Epithelial Sodium Channels

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"Epithelial Sodium Channels" is a descriptor in the National Library of Medicine's controlled vocabulary thesaurus, MeSH (Medical Subject Headings). Descriptors are arranged in a hierarchical structure, which enables searching at various levels of specificity.

MeSH information

Definition | Details | More General Concepts | Related Concepts | More Specific Concepts

Sodium channels found on salt-reabsorbing EPITHELIAL CELLS that line the distal NEPHRON; the distal COLON; SALIVARY DUCTS; SWEAT GLANDS; and the LUNG. They are AMILORIDE-sensitive and play a critical role in the control of sodium balance, BLOOD VOLUME, and BLOOD PRESSURE.

Descriptor ID	D053503
MeSH Number(s)	D12.776.157.530.400.875.200 D12.776.543.550.450.875.200 D12.776.543.585.400.875.200
Concept/Terms	Epithelial Sodium Channels Epithelial Sodium Channels Sodium Channels, Epithelial Epithelial Amiloride-Sensitive Sodium Channel Epithelial Amiloride Sensitive Sodium Channel Epithelial Sodium Ion Channels ENaC (Epithelial Na+ Channel) Epithelial Sodium Channel Sodium Channel, Epithelial Epithelial Sodium Channel, gamma Subunit Epithelial Sodium Channel, gamma Subunit Sodium Channel, Nonvoltage-gated 1 Protein, gamma Subunit ENaC gamma SCNN1 gamma Subunit Epithelial Sodium Channel, delta Subunit Epithelial Sodium Channel, delta Subunit ENaC delta Sodium Channel, Nonvoltage-gated 1 Protein, delta Subunit SCNN1 delta Subunit Epithelial Sodium Channel, alpha Subunit Epithelial Sodium Channel, alpha Subunit Sodium Channel, Nonvoltage-gated 1 Protein, alpha Subunit ENaC alpha SCNN1 alpha Subunit alpha Subunit, SCNN1 Epithelial Sodium Channel, beta Subunit Epithelial Sodium Channel, beta Subunit Sodium Channel, Nonvoltage-gated 1 Protein, beta Subunit ENaC beta SCNN1 beta Subunit

Below are MeSH descriptors whose meaning is more general than "Epithelial Sodium Channels".

Chemicals and Drugs [D]
Amino Acids, Peptides, and Proteins [D12]
Proteins [D12.776]
Carrier Proteins [D12.776.157]
Membrane Transport Proteins [D12.776.157.530]
Ion Channels [D12.776.157.530.400]
Sodium Channels [D12.776.157.530.400.875]
Epithelial Sodium Channels [D12.776.157.530.400.875.200]
Membrane Proteins [D12.776.543]
Membrane Glycoproteins [D12.776.543.550]
Ion Channels [D12.776.543.550.450]
Sodium Channels [D12.776.543.550.450.875]
Epithelial Sodium Channels [D12.776.543.550.450.875.200]
Membrane Transport Proteins [D12.776.543.585]
Ion Channels [D12.776.543.585.400]
Sodium Channels [D12.776.543.585.400.875]
Epithelial Sodium Channels [D12.776.543.585.400.875.200]

Below are MeSH descriptors whose meaning is related to "Epithelial Sodium Channels".

Below are MeSH descriptors whose meaning is more specific than "Epithelial Sodium Channels".

publications

Timeline | Most Recent

This graph shows the total number of publications written about "Epithelial Sodium Channels" by people in this website by year, and whether "Epithelial Sodium Channels" was a major or minor topic of these publications.

Bar chart showing 10 publications over 8 distinct years, with a maximum of 2 publications in 2006 and 2016

To see the data from this visualization as text, click here.

Below are the most recent publications written about "Epithelial Sodium Channels" by people in Profiles.

Yadav S, Shaughnessy CA, Zeitlin PL, Bratcher PE. Downregulation of epithelial sodium channel (ENaC) activity in human airway epithelia after low temperature incubation. BMJ Open Respir Res. 2021 02; 8(1).

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Vandenbeuch A, Kinnamon SC. Is the Amiloride-Sensitive Na+ Channel in Taste Cells Really ENaC? Chem Senses. 2020 05 21; 45(4):233-234.

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Livraghi-Butrico A, Grubb BR, Wilkinson KJ, Volmer AS, Burns KA, Evans CM, O'Neal WK, Boucher RC. Contribution of mucus concentration and secreted mucins Muc5ac and Muc5b to the pathogenesis of muco-obstructive lung disease. Mucosal Immunol. 2017 03; 10(2):395-407.

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Li D, Zou L, Feng Y, Xu G, Gong Y, Zhao G, Ouyang W, Thurman JM, Chao W. Complement Factor B Production in Renal Tubular Cells and Its Role in Sodium Transporter Expression During Polymicrobial Sepsis. Crit Care Med. 2016 May; 44(5):e289-99.

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Gupta MD, Girish MP, Sikdar S, Ahuja R, Shah D, Kumar R, Rain M, Nejatizadeh A, Tyagi S, Pasha Q. ?-T594M epithelial sodium channel gene polymorphism and essential hypertension in individuals of Indo-Aryan ancestry in Northern India. Indian Heart J. 2014 Jul-Aug; 66(4):397-400.

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Peters DM, Vad?sz I, Wujak L, Wygrecka M, Olschewski A, Becker C, Herold S, Papp R, Mayer K, Rummel S, Brandes RP, G?nther A, Waldegger S, Eickelberg O, Seeger W, Morty RE. TGF-? directs trafficking of the epithelial sodium channel ENaC which has implications for ion and fluid transport in acute lung injury. Proc Natl Acad Sci U S A. 2014 Jan 21; 111(3):E374-83.

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Furgeson SB, Linas S. Mechanisms of type I and type II pseudohypoaldosteronism. J Am Soc Nephrol. 2010 Nov; 21(11):1842-5.

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Schweiger B, Moriarty MW, Cadnapaphornchai MA. Case report: severe neonatal hyperkalemia due to pseudohypoaldosteronism type 1. Curr Opin Pediatr. 2009 Apr; 21(2):269-71.

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Poschet JF, Timmins GS, Taylor-Cousar JL, Ornatowski W, Fazio J, Perkett E, Wilson KR, Yu HD, de Jonge HR, Deretic V. Pharmacological modulation of cGMP levels by phosphodiesterase 5 inhibitors as a therapeutic strategy for treatment of respiratory pathology in cystic fibrosis. Am J Physiol Lung Cell Mol Physiol. 2007 Sep; 293(3):L712-9.

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Doctor RB, Johnson S, Brodsky KS, Amura CR, Gattone V, Fitz JG. Regulated ion transport in mouse liver cyst epithelial cells. Biochim Biophys Acta. 2007 Mar; 1772(3):345-54.

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