ABSTRACT
BACKGROUND: Natural products are an important source of bioproducts with pharmacological properties. Here we investigate the components of leaves from M. tomentosa Benth. (Fritsch) (Chrysobalanaceae) and its effects on bacterial cell growth, biofilm production and macrophage activity. METHODS: The effect of the different leaf extracts against bacterial cell growth was performed using the microdilution method. The most active extract was analyzed by mass spectrometry, and its effect on bacterial biofilm production was evaluated on polystyrene plates. The extract effect on macrophage activity was tested in the RAW264.7 cell line, which was stimulated with different concentrations of the extract in the presence or absence of LPS. RESULTS: We show that the ethyl acetate (EtOAc) extract was the most effective against bacterial cell growth. EtOAc extract DI-ESI (-)MSn analysis showed the presence of a glycosylated flavonoid tentatively assigned as myricetin 3-O-xylosyl-rhamnoside (MW 596). Also, the EtOAc extract increased biofilm formation by S. aureus and inhibited cytokine and NO production induced by LPS in RAW macrophages. CONCLUSION: M. tomentosa flavonoid-enriched EtOAc extract presented a bactericidal and anti-inflammatory pharmacological potential.
Subject(s)
Chrysobalanaceae , Flavonoids , Flavonoids/pharmacology , Plant Extracts/chemistry , Staphylococcus aureus , Lipopolysaccharides/pharmacology , Anti-Bacterial Agents/pharmacology , Anti-Inflammatory Agents/pharmacology , BacteriaABSTRACT
The rapid annotation and identification by mass spectrometry techniques of flavonoids remains a challenge, due to their structural diversity and the limited availability of reference standards. This study applies a workflow to characterize two isoflavonoids, the orobol-C-glycosides analogs, using high-energy collisional dissociation (HCD)- and collision-induced dissociation (CID)-type fragmentation patterns, and also to evaluate the antioxidant effects of these compounds by ferric reducing antioxidant power (FRAP), 2,2'-azino-bis(3-ethylbenzothiazolin acid) 6-sulfonic acid (ABTS), and 2,2-diphenyl-1-picrylhydrazyl (DPPH) methods. By the CID-type fragmentation, in positive mode and at all high-resolution mass spectrometry (HRMS) multiple stage, there were shown differences in the annotation of the compounds, mainly concerning some ratios of relative abundance. At CID-MS2 20 eV, the compounds could be efficiently characterized, because they present distinct base peaks [M + H]+ and [M + H-H2 O]+ for the orobol-8-C- and orobol-6-C-glycoside, respectively. Similarly, by the HCD-type fragmentation, in HRMS2 stage, differences between orobol analogs in both mode of ionization were observed. However, the HR HCD-MS2 at 80 eV, in positive mode, generated more ions and each isomer presented different base peaks ions, [0,2X]+ for the orobol-8-C-glycoside and [0,3X]+ for the orobol-6-C-glycoside. By the DPPH, the 8-C-derivative showed a very close value compared with the standard rutin and, in the ABTS method, a higher radical-scavenging activity. In both methods, the EC50 of orobol-8-C-glycoside was almost twice better compared with orobol-6-C-glycoside. In FRAP, both C-glycosides showed a good capacity as Fe+3 reducing agents. We could realize that combined MS techniques, highlighting the positive mode of ionization, can be used to evaluate the isoflavones analogs being useful to differentiate between the isomeric flavones; therefore, these data are important to mass spectrometry dereplication studies become more efficient. HIGHLIGHTS: The MS2, in positive mode of ionization, at low CID energies (15 and 20 eV) and at high HCD energies (50 eV), was suitable to characterize orobol 8 and 6-C-derivatives. Positive mode of ionization was effective to rapid annotation of each orobol C-glycoside. The orobol C-derivatives showed high radical scavenging effects. Orobol-8-C-glycoside showed higher antioxidant capacity.
