Antagonism by lipophilic quaternary ions of the K<sup>+</sup> channel opener, levcromakalim, in vascular smooth muscle

McPherson, Gary E.; Piekarska, Anna E

doi:10.1111/j.1476-5381.1994.tb13214.x

Cited by 12 publications

(7 citation statements)

References 19 publications

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“…At this time it is uncertain where lipophilic quaternary ions interact with the K ATP channel. However, previous studies with other quaternary ions have suggested that they interact with the pore of the K + channel to inhibit K + efflux from the cell (see McPherson and Piekarska 1994). The potency and nature of the antagonism displayed by the imidazolines characterised in this study are similar to that displayed by the lipophilic quaternary ions.…”

Section: Discussionsupporting

confidence: 59%

“…Another potent group of levcromakalim antagonists that have been identified are the lipophilic quaternary ions such as tetraphenylphosphonium (pK B =7.2; McPherson and Piekarska 1994;Piekarska and McPherson 1997). While displaying the same potency as glibenclamide, tetraphenylphosphonium (and related compounds) show a markedly different type of antagonism as that displayed by the sulphonylureas.…”

Section: Discussionmentioning

confidence: 97%

“…Thus the imidazolines cause a non-competitive antagonism of the K ATP channel-opening effects of levcromakalim. Since imidazolines can be positively charged at physiological pH (see McPherson and Piekarska 1994), it is possible that these compounds may affect K ATP channel opening through a mechanism similar to that utilized by the lipophilic quaternary ions.…”

Section: Discussionmentioning

confidence: 99%

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The identification of a potent imidazoline-based vascular K ATP channel antagonist

Bell

Favaloro

Khalil

et al. 2000

Naunyn-Schmiedeberg's Archives of Pharmacology

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In this study the activity of a number of novel imidazoline-based compounds (IMID series) was assessed by functional and binding studies to determine their actions at K(ATP) channels. The novel compounds, which we synthesised, were methoxy-, methyl-, butyl- and fluorophenyl derivatives of clonidine. In functional studies we determined the potency (by calculating a pK(B) value) of the IMID compounds to antagonise levcromakalim responses in segments of isolated pig coronary artery. The most potent compounds identified (laboratory codes: IMID-1M, IMID-26F and IMID-4F) had apparent pK(B) values of approximately 7 which is similar to that for the sulphonylurea, glibenclamide and the lipophilic quaternary ion, tetraphenylphosphonium. This inhibitory action was specific for levcromakalim since the imidazoline antagonist IMID-1M failed to effect vasorelaxation response-curves to the non-KATP channel opener, sodium nitroprusside. In the spontaneously beating rat right atrium preparation the majority of the compounds were able to cause slowing of heart rate, but with low EC50 values (approximately 10-30 microM). In binding studies, the compounds were unable to displace binding of [3H]P1075 to bovine aortic smooth muscle preparations nor [3H]glibenclamide binding to rat cerebral cortex membranes. These studies show that some imidazoline-based compounds are potent antagonists of levcromakalim-mediated vasorelaxation responses in the pig coronary artery. The compounds displayed only minimal bradycardic activity. The site of action of the imidazoline compounds does not appear to be the same as that used by K(ATP) channel openers or sulphonylurea-based antagonists. It is likely that these compounds interact with the K(ATP) channel pore itself.

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Section: Discussionsupporting

confidence: 59%

Section: Discussionmentioning

confidence: 97%

Section: Discussionmentioning

confidence: 99%

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The identification of a potent imidazoline-based vascular K ATP channel antagonist

Bell

Favaloro

Khalil

et al. 2000

Naunyn-Schmiedeberg's Archives of Pharmacology

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“…Thus when using sulphonylurea based compounds the levcromakalim concentration‐effect curve is shifted to the right in a parallel manner with no obvious effect on the maximum response. Another potent group of levcromakalim antagonists that we have identified are the lipophilic quaternary ions such as tetraphenylphosphonium (pK B =7.2; McPherson & Piekarska, 1994; Piekarska & McPherson, 1997). While displaying the same potency as glibenclamide, tetraphenylphosphonium (and related compounds) show a markedly different type of antagonism as that displayed by the sulphonylureas.…”

Section: Discussionmentioning

confidence: 99%

Functional and electrophysiological effects of a novel imidazoline‐based K_ATP channel blocker, IMID‐4F

