ABSTRACT
This study presents analyses on the chemistry, biology, pharmacology and chromatography of essential oils extracted from three species of the Ocotea genus: O. minor, O. ceanothifolia and O. leucoxylon. Leaves and stems, as well as the bark of O. minor, were processed using a modified Clevenger apparatus. Seven essential oils were obtained and analyzed using GC-FID and GC-MS, and their chemical compositions were determined. Assays of cytotoxicity, antioxidant and free radical scavenging activity, as well as tyrosinase and elastase inhibition were performed. In total, 25 constituents were identified, the principal being sesquiterpenes, such as spathulenol caryophyllene and its oxide. The oils did not present cytotoxicity using a hemolytic model, but also did not show antioxidant activity in the DPPH assay. Essential oil from stems of O. ceanothifolia, rich in spathulenol and caryophyllene oxide, demonstrated the capacity to inhibit 49.08% of tyrosinase activity at a concentration of 100 µg/mL. This research contributes to the chemical profile analysis of the three species of Ocoteathrough chemical investigations and biological activity, which are reported for the first time here in this study.
Este trabajo realiza un estudio químico, biológico, farmacológico y cromatográfico de aceites esenciales extraídos de tres especies del género Ocotea: O. minor, O. ceanothifoliay O. leucoxylon. Las hojas y tallos, así como la corteza de O. minor, se procesaron utilizando un aparato Clevenger modificado. Se obtuvieron siete aceites esenciales y se analizaron usando GC-FID y GC-MS, y se determinaron sus composiciones químicas. Se realizaron ensayos de citotoxicidad, actividad antioxidante y de atrapamiento de radicales libres, así como inhibición de tirosinasa y elastasa. En total, se identificaron 25 componentes, siendo los principales sesquiterpenos, como el spathulenol cariofileno y su óxido. Los aceites no presentaron citotoxicidad en un modelo hemolítico y tampoco mostraron actividad antioxidante en el ensayo con DPPH. El aceite esencial de tallos de O. ceanothifolia, rico en espatulenol y óxido de cariofileno, mostró capacidad para inhibir el 49.08% de la actividad de tirosinasa a una concentración de 100 µg/mL. Esta investigación contribuye al análisis del perfil químico de las tres especies de Ocotea a través de investigaciones químicas y actividad biológica la cual se informan por primera vez.
Subject(s)
Oils, Volatile/pharmacology , Monophenol Monooxygenase/antagonists & inhibitors , Ocotea/chemistry , Oxides/analysis , Sesquiterpenes/analysis , Oils, Volatile/chemistry , Free Radical Scavengers , Lauraceae/chemistry , Cosmetic Industry , Flame Ionization , Gas Chromatography-Mass SpectrometryABSTRACT
ABSTRACT The bioavailability, toxicity, and therapeutic efficacy of a drug is directly related to its administration route. The pulmonary route can be accessed by inhalation after fumigation, vaporization or nebulization. Thus, pharmacological and toxicological evaluation accessed by an apparatus specifically designed and validated for this type of administration is extremely important. Based on pre-existing models, an inhalation chamber was developed. This presents a central structure with five animal holders. The nebulized air passes directly and continuously through these holders and subsequently to an outlet. Evaluation of its operation was performed using clove essential oil, a nebulizer, and a flow meter. The air within the chamber was collected by static headspace and analyzed by gas chromatography with a flame ionization detector. For this purpose, a 2.5 minutes chromatographic method was developed. The air flow in each of the five outputs was 0.92 liters per minute. During the first minute, the chamber became saturated with the nebulized material. Homogeneous and continuous operation of the chamber was observed without accumulation of volatile material inside it for 25 minutes. The inhalation chamber works satisfactorily for in vivo tests with medicines designed to be administrated by inhalation.
Subject(s)
Animals , Rabbits , Rats , Administration, Inhalation , Nebulizers and Vaporizers , Oils, Volatile/administration & dosage , Equipment Design , Time Factors , Chromatography, High Pressure Liquid , Syzygium/chemistryABSTRACT
Essential oils obtained from the aerial parts of Dicypellium manausense, Mezilaurus duckei, Mezilaurus itauba and Pleurothyrium vasquezii collected at the Ducke Forest Reserve (Manaus, Brazil) were obtained by hydrodistillation and analyzed by CG-FID and GC-MS. Essential oil yields ranged from 0.1 to 0.2 percent (w/w of dry material). The major components were beta-caryophyllene in the leaves of D. manausense (39.5 percent), leaves and branches of M. duckei (32.6 and 18.4 percent, respectively) and branches of M. itauba (51.8 percent); and germacrene D in the leaves of D. manausense (6.7 percent), branches of M. itauba (9.1 percent) and leaves and branches of P. vasquezii (15.6 and 8.0 percent, respectively). This paper describes for the first time the composition of these essential oils.
