Leidiane Pinho-da-Silva scite author profile

trans-Caryophyllene is a major component in the essential oils of various species of medicinal plants used in popular medicine in Brazil. It belongs to the chemical class of the sesquiterpenes and has been the subject of a number of studies. Here, we evaluated the effects of this compound in airway smooth muscle. The biological activities of trans-caryophyllene were examined in isolated bath organs to investigate the effect in basal tonus. Electromechanical and pharmacomechanical couplings were evaluated through the responses to K+ depolarization and exposure to acetylcholine (ACh), respectively. Isolated cells of rat tracheal smooth muscle were used to investigate trans-caryophyllene effects on voltage-dependent Ca2+ channels by using the whole-cell voltage-clamp configuration of the patch-clamp technique. trans-Caryophyllene showed more efficiency in the blockade of electromechanical excitation-contraction coupling while it has only minor inhibitory effect on pharmacomechanical coupling. Epithelium removal does not modify tracheal smooth muscle response elicited by trans-caryophyllene in the pharmacomechanical coupling. Under Ca2+-free conditions, pre-exposure to trans-caryophyllene did not reduce the contraction induced by ACh in isolated rat tracheal smooth muscle, regardless of the presence of intact epithelium. In the whole-cell configuration, trans-caryophyllene (3 mM), inhibited the inward Ba2+ current (IBa) to approximately 50% of control levels. Altogether, our results demonstrate that trans-caryophyllene has anti-spasmodic activity on rat tracheal smooth muscle which could be explained, at least in part, by the voltage-dependent Ca2+ channels blockade.

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TRPM8 Channel Activation Induced by Monoterpenoid Rotundifolone Underlies Mesenteric Artery Relaxation

Silva

Almeida

Chaves

et al. 2015

PLoS ONE

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In this study, our aims were to investigate transient receptor potential melastatin-8 channels (TRPM8) involvement in rotundifolone induced relaxation in the mesenteric artery and to increase the understanding of the role of these thermosensitive TRP channels in vascular tissue. Thus, message and protein levels of TRPM8 were measured by semi-quantitative PCR and western blotting in superior mesenteric arteries from 12 week-old Spague-Dawley (SD) rats. Isometric tension recordings evaluated the relaxant response in mesenteric rings were also performed. Additionally, the intracellular Ca2+ changes in mesenteric artery myocytes were measured using confocal microscopy. Using PCR and western blotting, both TRPM8 channel mRNA and protein expression was measured in SD rat mesenteric artery. Rotundifolone and menthol induced relaxation in the isolated superior mesenteric artery from SD rats and improved the relaxant response induced by cool temperatures. Also, this monoterpene induced an increase in transient intracellular Ca2+. These responses were significantly attenuated by pretreatment with capsazepine or BCTC, both TRPM8 channels blockers. The response induced by rotundifolone was not significantly attenuated by ruthenium red, a non-selective TRP channels blocker, or following capsaicin-mediated desensitization of TRPV1. Our findings suggest that rotundifolone induces relaxation by activating TRPM8 channels in rat superior mesenteric artery, more selectively than menthol, the classic TRPM8 agonist, and TRPM8 channels participates in vasodilatory pathways in isolated rat mesenteric arteries.

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Dissection of the Effects of Quercetin on Mouse Myocardium

Santos

Oliveira

Santos‐Miranda

et al. 2017

Basic Clin Pharma Tox

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Quercetin is a plant flavonoid with several biological activities. This study aimed to describe quercetin effects on contractile and electrophysiological properties of the cardiac muscle as well as on calcium handling. Quercetin elicited positive inotropism that was significantly reduced by propranolol indicating an involvement of the sympathetic nervous system. In cardiomyocytes, 30 μM quercetin increased I at 0 mV from -0.95 ± 0.01 A/F to -1.21 ± 0.08 A/F. The membrane potential at which 50% of the channels are activated (V ) shifted towards more negative potentials from -13.06 ± 1.52 mV to -19.26 ± 1.72 mV and did not alter the slope factor. Furthermore, quercetin increased [Ca ] transient by 28% when compared to control. Quercetin accelerated [Ca ] transient decay time, which could be attributed to SERCA activation. In resting cardiomyocytes, quercetin did not change amplitude or frequency of Ca sparks. In isolated heart, quercetin increased heart rate and decreased PRi, QTc and duration of the QRS complex. Thus, we showed that quercetin activates β-adrenoceptors, leading to increased L-type Ca current and cell-wide intracellular Ca transient without visible changes in Ca sparks.

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Croton sonderianus essential oil samples distinctly affect rat airway smooth muscle

et al. 2010

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Plants of the genus Croton have been used extensively in the northeast of Brazil for treating various clinical conditions. Previous studies have demonstrated that the essential oil of some specimens of Croton sp. have a relaxing effect on tracheal smooth muscle. Our study aimed to characterize the effects of Croton sonderianus essential oil samples, collected at 1:00 pm (EO-13) and 9:00 pm (EO-21), on rat tracheal smooth muscle. The two samples were submitted to gas chromatography (GC) and mass spectrometry (MS) analysis to identify their components. Rat tracheal smooth muscle strips were used to assess the biological activity. The major constituents of EO-21 were: spathulenol (18.32%), beta-caryophyllene (14.58%) and caryophyllene oxide (8.54%) and the major constituents of EO-13 were bicyclogermacrene (16.29%), beta-phellandrene (15.42%) and beta-caryophyllene (13.82%). These samples showed an antispasmodic effect on tracheal smooth muscle strips pre-contracted with high K+ concentration (80 mM) or with acetylcholine. EO-21 increased baseline tonus while EO-13 provoked a decrease. These results demonstrated that EO-13 and EO-21 have different chemical composition and showed myorelaxant activity. In conclusion, EO-13 and EO-21 may have potential therapeutic use in the treatment of bronchospasm.

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