McPherson

Bell

Favaloro

et al. 1999

British J Pharmacology

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The functional and electrophysiological effects of IMID‐4F (2‐[N‐(2,6‐dichlorophenyl)‐N‐(4‐flurorobenzyl)amino]imidazoline), a fluoro‐benzyl derivative of clonidine, on vascular KATP channels were investigated. In pig coronary artery, IMID‐4F inhibited the vasorelaxation response to the KATP channel opener levcromakalim with a pKB value of approximately 7.1. IMID‐4F (30 μM) did not affect the vasorelaxation response to sodium nitroprusside (SNP). In rat mesenteric artery smooth muscle cells IMID‐4F (1–10 μM) caused a concentration‐dependent depolarization of membrane potential. IMID‐4F (10 μM) abolished the hyperpolarizing effects of levcromakalim (10 μM). In patch clamp experiments using rat mesenteric artery smooth muscle cells, KATP channel currents induced by levcromakalim (10 μM) were inhibited by IMID‐4F (0.3–3 μM) in a concentration‐dependent manner. The calculated IC50 for IMID‐4F inhibiting KATP channel current was approximately 0.8 μM. Radioligand binding studies using bovine aortic smooth muscle cell membranes showed that IMID‐4F (30 μM) did not displace binding to the KATP channel opener [3H]‐P1075. However, both levcromakalim (10 μM) and glibenclamide (10 μM) caused significant displacement of [3H]‐P1075. These studies show that the imidazoline compound IMID‐4F is one of the most potent antagonists of arterial KATP channels identified. Vasorelaxation, hyperpolarization and K+ currents through KATP channels were all inhibited by IMID‐4F at micromolar concentrations. Radioligand binding studies indicate that IMID‐4F does not bind to the same site as levcromakalim or as glibenclamide. Considering other evidence, it is likely that IMID‐4F acts by interacting directly with the pore of the KIR channel, rather than through the sulphonylurea subunit of the KATP channel complex. British Journal of Pharmacology (1999) 128, 1636–1642; doi:

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“…TPA + constricts the rat mesenteric artery at low concentrations (5-10 µM), but acts as a non-selective relaxant in rat arteries at concentrations above 10 µM, whereby this effect is not associated with its blocking effect on vascular K + channels (Huang 1997). Two other lipophilic quaternary compounds, tetraphenylphosphonium and tetraphenylarsonium, are among the most potent antagonists of levcromakalim-mediated vasorelaxation (McPherson and Piekarska 1994). Some quaternary ions are highly lipophilic, which allows them to cross the hydrophobic core of the plasma membrane to interact with K + channels or other intracellular molecules.…”

Section: Introductionmentioning

confidence: 98%

Abolition of endothelium-dependent relaxation in the rat aorta by tetraoctylammonium ions

Huang

Yao

Chan

et al. 2000

Naunyn-Schmiedeberg's Archives of Pharmacology

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Quaternary ammonium ions are common pharmacological probes used to study the kinetic properties of K+ channels in smooth muscle cells. On the other hand, some ammonium compounds cause vasorelaxation through unknown mechanisms. The main aim of this study was to examine a unique role of endothelium in the vascular response to tetraoctylammonium ions (TOA+) in the isolated rat aorta. Changes in contractile force were measured by force transducers and total tissue content of cGMP was measured by radioimmunoassay. Endothelial cytosolic Ca2+ ([Ca2+]i) was assessed by laser scanning confocal microscopy.

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Antagonism by lipophilic quaternary ions of the K⁺ channel opener, levcromakalim, in vascular smooth muscle

Cited by 12 publications

References 19 publications

The identification of a potent imidazoline-based vascular K ATP channel antagonist

The identification of a potent imidazoline-based vascular K ATP channel antagonist

Functional and electrophysiological effects of a novel imidazoline‐based K_ATP channel blocker, IMID‐4F

Abolition of endothelium-dependent relaxation in the rat aorta by tetraoctylammonium ions

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Antagonism by lipophilic quaternary ions of the K+ channel opener, levcromakalim, in vascular smooth muscle

Cited by 12 publications

References 19 publications

The identification of a potent imidazoline-based vascular K ATP channel antagonist

The identification of a potent imidazoline-based vascular K ATP channel antagonist

Functional and electrophysiological effects of a novel imidazoline‐based KATP channel blocker, IMID‐4F

Abolition of endothelium-dependent relaxation in the rat aorta by tetraoctylammonium ions

Contact Info

Product

Resources

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Antagonism by lipophilic quaternary ions of the K⁺ channel opener, levcromakalim, in vascular smooth muscle

Functional and electrophysiological effects of a novel imidazoline‐based K_ATP channel blocker, IMID‐4F