Evidence against an action of mibefradil at N-type voltage-operated calcium channels

Xi, Qi; Angus, James A.

doi:10.1007/s002100100470

Cited by 9 publications

(7 citation statements)

References 36 publications

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“…Our findings ( fig. 6 and 7) are in line with the conclusion that mibefradil is not a blocking agent of N-type Ca 2π channels (Xi & Angus 2001;Xi et al 2002).…”

supporting

confidence: 86%

Involvement of Different Calcium Channels in the Depolarization‐Evoked Release of Noradrenaline from Sympathetic Neurones in Rabbit Carotid Artery*

Uhrenholt

Nedergaard

2005

Basic Clin Pharma Tox

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“…Our findings ( fig. 6 and 7) are in line with the conclusion that mibefradil is not a blocking agent of N-type Ca 2π channels (Xi & Angus 2001;Xi et al 2002).…”

supporting

confidence: 86%

Involvement of Different Calcium Channels in the Depolarization‐Evoked Release of Noradrenaline from Sympathetic Neurones in Rabbit Carotid Artery*

Uhrenholt

Nedergaard

2005

Basic Clin Pharma Tox

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“…One or possibly two types of channels mediate current at a low voltage range of activation. This analysis also readily shows that low concentrations (0.01 μ m ) of nimodipine and mibefradil increased I Ba at voltages below –20 mV, another characteristic of T‐type Ca 2+ channels (Oike et al 1990; Avdonin et al 2000; Xi & Angus, 2001). It does not, however, exclude the possibility of opening of non‐selective cation channels, similar to leak channels in skeletal muscle that are activated by nifedipine (Alderton & Steinhardt, 2000).…”

Section: Discussionmentioning

confidence: 58%

Voltage‐dependent calcium channels of dog basilar artery

Nikitina

Zhang

Kawashima

et al. 2007

The Journal of Physiology

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“…For each experiment, the n value was equal to the number of rats from which the arteries were obtained. Some data for this figure is re‐plotted from a previously published paper from our laboratory (Xi et al ., 2001)…”

Section: Resultsmentioning

confidence: 99%

“…In contrast both the Na + ‐channel blocker TTX (0.1 μ M ) and the N‐channel blocker ω‐conotoxin GVIA (10 n M ) essentially abolished the EJPs. We have previously established that twitch responses in the rat vas deferens preparation can be used as a highly sensitive functional assay of N‐channel function (Xi & Angus, 2001). Mibefradil in concentrations up to 30 μ M did not show any inhibitory effects in the rat vas deferens preparation but ω‐conotoxin GVIA (10 n M ) and TTX (0.1 μ M ) caused full inhibition of the twitch responses (Xi & Angus, 2001).…”

Section: Discussionmentioning

confidence: 99%

“…We have previously established that twitch responses in the rat vas deferens preparation can be used as a highly sensitive functional assay of N‐channel function (Xi & Angus, 2001). Mibefradil in concentrations up to 30 μ M did not show any inhibitory effects in the rat vas deferens preparation but ω‐conotoxin GVIA (10 n M ) and TTX (0.1 μ M ) caused full inhibition of the twitch responses (Xi & Angus, 2001). Thus, in our functional assays, we have no evidence to suggest a prejunctional action of mibefradil on either N‐channels or the Na + ‐channels.…”

Section: Discussionmentioning

confidence: 99%

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Involvement of T‐type calcium channels in excitatory junction potentials in rat resistance mesenteric arteries

Ziogas

Roberts

et al. 2002

British J Pharmacology

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1 We investigated the role of voltage-operated calcium channels in sympathetic transmission and depolarization-induced contractions in the rat mesenteric artery. In particular, we investigated the role of the T-type voltage-operated calcium channels (T-channels) in mediating excitatory junction potentials (EJPs). 2 EJPs were evoked by electrical ®eld stimulation (trains of ®ve stimuli at 0.9 Hz) in small mesenteric arteries. The average resting membrane potential was 759.8+0.5 mV (n=65). Trains of stimuli evoked individual EJPs with the peak EJP of 6+0.2 mV (n=34) occurring with the second stimulus. Trains of EJPs were inhibited 90% by tetrodotoxin (0.1 mM) or by o-conotoxin GVIA (GVIA, 10 nM) indicating their neural origin. 3 The EJPs were not inhibited by the L-type calcium channel blocker nicardipine at 0.1 mM, a concentration su cient to abolish the contraction to potassium depolarization. However, mibefradil (3 mM), considered a relatively selective T-channel antagonist, inhibited the EJPs by about 50%. This concentration of mibefradil did not inhibit GVIA-sensitive electrically-evoked twitches of the rat vas deferens. Thus the action of mibefradil in reducing EJPs is unlikely to be due to either inhibition of L-or N-type channels but is probably due to inhibition of T-channels. 4 The ®nding that Ni 2+ (300 mM), an inhibitor of T-type calcium channels, also reduced EJP amplitude by about 80% but did not block electrically-evoked twitches in the rat vas deferens, further supports an important role of T-channels in mediating small depolarizations associated with the EJPs evoked by sympathetic nerve stimulation.

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Evidence against an action of mibefradil at N-type voltage-operated calcium channels

Cited by 9 publications

References 36 publications

Involvement of Different Calcium Channels in the Depolarization‐Evoked Release of Noradrenaline from Sympathetic Neurones in Rabbit Carotid Artery*

Involvement of Different Calcium Channels in the Depolarization‐Evoked Release of Noradrenaline from Sympathetic Neurones in Rabbit Carotid Artery*

Voltage‐dependent calcium channels of dog basilar artery

Involvement of T‐type calcium channels in excitatory junction potentials in rat resistance mesenteric arteries

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