RESUMO:Este trabalho apresenta o estudo morfoanatômico das folhas e caules de Microlicia hatschbachii Wurdack, Melastomataceae. Esta espécie possui folhas elípticas a oval-elípticas, margem inteira, ápice agudo e base simétrica e arredondada. A lâmina foliar é anfiestomática, com estômatos do tipo anisocítico e anomocítico, a epiderme é uniestratificada, com células isodiamétricas em secção transversal, e presença de inúmeros tricomas glandulares. O mesofilo é do tipo isobilateral com feixe vascular bicolateral envolvido por algumas células esclerenquimáticas na nervura central. O caule tem secção quadrangular a circular e epiderme unisseriada, com tricomas similares aos da folha. Drusas de oxalato de cálcio foram encontradas nas folhas e no caule.
Unitermos: Microlicia hatschbachii, Melastomataceae, morfoanatomia.ABSTRACT: This work shows the morpho-anatomical study of leaf and stem of Microlicia hatschbachii Wurdack (Melastomataceae). Its leaves are elliptic to oval-elliptic, with entire margin, acute apex and rounded symmetrical base. The leaf blade is amphistomatical with anisocytic and anomocytic stomata, in transection the epidermis is uniseriate with isodiametric cells and presence of several glandular trichomes. The mesophyll is isobilateral with bicollateral vascular bundles surrounded by some sclerenchymatic cells in midrib. The stem has a quadrangular to circular transection and uniseriate epidermis with trichomes like ones of leaf. Several druses of calcium oxalate are found in the leaf and stem.
This study describes the effects of extracts and fractions of Persea willdenovii leaves against goat gastrointestinal nematodes and their cytotoxicity on Vero cells. The in vitro ovicidal and larvicidal activities of the crude ethanolic, hexane, ethyl acetate (EAE), butanolic and residual hydroethanolic extracts were assessed through the inhibition of egg hatching and larval motility assays. The most active extract (EAE) was then fractionated by chromatography in an open column containing silica gel, to furnish six fractions (Fr1-Fr6), which were also tested. The cytotoxicity of active extracts and fractions was determined using the 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assay and trypan blue exclusion assay. The EAE and two fractions (Fr1 and Fr2) showed inhibitory activity in the egg hatching of gastrointestinal nematodes of goats in a concentration-dependent manner. The effective concentrations for 50% inhibition (EC50) of egg hatching were 2.3, 0.12 and 2.94 mg/ml for EAE, Fr1 and Fr2, respectively. All extracts and fractions were not effective in inhibiting 50% of motility of infective larvae. EAE and Fr2 had IC50 values (50% inhibitory concentration) of 4.95 and 2.66 mg/ml, respectively. Fr1 showed a slight cytotoxic effect (cellular inviability <30%) only after 48 h of treatment (MTT test). Gas chromatography-mass spectrometry (GC-MS) analysis showed the presence of six fatty acid ethyl esters, a fatty acid methyl ester and a long-chain ketone in the most active fraction. These constituents identified in P. willdenovii can be related to the high ovicidal activity and relatively non-toxic effect of the extracts.
Aerial parts of Microlicia hatschbachii were extracted with hexane, and the extract was evaluated for antimicrobial activity by a broth dilution method. After phytochemical procedures: GC-MS identified aliphatic alkanes, carboxylic acids and methyl esters of long-chain fatty acids; and two diterpenoids [labd-8(17)-en-15-oic acid and labd-8(17),13-dien-15-oic acid] were identified by (1)H and (13)C NMR. The antimicrobial activity of the hexane extract could be attributed to the presence of labdanes. This identification is the first reported occurrence of labdane diterpenes in the Melastomataceae family.
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