Enrica Martinotti

Vasorelaxing effects of flavonoids: investigation on the possible involvement of potassium channels

A flavonoid-rich diet has been associated with a lower incidence of cardiovascular diseases, probably because of the antioxidant and vasoactive properties of flavonoids. Indeed, many flavonoids show vasorelaxing properties, due to different and often not yet completely clarified mechanisms of action. Among them, the activation of vascular potassium channels has been indicated as a possible pathway, accounting, at least in part, for the vasodilatory action of some flavonoid derivatives, such as apigenin and dioclein. Therefore, this work aims at evaluating, on in vitro isolated rat aortic rings, the endothelium-independent vasorelaxing effects of a number of flavonoid derivatives, to identify a possible activation of calcium-activated and/or ATP-sensitive potassium channels and to indicate some possible structure–activity relationships. Among the several flavonoids submitted to the pharmacological assay, only baicalein and quercetagetin were almost completely ineffective, while quercetin, hesperidin, quercitrin and rhoifolin exhibited only a partial vasorelaxing effect. On the contrary, acacetin, apigenin, chrysin, hesperetin, luteolin, pinocembrin, 4′-hydroxyflavanone, 5-hydroxyflavone, 5-methoxyflavone, 6-hydroxyflavanone and 7-hydroxyflavone, belonging to the chemical classes of flavones and flavanones, showed full vasorelaxing effects. The vasodilatory activity of hesperetin, luteolin, 5-hydroxyflavone and 7-hydroxyflavone were antagonised by tetraethylammonium chloride, indicating the possible involvement of calcium-activated potassium channels. Moreover, iberiotoxin clearly antagonised the effects of 5-hydroxyflavone, indicating the probable importance of a structural requirement (the hydroxy group in position 5) for a possible interaction with large-conductance, calcium-activated potassium channels. Finally, glibenclamide inhibited the vasorelaxing action of luteolin and 5-hydroxyflavone, suggesting that ATP-sensitive potassium channels may also be involved in their mechanism of action.

Cardiovascular effects of Urtica dioica L. (Urticaceae) roots extracts: in vitro and in vivo pharmacological studies

Urtica dioica (Urticaceae) is a plant principally used in the traditional medicine of oriental Marocco as antihypertensive remedy (J. Ethnopharmacol., 58 (1997), 45). The aim of this work was to evaluate a possible direct cardiovascular action of the plant and to investigate its mechanism of action. In aortic preparations with intact and functional endothelial layer, pre-contracted with KCl 20 mM or norepinephrine 3 microM, the crude aqueous and methanolic extracts of the plant roots, as well as purified fractions elicited a vasodilator action. Nevertheless, the vasodilator activity was not present in aortic rings without endothelial layer. In aortic rings with intact endothelial layer, the vasorelaxing effect was abolished by L-NAME, a NO-biosynthesis inhibitor, and ODQ, a guanylate cyclase inhibitor. Furthermore, potassium channel blockers (TEA, 4-aminopyridine, quinine, but not glybenclamide) antagonized the vasodilator action of the purified fraction F1W of U. dioica. The same fraction produced a marked decrease of inotropic activity, in spontaneously beating atria of guinea-pig, and a marked, but transient, hypotensive activity on the blood pressure of anaesthetized rats. It is concluded that U. dioica can produce hypotensive responses, through a vasorelaxing effect mediated by the release of endothelial nitric oxide and the opening of potassium channels, and through a negative inotropic action.

(+/−)-Naringenin as large conductance Ca2+-activated K+ (BKCa) channel opener in vascular smooth muscle cells

The aim of this study was to investigate, in vascular smooth muscle cells, the mechanical and electrophysiological effects of (+/−)‐naringenin.

Synthesis of 1,8-naphthyridine derivatives: potential antihypertensive agents – Part VIII

A series of 2-(carbethoxypiperazinyl)- and 2-piperazinyl-1,8-naphthyridine derivatives, variously substituted, have been synthesized and pharmacologically investigated for their antihypertensive activity. Some of them exhibited a significant and prolonged decrease of the mean arterial pressure (MAP) on spontaneously hypertensive rats. For this series of compounds, on the basis of the pharmacological results obtained, no structure-activity relationship can be deduced at this time. Moreover, the most active and representative compounds 11b, 12a and 16b were investigated by means of in vitro pharmacological functional studies and in vivo, as diuretic agents, to determine a possible mechanism of the antihypertensive activity, which is unknown for the moment.

Cytotoxic activity of polyacetylenes and polyenes isolated from roots of Echinacea pallida

The n‐hexane extracts of the roots of three medicinally used Echinacea species exhibited cytotoxic activity on human cancer cell lines, with Echinacea pallida found to be the most cytotoxic. Acetylenes are present in E. pallida lipophilic extracts but essentially absent in extracts from the other two species. In the present study, the cytotoxic effects of five compounds, two polyacetylenes (namely, 8‐hydroxy‐pentadeca‐(9E)‐ene‐11,13‐diyn‐2‐one (1) and pentadeca‐(9E)‐ene‐11,13‐diyne‐2,8‐dione (3)) and three polyenes (namely, 8‐hydroxy‐pentadeca‐(9E,13Z)‐dien‐11‐yn‐2‐one (2), pentadeca‐(9E,13Z)‐dien‐11‐yne‐2,8‐dione (4) and pentadeca‐(8Z,13Z)‐dien‐11‐yn‐2‐one (5)), isolated from the n‐hexane extract of E. pallida roots by bioassay‐guided fractionation, were investigated and the potential bioavailability of these compounds in the extract was studied.

