Verapamil Block of T-Type Calcium Channels

Bergson, Pamela; Lipkind, Gregory M.; Lee, Steven P.; Duban, Mark-Eugene; Hanck, Dorothy A.

doi:10.1124/mol.110.069492

Cited by 71 publications

(56 citation statements)

References 26 publications

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“…[ 125 I]Alb uptake. The same was true of verapamil, the L-and T-type Ca 1 channel blocker (Bergson et al, 2011), which can also inhibit P-glycoprotein, an ATP-dependent drug transport protein (Schinkel, 1999). Albumin-binding proteins, such as endothelial membrane-associated gp60 (albondin) (Schnitzer, 1992), use caveolae-dependent mechanisms to transport albumin from peripheral blood vessel lumen to interstitium and are inhibited by filipin (Schnitzer et al, 1994;Tiruppathi et al, 1997), a cholesterol-binding agent that inhibits caveolaedependent transcytosis (Schnitzer et al, 1994).…”

Section: Brain Uptake Of Intranasal Albuminmentioning

confidence: 98%

Intranasal Administration as a Route for Drug Delivery to the Brain: Evidence for a Unique Pathway for Albumin

Falcone

Salameh

Xiang³

et al. 2014

J Pharmacol Exp Ther

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Section: Brain Uptake Of Intranasal Albuminmentioning

confidence: 98%

Intranasal Administration as a Route for Drug Delivery to the Brain: Evidence for a Unique Pathway for Albumin

Falcone

Salameh

Xiang³

et al. 2014

J Pharmacol Exp Ther

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“…Moreover, it has been reported that verapamil blocks T-type voltage-dependent calcium channels 30) . In the future, we will clarify the details of the influx of calcium ions into C2C12 cells during depolarization, using not only verapamil but also another type of calcium channel blocker.…”

Section: Discussionmentioning

confidence: 99%

Calcium Ions Released from Mineral Trioxide Aggregate are Taken Up by C2C12 Cells via the L-Type Voltage-Dependent Calcium Channel

Matsumoto¹,

Hayashi²,

Tanabe³

et al. 2013

J. Hard Tissue Biology.

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Mineral trioxide aggregate (MTA) is a commonly used endodontic repair material reported to exhibit calcified-tissue conductive activity. The effect of MTA on osteoblast differentiation has been well-defined; however, its effect on mesenchymal cells is not fully understood. Recently, we reported that MTA converts the differentiation pathway of pluripotent mesenchymal cells (C2C12 cells) into osteoblast lineages, possibly through the influx of elution components, such as calcium ions released from MTA. The purpose of this study was to investigate whether calcium ions released from MTA flow directly into C2C12 cells and whether this influx increases intracellular calcium levels. C2C12 cells were loaded with fluo-3 acetoxymethyl ester, which acts as a calcium-sensitive fluorescent probe. The intracellular calcium levels of C2C12 cells were assessed by confocal laser scanning microscopy. MTA induced a rapid increase in fluorescence intensity (FI) in C2C12 cells; however, application of Dulbecco's modified Eagle's medium (DMEM) as the growth medium had no such effect. To clarify the specific effects of MTA-derived calcium ions, we used calcium chloride as an exogenous calcium ion source and ethylene glycol tetraacetic acid (EGTA) as a calcium chelator. DMEM containing calcium chloride elicited a rapid rise in FI, whereas MTA plus EGTA did not affect FI. Moreover, MTA did not affect FI in C2C12 cells pre-incubated with verapamil, an L-type voltage-dependent calcium channel (VDCC L ) blocker. Our data suggest that calcium ions released from MTA flow directly into C2C12 cells via VDCC L .

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“…Currently, verapamil is used in clinical setting to terminate cardiac arrhythmias. 41,42 It is reported that calcium antagonists promote a change in cell shape from bipolar to spherical. The mechanism by which this is accomplished remains unknown.…”

Section: Primary Outcomes On Mechanism Of Actionmentioning

confidence: 99%

Mechanism of Action, Efficacy, and Adverse Events of Calcium Antagonists in Hypertrophic Scars and Keloids

Verhiel

Piatkowski

Hulst

2015

Dermatologic Surgery

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Verapamil Block of T-Type Calcium Channels

Cited by 71 publications

References 26 publications

Intranasal Administration as a Route for Drug Delivery to the Brain: Evidence for a Unique Pathway for Albumin

Intranasal Administration as a Route for Drug Delivery to the Brain: Evidence for a Unique Pathway for Albumin

Calcium Ions Released from Mineral Trioxide Aggregate are Taken Up by C2C12 Cells via the L-Type Voltage-Dependent Calcium Channel

Mechanism of Action, Efficacy, and Adverse Events of Calcium Antagonists in Hypertrophic Scars and Keloids

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