Luis M. Montaño scite author profile

Androgen vasorelaxing action is a subject of recent interest. We investigated the involvement of l-type voltage-operated Ca(2+) channels (L-VOCCs), K(+) channels, intracellular Ca(2+) concentration ([Ca(2+)]i), and cAMP in the vasorelaxing effect of testosterone and 5beta-dihydrotestosterone (5beta-DHT) on rat thoracic aorta. Isolated aortic rings were used to study the vasorelaxing potency of testosterone and 5beta-DHT on KCl- and noradrenaline-induced contractions. Patch-clamp was used to analyze androgen effects on Ca(2+) inward and K(+) outward currents. The fluorescence technique was used to evaluate [Ca(2+)]i in single myocytes; moreover, simultaneous measurements of [Ca(2+)]i and vascular contraction were evaluated. 5beta-DHT was more potent than testosterone to relax KCl-induced contraction, but they were equipotent to relax noradrenaline contraction. l-type Ca(2+) currents were blocked by nifedipine, both androgens, and an estrogen in a concentration-dependent manner, and the order of potency was: testosterone > nifedipine > 5beta-DHT > 17beta-estradiol. We observed that testosterone has different mechanism of action by the concentration range used: at nm concentrations it was a powerful L-VOCCs antagonist, whereas at mum concentrations it was observed that: 1) its Ca(2+) antagonist property is reverted by increasing the l-type inward Ca(2+) currents (Ca(2+) agonist property); and 2) the [Ca(2+)]i and cAMP production was increased. The total K(+) currents were unaffected by testosterone or 5beta-DHT. The data show that 5beta-DHT-induced vasorelaxation is due to its selective blockade on L-VOCCs (from nm to microm concentrations), but testosterone-induced vasorelaxation involves concentration-dependent additional mechanisms: acting as an L-VOCCs antagonist at low concentrations, and increasing [Ca(2+)]i and cAMP production at high concentrations.

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Androgens are bronchoactive drugs that act by relaxing airway smooth muscle and preventing bronchospasm

Montaño¹,

Espinoza²,

Flores‐Soto³

et al. 2014

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Changes in the androgen levels in asthmatic men may be associated with the severity of asthma. Androgens induce a nongenomic relaxation in airway smooth muscle, but the underlying mechanisms remain unclear. The aim of this study was to investigate the potential bronchorelaxing action of testosterone (TES) and its metabolites (5a-and 5b-dihydrotestosterone (DHT). A preventive effect on ovalbumin (OVA)-induced bronchospasm was observed in sensitized guinea pigs for each androgen. Androgens were studied in response to bronchoconstrictors: carbachol (CCh) and KCl in isolated trachea rings with and without epithelium from non-sensitized and sensitized animals as well as on OVA-induced contraction. Androgens concentration-dependently abolished the contraction in response to CCh, KCl, and OVA. There were significant differences in the sensitivity to the relaxation induced by each androgen. 5b-DHT was more potent for relaxing KCl-induced contraction, while TES and 5a-DHT were more potent for CCh-and OVA-induced contraction. No differences were found in preparations with and without epithelium or in the presence of a nitric oxide (NO) synthase inhibitor or an inhibitor of K C channels. These data indicate the absence of involvement of the epithelium-, NO-and K C channels-dependent pathway in androgen-induced relaxation. However, in dissociated tracheal myocytes loaded with the calcium-binding fluorescent dye Fura -2, physiological concentrations of androgens decreased the KCl-induced [Ca 2C ] i increment. 5b-DHT was the most potent at decreasing KCl-induced [Ca 2C ] i increment and preventing bronchospasm. We suggest that androgen-induced brochorelaxation was mediated via decreased Ca 2C influx through L-type Ca 2C channels but additional Ca 2C entry blockade may be involved. Molecular changes in androgen structure may determine its preferential site of action. Key Words" asthma " testosterone " 5a-dihydrotestosterone" 5b-dihydrotestosterone " bronchoactive steroids " airway smooth muscle

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Luis M. Montaño

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Relaxation of Androgens on Rat Thoracic Aorta: Testosterone Concentration Dependent Agonist/Antagonist l-Type Ca2+ Channel Activity, and 5β-Dihydrotestosterone Restricted to l-Type Ca2+ Channel Blockade

Androgens are bronchoactive drugs that act by relaxing airway smooth muscle and preventing bronchospasm

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