ABSTRACT
Copaifera reticulata Ducke is a popularly known species known as copaíba that is widely spread throughout the Amazon region. The tree yields an oleoresin which is extensively used in local traditional medicine mainly as an anti-inflammatory and antinociceptive agent. The aim of the present study was to assess the anti-inflammatory potential of this oleoresin obtained from a national forest in the central Amazon which presented an unusual chemical composition. The chemical composition of volatile compounds of oleoresin was analyzed by gas chromatography-mass spectrometry. The acute toxicity assay was performed with a single dose of 2000 mg/kg. The anti-inflammatory potential was evaluated by carrageenan-induced paw edema and air pouch assays using four different C. reticulata oleoresin concentrations (10, 100, and 400 mg/kg). The exudate was evaluated for nitrite concentration through the colorimetric method and for TNF-α, IL-1ß, and PGE2 by ELISA. C. reticulata oleoresin collected in the Amazonian summer contained six major sesquiterpene compounds (ß-bisabolene, cis-eudesma-6,11-diene, trans-α-bergamotene, ß-selinene, α-selinene, and ß-elemene) and was nontoxic at a dose of 2000 mg/kg, showing low acute toxicity. Different from oleoresin obtained from other sites of the Brazilian Amazon, the major volatile compound found was ß-Bisabolene with 25.15%. This ß-Bisabolene-rich oleoresin reduced the formation of paw edema induced by carrageenan and reduced the global number of cells in the air pouch assay, as well as exudate volume and nitrite, TNF-α, IL-1ß, and prostaglandin E2 levels (p < 0.05). C. reticulata oleoresin with a high ß-Bisabolene concentration showed anti-inflammatory activity, reducing vascular permeability and consequently edema formation, and thus reducing cell migration and the production of inflammatory cytokine, confirming its traditional use by local Amazonian communities.
ABSTRACT
The Swartzia species are commonly known as bloodwood due to the red exudate released from the stem after injury. This exudate has aroused great interest, and an integrative study is essential to describe it in detail. Thus, this work aimed to identify the red exudate's secreting-site in S. flaemingii and S. langsdorffii, and determine if it is a latex or a resin. Samples of the stem bark and the secondary xylem were prepared for histological analysis. Fresh exudates were dissolved in deuterated methanol and analyzed by 1H-NMR; other samples were resuspended in MeOH:H2O (9:1), partitioned with organic solvents and analyzed by direct infusion mass spectrometry. Total phenolic and total flavonoid contents were determined spectrophotometrically, and antioxidant capacity was determined using ferric reducing antioxidant power assay. The results showed that the exudate is a red latex produced by articulated laticifers located among the phloem cells. The latex is composed of sucrose, catechin glucosides, chlorophyll derivatives, and hederagenin-type saponins. Both samples of S. flaemingii and S. langsdorffii presented high amounts of phenolics and flavonoids, as well as a strong antioxidant capacity. The anatomical study showed that the secreting-site of the Swartzia red exudates were laticifers. This finding allows us to exclude other substances such as resin or oleoresin, generally produced by secretory cavities or ducts. Furthermore, since laticifers are rare in Fabaceae, this finding is significant, and represents an essential taxonomic feature. The showy red color is due to the large amounts of flavonoids. This latex probably has a protective role against microorganisms and photodamage. The bioactive potential of this exudate inspires further studies, which may boost the economic importance of Swartzia.
Subject(s)
Fabaceae , Antioxidants , Exudates and Transudates , Flavonoids , Latex , Phloem , Plant ExtractsABSTRACT
Malaria is a disease of global tropical distribution, being endemic in more than 90 countries and responsible for about 212 million cases worldwide in 2016. To date, the strategies used to eradicate this disease have been ineffective, without specific preventive measures such as vaccines. Currently, the existing therapeutic arsenal is limited and has become ineffective against the expansion of artemisinin-resistant Plasmodium, demonstrating the need for studies that would allow the development of new compounds against this disease. In this context, we studied the volatile oil obtained from rhizomes of Cyperus articulatus (VOCA), a plant species commonly found in the Amazon region and popularly used as a therapeutic alternative for the treatment of malaria, in order to confirm its potential as an antimalarial agent by in vitro and in vivo assays. We cultured Plasmodium falciparum W2 (chloroquine-resistant) and 3D7 (chloroquine-sensitive) strains in erythrocytes and exposed them to VOCA at different concentrations in 96-well microplates. In vivo antimalarial activity was tested in BALB/c mice inoculated with approximately 106 erythrocytes infected with Plasmodium berghei. VOCA showed a high antimalarial potential against the two P. falciparum strains, with IC50 = 1.21 µg mL-1 for W2 and 2.30 µg mL-1 for 3D7. VOCA also significantly reduced the parasitemia and anemia induced by P. berghei in mice. Our results confirmed the antimalarial potential of the volatile oil of Cyperus articulatus. (AU)