Some structural changes on triazolyl-benzotriazoles and triazolyl-benzimidazolones as potential potassium channel activators. III

This paper reports the synthesis and pharmacological evaluation of some compounds, obtained by structural modifications of 1,2,3-triazolyl-benzotriazoles and 1,2,3-triazolyl-benzimidazolones, which had shown activity as potential activators of the big-conductance calcium-activated potassium channels (BK(Ca)). Changes have concerned the introduction of a hinderer substituent in the 5-position of the benzimidazolone (4a, b) and benzotriazole (5a, b) rings, opening of the benzimidazolone ring (7) and substitution of the 1,2,3-triazole ring with a 2-hydroxyphenyl ring (10). Furthermore a series of 3-aryl-benzotriazin-4-one derivatives (13a-e) has been studied, which appears as a modification and/or combination of the benzimidazolone and benzotriazole rings. Only compound 10 shows interesting activity, while the other structural modifications either do not increase (compounds 4 and 5) or reduce (compounds 7 and 13) the pharmacological activity. However, these results provide useful information about structure-activity relationships.

Evidence for two opposite effects of clonidine on gastric acid secretion in the dog

SummaryThe effects of clonidine on gastric acid secretion were studied in conscious dogs wih both gastric fistulae and Heidenhain pouches. Clonidine infused systemically at graded doses under basal conditions produced a significant increase in acid secretion from both gastric fistulae and Heidenhain pouches. Acid secretion from gastric fistulae submaximally stimulated by pentagastrin was dose-dependently reduced by clonidine while 2-deoxy-d-glucose-induced secretion was completely suppressed. Under these conditions a significant enhancement of secretion from Heidenhain pouches was recorded. An increase in acid secretion from both main stomachs and Heidenhain pouches was observed for clonidine with submaximal doses of bethanechol and histamine as stimulants, though clonidine showed no effect on maximal stimulation by histamine. The stimulant effect of clonidine from gastric fistulae and Heidenhain pouches under basal conditions was fully prevented by cimetidine, while the inhibitory effect of clonidine on acid secretion stimulated by pentagastrin from gastric fistulae was reversed by yohimbine.The present results suggest that clonidine displays two simultaneous yet opposite effects on dog gastric secretion. The inhibitory effect might be mediated through a decrease of vagally released acetylcholine following the activation of alpha2-adrenoceptors both at central and peripheral sites, while the stimulatory effect probably depends on the histamine-like properties of the drug.

Synthesis and β-blocking activity of (E)- and (Z)-iminoethers of 1,8-naphthyridine. Potential antihypertensive agents. 4

Abstract A series of substituted (E)-and (Z)-iminoethers of 1,8-naphthyridine was synthesized from corresponding ketones. The pharmacological activity of these compounds was evaluated on isolated preparations to assess the eventual interaction with α and β adrenoceptors. All the compounds exhibited β2 stimulating and β1 blocking properties, while on α receptors neither stimulating nor blocking activity was observed.

Effects of subacute exposure to noise on the noradrenergic innervation of the cardiovascular system in young and aged rats: a morphofunctional study

The effects of subacute noise stress on the noradrenergic pattern and receptor-mediated responses were examined in aorta and atria of young and aged rats. Noise exposure increased the density of noradrenergic fibres and responses to the β-adrenergic agonist isoprenaline in the cardiac tissue of young animals. In aged rats, the stressing stimulus markedly increased the maximal response to the α-agonist on the aortic musculature; on the contrary, a reduced responsiveness to the β-agonist was observed at the cardiac level, without any noteworthy changes in the noradrenergic pattern in comparison to aged controls. The present results indicate that subacute noise stress induces both morphological and functional modifications of the noradrenergic nervous system and also that after subacute noise stress, morphological changes do not necessarily correspond exactly to functional data; the latter show responses that are more widely differentiated than the morphological ones.

Triazolyl-benzimidazolones and triazolyl-benzotriazoles: new potential potassium channel activators. II

This paper reports the synthesis and pharmacological evaluation of a series of 5-substituted-triazolyl benzotriazoles (2a-f) and the corresponding series of 5-substituted-triazolyl-benzimidazolones (6a-f), as potential activators of the big-conductance calcium-activated potassium channels (BK(Ca)). The synthesis and structure demonstration of the stock compounds of the two series have been described in our previous works, as well as the common starting compounds 4-carboxamido-5-(4-substituted-2amino-anilino)-1,2,3-triazoles (1a-f). The triazolyl-benzotriazoles were obtained by diazotization, while the triazolyl-benzimidazolones were obtained by thermal intramolecular cyclization of ethoxycarbonylamino derivatives or directly with phosgene. Benzimidazolone compounds generally showed little effect whilst the compounds with a benzotriazole ring showed full efficacy, with vasorelaxing properties and potency parameters a little lower than that of the reference compound NS 1619. These effects were significantly reduced by an increased membrane depolarization. This depolarization-sensitive response is in agreement with the pharmacodynamic hypothesis of activation of potassium channels.