Os óleos essenciais obtidos das partes aéreas de Dicypellium manausense, Mezilaurus duckei, Mezilaurus itauba e Pleurothyrium vasquezii coletadas na Reserva Florestal Ducke (Manaus, Brasil) foram obtidos por hidrodestilação e analisados por CG-DIC e CG-EM. Os rendimentos dos óleos variaram de 0,1 a 0,2 por cento (m/m de material seco). Os principais componentes foram beta-cariofileno nas folhas de D. manausense (39,5 por cento), folhas e galhos de M. duckei (32,6 e 18,4 por cento, respectivamente) e galhos de M. itauba (51,8 por cento) e germacreno D na folhas de D. manausense (6,7 por cento), galhos de M. itauba (9,1 por cento) e folhas e galhos de P. vasquezii (15,6 e 8,0 por cento, respectivamente). Este trabalho descreve pela primeira vez a composição desses óleos.
Subject(s)
Oils, Volatile/chemistry , Lauraceae/chemistry , Sesquiterpenes/analysis , Brazil , Flame Ionization , Gas Chromatography-Mass Spectrometry , Plant Leaves/chemistryABSTRACT
Balsams have been used since ancient times, due to their therapeutic and healing properties; in the perfume industry, they are used as fixatives, and in the cosmetics industry and in cookery, they are used as preservatives and aromatizers. They are generally defined as vegetable material with highly aromatic properties that supposedly have the ability to heal diseases, not only of the body, but also of the soul. When viewed according to this concept, many substances can be considered balsams. A more modern concept is based on its chemical composition and origin: a secretion or exudate of plants that contain cinnamic and benzoic acids, and their derivatives, in their composition. The most common naturally-occurring balsams (i.e. true balsams) are the Benzoins, Liquid Storaque and the Balsams of Tolu and Peru. Many other aromatic exudates, such as Copaiba Oil and Canada Balsam, are wrongly called balsam. These usually belong to other classes of natural products, such as essential oils, resins and oleoresins. Despite the understanding of some plants, many plants are still called balsams. This article presents a chemical and pharmacological review of the most common balsams.
ABSTRACT
As monografias sobre plantas medicinais ou drogas vegetais contêm informações para atender não somente aos órgãos de regulamentação, mas também às empresas industriais farmacêuticas e farmácias, e mesmo ao público consumidor. Este artigo revê as monografias da Comissão E, do American Botanical Council, ESCOP, PDR e da Organização Mundial de Saúde em suas origens, objetivos e formatos. Duas publicações recentemente organizadas pela FIOCRUZ do Rio de Janeiro e as contribuições da Farmacopéia Brasileira também são avaliadas.
The medicinal plants monographs are very important information collections about some of the most consumed plants all over the world that attend not only the regulatory agencies but also pharmaceutical industries and the general consumer. This manuscript reviews the origins, objectives and formats of the most important monographs, like Commission E, American Botanical Council, ESCOP, PDR and WHO. Two recently published Brazilian experiences organized by FIOCRUZ and the contributions from Brazilian Pharmacopoeia are also evaluated.
ABSTRACT
The antimicrobial activity of copaiba oils was tested against Gram-positive and Gram-negative bacteria, yeast, and dermatophytes. Oils obtained from Copaifera martii, Copaifera officinalis, and Copaifera reticulata (collected in the state of Acre) were active against Gram-positive species (Staphylococcus aureus, methicillin-resistant S. aureus, Staphylococcus epidermidis, Bacillus subtilis, and Enterococcus faecalis) with minimum inhibitory concentrations ranging from 31.3-62.5 µg/ml. The oils showed bactericidal activity, decreasing the viability of these Gram-positive bacteria within 3 h. Moderate activity was observed against dermatophyte fungi (Trichophyton rubrum and Microsporum canis). The oils showed no activity against Gram-negative bacteria and yeast. Scannning electron microscopy of S. aureus treated with resin oil from C. martii revealed lysis of the bacteria, causing cellular agglomerates. Transmission electron microscopy revealed disruption and damage to the cell wall, resulting in the release of cytoplasmic compounds, alterations in morphology, and a decrease in cell volume, indicating that copaiba oil may affect the cell wall.
Subject(s)
Anti-Bacterial Agents/pharmacology , Antifungal Agents/pharmacology , Arthrodermataceae/drug effects , Balsams/pharmacology , Gram-Negative Bacteria/drug effects , Gram-Positive Bacteria/drug effects , Anti-Bacterial Agents/isolation & purification , Antifungal Agents/isolation & purification , Arthrodermataceae/ultrastructure , Brazil , Balsams/isolation & purification , Fabaceae/chemistry , Fabaceae/classification , Gram-Negative Bacteria/ultrastructure , Gram-Positive Bacteria/ultrastructure , Microbial Sensitivity Tests , Microscopy, Electron, TransmissionABSTRACT
O gênero Copaifera L. é um dos mais importantes economicamente na Região Amazônica devido, principalmente, à produção dos óleos de copaíba, oléo-resinas com diversas propriedades farmacológicas confirmadas. Apesar disso, os estudos fitoquímicos com as sementes das árvores do gênero Copaifera L.são raros. Copaifera officinalis foi a primeira espécie do gênero Copaifera a ser descrita. Este trabalho descreve a composição dos extratos obtidos em hexano e em acetato de etila das sementes de C. officinalis. No extrato obtido em hexano, a análise por cromatografia em fase gasosa utilizando padrões e através de espectrometria de massas permitiu a identificação de: esqualeno, tetradecano, hexadecano, campesterol, estigmasterol e beta-sitosterol; os ácidos graxos hexadecanóico, 9-octadecenóico e octadecanóico (majoritários); e decanóico, eicosanóico, docosanóico e tetracosanóico (minoritários). Cumarina foi isolada do extrato em acetato de etila e identificada por técnicas de RMN.
