Eduardo Antônio Conde-Garcia scite author profile

Geraniol is a monoterpene present in several essential oils, and it is known to have a plethora of pharmacological activities. In this study, we explored the contractile and electrophysiological properties of geraniol and its antiarrhythmic effects in the heart. The geraniol effects on atrial contractility, L-type Ca 2+ current, K + currents, action potential (AP) parameters, ECG profile and on the arrhythmia induced by ouabain were evaluated. In the atrium, geraniol reduced the contractile force (~98%, EC = 1,510 AE 160 lM) and diminished the positive inotropism of CaCl 2 and BAY K8644. In cardiomyocytes, the I Ca,L was reduced by 50.7% (n = 5) after perfusion with 300 lM geraniol. Moreover, geraniol prolonged the AP duration (APD) measured at 50% (n = 5) after repolarization, without changing the resting potential. The increased APD could be attributed to the blockade of the transient outward K + current (I to ) (59.7%, n = 4), the non-inactivation K + current (I ss ) (39.2%, n = 4) and the inward rectifier K + current (I K1 ) (33.7%, n = 4). In isolated hearts, geraniol increased PRi and QTi without affecting the QRS complex (n = 6), and it reduced both the left ventricular pressure (83%) and heart rate (16.5%). Geraniol delayed the time to onset of ouabain-induced arrhythmias by 128%, preventing 30% of the increase in resting tension (n = 6). Geraniol exerts its negative inotropic and chronotropic responses in the heart by decreasing both L-type Ca 2+ and voltage-gated K + currents, ultimately acting against ouabain-induced arrhythmias.

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R(+)-pulegone impairs Ca2+ homeostasis and causes negative inotropism in mammalian myocardium

Cerqueira

Gondim

Roman‐Campos

et al. 2011

European Journal of Pharmacology

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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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Negative inotropic and chronotropic effects on the guinea pig atrium of extracts obtained from Averrhoa carambola L. leaves

Vasconcelos

Araújo

Silva

et al. 2005

Braz J Med Biol Res

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It has been reported that star fruit can lead to a fatal outcome in uremic patients. The intoxication syndrome consists of hiccups, mental confusion, dizziness, and vomiting. On the other hand, folk medicine uses teas and infusions of carambola leaves to treat headache, vomiting, cough, insomnia, and diabetes. This motivated us to determine if Averrhoa carambola can act on the contractility and automaticity of the guinea pig heart. We measured the atrial isometric force in stimulated left atria and determined the chronotropic changes in spontaneously beating right atria. The carambola leaf extracts (1.5 mg/ml) abolished the contractile force in a concentration-dependent manner. Among the crude, methanolic, ethanolic, aqueous, and acetic extracts, the aqueous one was the most potent (EC 50 = 520 ± 94 µg/ml; flavonoids and tannins are the main constituents; Na + and K + contents in 1.0 mg/ ml of aqueous extract were 0.12 ± 0.016 and 1.19 ± 0.15 mM, respectively). The aqueous extract abolished the positive Bowditch staircase phenomenon and reduced the inotropic response to CaCl 2 (0.17-8.22 mM), events that are dependent on the cellular Ca 2+ inward current. The adrenergic, muscarinic or opioid membrane receptors do not seem to participate in the mechanism of action of the cardioactive substance(s). In spontaneously beating atria, the aqueous extract promoted a negative chronotropic effect that was antagonized by 0.1 µM isoproterenol bitartrate. With this agonist, the EC 50 of the aqueous extract increased from 133 ± 58 to 650 ± 100 µg/ml. These data regarding the effect of A. carambola on guinea pig atrial contractility and automaticity indicate an L-type Ca 2+ channel blockade.

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Electrophysiological effects of the aqueous extract of Averrhoa carambola L. leaves on the guinea pig heart

Vasconcelos¹,

Araújo²,

Conde-Garcia³

2006

Phytomedicine

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