Novel <scp><i>NALCN</i></scp> variant linked to temporal lobe epilepsy

Nguyen, Emmanuelle; Tétreault, Martine; Toffa, Dènahin Hinnoutondji; Cossette, Patrick; Samarut, Éric; Nguyen, Dang Khoa

doi:10.1002/ajmg.a.63209

American J of Med Genetics Pt A

2023

DOI: 10.1002/ajmg.a.63209

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Novel NALCN variant linked to temporal lobe epilepsy

Emmanuelle Nguyen

Martine Tétreault

Dènahin Hinnoutondji Toffa

et al.

Abstract: The sodium leak channel (NALCN) gene encodes a sodium leak channel that plays an important role in the regulation of the resting membrane potential and the control of neuronal excitability. Mutations in the NALCN gene have been reported in patients with infantile hypotonia with psychomotor retardation and characteristic facies (IHPRF) and congenital contractures of the limbs and face with hypotonia and developmental delay (CLIFAHDD syndrome). We describe the case of a father with drug-resistant left temporo-or… Show more

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2024

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Cited by 1 publication

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New insights into the physiology and pathophysiology of the atypical sodium leak channel NALCN

Monteil,

Guérineau,

Gil-Nagel

et al. 2024

Physiological Reviews

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Cell excitability and its modulation by hormones and neurotransmitters involve the concerted action of membrane proteins, especially ion channels. Unique complements of co-expressed ion channels are exquisitely balanced against each other in different excitable cell types, establishing distinct electrical properties that are tailored for diverse physiological contributions, and dysfunction of any component may induce a disease state. A crucial parameter controlling cell excitability is the resting membrane potential (RMP) set by extra- and intra-cellular concentrations of ions, mainly Na+, K+, and Cl-, and their passive permeation across the cell membrane through leak ion channels. Indeed, dysregulation of RMP causes significant effects on cellular excitability. This review describes the molecular and physiological properties of the Na+ leak channel NALCN, which associates with its accessory subunits UNC-79, UNC-80, and NLF-1/FAM155 to conduct depolarizing background Na+ currents in various excitable cell types, especially neurons. Studies of animal models clearly demonstrate that NALCN contributes to fundamental physiological processes in the nervous system including the control of respiratory rhythm, circadian rhythm, sleep and locomotor behavior. Furthermore, dysfunction of NALCN and its subunits is associated with severe pathological states in humans. The critical involvement of NALCN in physiology is now well established, but its study has been hampered by the lack of specific drugs that can block or agonize NALCN currents in vitro and in vivo. Molecular tools and animal models are now available to accelerate our understanding of how NALCN contributes to key physiological functions, and the development of novel therapies for NALCN channelopathies.

show abstract

New insights into the physiology and pathophysiology of the atypical sodium leak channel NALCN

Monteil,

Guérineau,

Gil-Nagel

et al. 2024

Physiological Reviews

View full text Add to dashboard Cite

show abstract

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Novel NALCN variant linked to temporal lobe epilepsy

Cited by 1 publication

References 21 publications

New insights into the physiology and pathophysiology of the atypical sodium leak channel NALCN

New insights into the physiology and pathophysiology of the atypical sodium leak channel NALCN

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