Subject(s)
Plasmodium berghei , Plasmodium falciparum , Chloroquine , Artemisinins , MalariaABSTRACT
Na região amazônica, ainda que não conclusivo, estima-se a existência de aproximadamente 60.000 espécies de plantas contribuindo para uma vasta riqueza natural. Considerando essa estimativa, são necessários investimentos em ciência e tecnologia, proteção e valorização dos recursos naturais e, principalmente, a importância dos conhecimentos tradicionais associados à biodiversidade (Albagli, 2010). O conhecimento tradicional tem fornecido informações valiosas para a descoberta de novos agentes antimicrobianos a partir das plantas (Duraipandiyan, Ayyanar e Ignacimuthu, 2006), destacando a importância da medicina popular na busca por moléculas eficazes contra micro-organismos cada vez mais resistentes (Lopez, Hudson e Towers, 2001), como por exemplo Helicobacter pylori.(AU)
The Amazon region has an enormous diversity of plant species, which contributes to its known vast natural wealth. In this context, the aim of this work was to evaluate the antioxidant, anti-Helicobacter pylori and antiurease potentials of medicinal plant extracts popularly used in the western Pará, northern Brazil. Antimicrobial assays were carried out using spectrophotometric broth microdilution technique, the antioxidant potential by the DPPH and ABTSâ¢+ assays and anti-urease activity by inhibition of the enzyme urease. The ethanolic extract of leaves of Schnella sp. showed the best antioxidant potential in both methods, with IC50= 6.35 µg/mL (DPPH) and 1.81 µg/mL (ABTSâ¢+) and the highest percentage of inhibition of urease (45%) at 1024 µg/ml. The ethanolic extract of the resin of "breu-branco" inhibited 82.8% (512 µg/mL) of the bacterial growth. These results together show the potential of the plant species used in the western Pará, in the search for molecules with antioxidant and antimicrobial action.(AU)
Subject(s)
Humans , Anti-Infective Agents/chemistry , Antioxidants/chemistry , Fabaceae/chemistry , Phytotherapy , Plants, Medicinal/chemistry , Amazonian Ecosystem , Brazil , Helicobacter pylori , Urease/analysisABSTRACT
Rauvolfia sellowii Müll. Arg. (Apocynaceae), a Brazilian native tree rich in indole alkaloids, is known as "pau-pra-tudo" and popularly used as hypocholesterolemic, hypoglycemic and antihypertensive. The aim of this work was to study the anatomy of the young stems and stem barks of this medicinal plant, in order to contribute to the identification of the species as a drug. The plant material was fixed and prepared according to standard microtechniques. The young stems have remaining epidermis, but a suberified peridermis is evident. The phellogen is located in the cortical region, forming suber externally. Underneath the phellogen, lies the phelloderm and collenchymatic region. In the cortex, there are numerous laticifers and some fibers. There is an incomplete sclerenchymatic sheath, consisting of several groups of fibers and stone cells. The stem has internal phloem ordered as isolated groups side by side. Numerous laticifers, calcium oxalate crystals, idioblasts and amyloplasts are found in the cortex, phloem, xylem and pith. The stem bark has many layers of suber and cortical parenchyma, a sheath composed of fibers and stone cells totally lignified, and external phloem. These anatomical characteristic, taken together, can be used as quality control parameters for this species.
Rauvolfia sellowii Müll. Arg. (Apocynaceae), uma árvore nativa brasileira rica em alcaloides indólicos, é conhecida como "pau-pra-tudo" e utilizada popularmente como hipocolesterolêmica, hipoglicêmica e anti-hipertensiva. O presente trabalho teve como objetivo caracterizar anatomicamente o caule jovem e a casca caulinar dessa planta medicinal, a fim de contribuir para a identificação e autenticidade da droga. O material vegetal foi fixado e submetido às microtécnicas usuais. O caule jovem possui epiderme remanescente, porém uma periderme suberificada é observada. O felogênio instala-se na região cortical, formando súber externamente. Subjacentes ao felogênio são observadas a feloderme e uma região colenquimática. No córtex, há numerosos laticíferos e algumas fibras. Há uma bainha esclerenquimática incompleta, constituída de vários grupos de fibras e células pétreas. O caule mostra floema interno organizado em grupos isolados lado a lado. Numerosos laticíferos, cristais de oxalato de cálcio, idioblastos e amiloplastos são encontrados no córtex, no floema, no xilema e na medula. A casca do caule possui várias camadas de súber e parênquima cortical, uma bainha composta de fibras e células pétreas totalmente lignificadas, e floema externo. Estes caracteres anatômicos, quando analisados em conjunto, podem ser utilizados como parâmetros para controle de qualidade desta espécie.
