Actions of U-92032, a T-Type Ca2+ Channel Antagonist, Support a Functional Linkage Between I T and Slow Intrathalamic Rhythms

Porcello, Darrell M.; Smith, Stephen D.; Huguenard, John R.

doi:10.1152/jn.00667.2002

Cited by 34 publications

(28 citation statements)

References 49 publications

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“…Pharmacological studies suggest that low-voltage-activated T-type Ca 2ϩ channels are involved in the genesis of absence seizures, which are characterized by spike-and-wave discharges (SWDs) (van Luijtelaar et al, 2000;Porcello et al, 2003). Antagonists of T-type Ca 2ϩ channels suppress both slow intrathalamic rhythms in vitro (Porcello et al, 2003) and SWDs in human absence seizure patients and in rodent models of absence seizures (Heller et al, 1983;Hosford et al, 1992;van Luijtelaar et al, 2000).…”

Section: Introductionmentioning

confidence: 99%

“…Antagonists of T-type Ca 2ϩ channels suppress both slow intrathalamic rhythms in vitro (Porcello et al, 2003) and SWDs in human absence seizure patients and in rodent models of absence seizures (Heller et al, 1983;Hosford et al, 1992;van Luijtelaar et al, 2000). Previous genetic studies indicate that of the three ␣1 subunits of T-type Ca 2ϩ channels (G, H, and I), the ␣1G subunit is critically involved in SWD genesis.…”

Section: Introductionmentioning

confidence: 99%

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Role of the α1G T-Type Calcium Channel in Spontaneous Absence Seizures in Mutant Mice

Song¹,

Kim²,

Choi³

et al. 2004

J. Neurosci.

131

108

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Alterations in thalamic T-type Ca2ϩ channels are thought to contribute to the pathogenesis of absence seizures. Here, we found that mice with a null mutation for the pore-forming ␣1A subunits of P/Q-type channels (␣1A Ϫ/Ϫ mice) were prone to absence seizures characterized by typical spike-and-wave discharges (SWDs) and behavioral arrests. Isolated thalamocortical relay (TC) neurons from these mice showed increased T-type Ca 2ϩ currents in vitro. To examine the role of increased T-currents in ␣1A Ϫ/Ϫ TC neurons, we cross-bred ␣1A Ϫ/Ϫ mice with mice harboring a null mutation for the gene encoding ␣1G, a major isotype of T-type Ca 2ϩ channels in TC neurons. ␣1AϪ/Ϫ /␣1G Ϫ/Ϫ mice showed a complete loss of T-type Ca 2ϩ currents in TC neurons and displayed no SWDs. Interestingly, ␣1AϪ/Ϫ / ␣1G ϩ/Ϫ mice had 75% of the T-type Ca 2ϩ currents in TC neurons observed in ␣1A ϩ/ϩ /␣1G ϩ/ϩ mice and showed SWD activity that was quantitatively similar to that in ␣1A Ϫ/Ϫ /␣1G ϩ/ϩ mice. Similar results were obtained using double-mutant mice harboring the ␣1G mutation plus another mutation also used as a model for absence seizures, i.e., lethargic (␤4 lh/lh ), tottering (␣1A tg/tg ), or stargazer (␥2 stg/stg ). The present results reveal that ␣1G T-type Ca 2ϩ channels play a critical role in the genesis of spontaneous absence seizures resulting from hypofunctioning P/Q-type channels, but that the augmentation of thalamic T-type Ca 2ϩ currents is not an essential step in the genesis of absence seizures.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Role of the α1G T-Type Calcium Channel in Spontaneous Absence Seizures in Mutant Mice

Song¹,

Kim²,

Choi³

et al. 2004

J. Neurosci.

131

108

View full text Add to dashboard Cite

show abstract

“…Hence, LVA calcium T-channels are considered essential players in the regulation of neural pacemaker activity and synchronized neuronal oscillations of thalamocortical networks and responsible of spike wave discharge in absence epilepsy [79,80]. Indeed, variants in the CACNA1H gene are considered risk factors for susceptibility to IGEs pathogenesis [81] and different single nucleotide polymorphisms of this gene have been found associated to CAE [82].…”

Section: Gene Mutations Voltage-and Ligand-gated Ion Channels and Epmentioning

confidence: 99%

Targeted Resequencing of Epilepsy Genes: A Pharmaco-Therapeutic Perspective

Moles¹,

Romanelli²,

Zara³

et al. 2014

Int J Neurorehabilitation Eng

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More than half of all epilepsies have some genetic basis and single gene defects in ion channels or neurotransmitter receptors are associated with some inherited forms of epilepsy. Genetic research even in the field of epilepsy disorders is increasing in term of testing platform for the investigation of sequence and structural variation. Next generation sequencing (NGS), i.e., high-throughput sequencing technologies now allow analyses that were previously prohibitive. Targeted resequencing methods by diagnostic panels enable to sequence all the genes associated with a certain disease simultaneously within a few weeks. In this review, we will discuss the overall helpfulness and convenience of simultaneous genotyping of multiple epilepsy genes by NGS in a pharmacogenetics perspective.

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“…One well-studied example is the flunarizine analog U-92032 [69] which is three-orders of magnitude more potent at T-Type channels than methylphenylsuccinimide (MPS) [70].…”

Section: Other Antagonistsmentioning

confidence: 99%

Drugs Active at T‐type Ca ²⁺ Channels

Connolly¹,

Barrow²

2006

Methods and Principles in Medicinal Chemistry

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Actions of U-92032, a T-Type Ca²⁺ Channel Antagonist, Support a Functional Linkage Between I _T and Slow Intrathalamic Rhythms

Cited by 34 publications

References 49 publications

Role of the α1G T-Type Calcium Channel in Spontaneous Absence Seizures in Mutant Mice

Role of the α1G T-Type Calcium Channel in Spontaneous Absence Seizures in Mutant Mice

Targeted Resequencing of Epilepsy Genes: A Pharmaco-Therapeutic Perspective

Drugs Active at T‐type Ca ²⁺ Channels

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Actions of U-92032, a T-Type Ca2+ Channel Antagonist, Support a Functional Linkage Between I T and Slow Intrathalamic Rhythms

Cited by 34 publications

References 49 publications

Role of the α1G T-Type Calcium Channel in Spontaneous Absence Seizures in Mutant Mice

Role of the α1G T-Type Calcium Channel in Spontaneous Absence Seizures in Mutant Mice

Targeted Resequencing of Epilepsy Genes: A Pharmaco-Therapeutic Perspective

Drugs Active at T‐type Ca 2+ Channels

Contact Info

Product

Resources

About

Actions of U-92032, a T-Type Ca²⁺ Channel Antagonist, Support a Functional Linkage Between I _T and Slow Intrathalamic Rhythms

Drugs Active at T‐type Ca ²⁺ Channels