Copaifera L. is one of the most economically important plant genera in the Amazon Region, since it exudes a resin-oil named copaiba oil possessing several confirmed pharmacological properties. In spite of that, phytochemical studies of the seeds from this genus are rare. Copaifera officinalis L. was the first species in the genus Copaifera to be described. This paper describes the chemical composition of the hexane and ethyl acetate extracts of the seeds from this species. In the hexane extract, gas chromatography and mass spectrometry analyses enabled us to identify squalene, tetradecane, hexadecane, campesterol, stigmasterol and beta-sitosterol; hexadecanoic, 9-octadecenoic and octadecanoic acids (major substances); as well as decanoic, eicosanoic, docosanoic and tetracosanoic (minor substances) acids. Coumarin was detected in the ethyl acetate extract, isolated and identified by NMR.
Subject(s)
Coumarins , Fatty Acids , FabaceaeABSTRACT
Este trabalho objetivou a obtenção de óleos fixos (OF) das cascas do caule de Croton cajucara via percolação [seguido de fracionamento em coluna cromatográfica (CC)] e fluido supercrítico (FS, gás CO2), bem como a avaliação das propriedades fungicidas de OF obtido pelo procedimento CC. Os óleos OF-CC e OF-FS apresentaram rendimentos significativamente diferentes; houve maior rendimento (3,14 por cento) de OF obtido no processo convencional (OF-CC), versus 1,2 por cento de OF-FS. A fração F1 após esterificação, bem como as frações não-esterificadas F2, F3 e F4 (obtidas de OF-CC seguido de outro fracionamento em CC) foram analisadas por CG-FID e CG-EM. A identificação da composição química de OF-CC foi feita por comparação com dados da biblioteca Wiley, bem como pela comparação de índices de kovats. A presença de sesquiterpenos foi comprovada na fração F1, onde o a-copaeno (20,1 por cento) e cipereno (21,8 por cento) foram os componentes majoritários (70 por cento de percentual sesquiterpênico total). A fração F2 mostrou sesquiterpenos minoritários mais oxigenados, incluindo o linalol. Na fração F3 foram observados ácidos graxos, misturas de esteróis e os diterpenos bioativos trans-crotonina, cis-cajucarina B e trans-cajucarina B, onde 40 por cento do total desta fração, foi composta de esteróis e diterpenos; e na fração F4 foram observados majoritariamente os isômeros cis e trans-cajucarina B. O efeito biológico de OF-CC foi avaliado no desenvolvimento in vitro dos fungos fitopatogênicos Fusarium oxysporum, Rhizoctonia solani e Sclerotium rolfsii propagados em meio de cultura Batata-dextrose-agar (BDA). A resposta fisiológica, variou de acordo com o tipo de fungo testado, tendo sido observado que o OF-CC (0,2 mg.mL-1) apresentou efeito fungistático no controle micelial dos fungos testados, sendo que o gênero de fungo Fusarium oxysporum foi o que sofreu efeito inibitório mais estável.
This paper focused on the separation of the fixed oil (FO) from the stem bark of Croton cajucara obtained from the conventional approach extraction with organic solvents [followed by chromatography column (CC)] and supercritical fluid extraction (SFE, carried out with CO2) and also, on the antifungical properties of the FO obtained by CC procedure (FO-CC). The FO contents were 3.14 percent for FO-CC versus 1.20 percent in the FO-SFE process. The esterified fraction F1 and non-esterified fractions F2, F3 and F4 obtained from FO-CC after a new CC procedure were analyzed by HRGC-MS. The identification of the chemical composition of FO-CC was made by comparison with MS literature data, computer matching with the Wiley library and by comparison of their kovats indices with the literature. Fraction F1 showed 70 percent of sesquiterpene components, among them a-copaene (20.1 percent) and ciperene (21.8 percent) as major compounds. Fraction F2 was rich in minor oxygenated sesquiterpenes, among them linalool. Meanwhile fraction F3 showed fat acids, steroids and the bioactive clerodane type-diterpene trans-crotonin, cis-cajucarin B (c-CJC-B) and trans-cajucarin B (t-CJC-B). Fractions F3 and F4 showed as major constituents c-CJC-B and t-CJC-B with 40 percent of the total contents. The biological effect of the FO-CC was evaluated in the in vitro development of the phytopatogen fungi such as Fusarium oxysporum, Rhizoctonia solani and Sclerotium rolfsii. Significant inhibitory effect of the tested fungi (at 0.2 mg.mL-1 dosage) were proved.