic properties of these (E)-enaminopyran-2,4-diones were evaluated by their ability to interfere with the growth of Sorghum bicolor and Cucumis sativus seedlings. A different sensitivity of the two crops was evident with the (E)-enaminopyran-2,4-diones. The most active compounds were also tested against two weeds, Ipomoea grandifolia and Brachiaria decumbens. To the best of our knowledge, this is the first report describing enaminopyran-2,4-diones as potential plant growth regulators.