Phytochemical Analysis and Antimicrobial Activity of Myrcia tomentosa (Aubl.) DC. Leaves.

This work describes the isolation and structural elucidation of compounds from the leaves of Myrcia tomentosa (Aubl.) DC. (goiaba-brava) and evaluates the antimicrobial activity of the crude extract, fractions and isolated compounds against bacteria and fungi. Column chromatography was used to fractionate and purify the extract of the M. tomentosa leaves and the chemical structures of the compounds were determined using spectroscopic techniques. The antibacterial and antifungal activities were assessed using the broth microdilution method. The phytochemical investigation isolated 11 compounds: α-bisabolol, α-bisabolol oxide B, α-cadinol, ß-sitosterol, n-pentacosane, n-tetracosane, quercetin, kaempferol, avicularin, juglanin and guaijaverin. The crude ethanolic extract and its fractions were tested against 15 bacteria and 9 yeasts. The crude extract inhibited the in vitro growth of yeasts at concentration of 4 to 32 µg/mL. The hexane, dichloromethane, ethyl acetate and aqueous fractions inhibited Candida sp. at concentrations of 4 to 256 µg/mL, whereas the Cryptococcus sp. isolates were inhibited only by the hexane and dichloromethane fractions in minimal inhibitory concentrations (MICs) at 16 to 64 µg/mL. The flavonoid quercetin-3-O-α-arabinofuranose (avicularin) was the most active compound, inhibiting Candida species in concentrations of 2 to 32 µg/mL. The MIC values suggest potential activity of this plant species against yeast.

Blocking the L-type Ca2+ channel (Cav 1.2) is the key mechanism for the vascular relaxing effect of Pterodon spp. and its isolated diterpene methyl-6α-acetoxy-7ß-hydroxyvouacapan-17ß-oate.

Pterodon spp. Vogel (Fabaceae), popularly known as "sucupira", has ethnopharmacological application which is described as having antispasmodic and relaxant effects. Hence, it was hypothesized that sucupira oil-resin (SOR) could induce smooth muscle relaxation. So, this study investigated the mechanisms involved in the vasorelaxant effect of SOR and its isolated diterpene (methyl-6α-acetoxy-7ß-hydroxyvouacapan-17ß-oate). Vascular reactivity experiments were performed using rat aortic rings (n=5-8) with (E+) or without endothelium (E-) in an isolated bath organ. The SOR (0-56 µg/mL) relaxed phenylephrine (E+: 86.7±7.1%; E-: 92.3±4.7%) and KCl contracted rings (E-: 97.1±2.8%). In the same way, diterpene (0-48 µg/mL) also relaxed phenylephrine (E+: 94.5±3.6%; E-: 92.2±3.4%) and KCl contracted rings (E-: 99.7±0.2%). The pre-incubation of arterial rings with cyclopiazonic acid (reticular Ca2+-ATPase inhibitor), tetraethylammonium (K+ channels blocker) or MDL-12,330A (adenylyl cyclesinhibitor) did not modify either SOR- or diterpeneinduced vasorelaxation. However, ODQ (guanylyl cyclase inhibitor) impaired only diterpene-induced vasorelaxation. SOR and diterpene significantly reduced CaCl2-induced contraction stimulated by Bay K8644 (1 µM), phenylephrine (0.1 µM) or KCl solution (40 mM). Computational molecular docking studies demonstrated that the vasodilator effect of diterpene relies on blocking the Cav 1.2 channel, and patch clamp results showed that diterpene substantially decreased the ionic current through Cav 1.2 in freshly dissociated vascular smooth muscle cells. These findings suggest that SOR and its isolated diterpene induce endothelium-independent vascular relaxation by blocking the L-type Ca2+ channel (Cav 1.2).