Intracellular Sodium Regulates Proteolytic Activation of the Epithelial Sodium Channel*

Na+ transport across epithelia is mediated in part by the epithelial Na+ channel ENaC. Previous work indicates that Na+ is an important regulator of ENaC, providing a negative feedback mechanism to maintain Na+ homeostasis. ENaC is synthesized as an inactive precursor, which is activated by proteolytic cleavage of the extracellular domains of the α and γ subunits. Here we found that Na+ regulates ENaC in part by altering proteolytic activation of the channel. When the Na+ concentration was low, we found that the majority of ENaC at the cell surface was in the cleaved/active state. As Na+ increased, there was a dose-dependent decrease in ENaC cleavage and, hence, ENaC activity. This Na+ effect was dependent on Na+ permeation; cleavage was increased by the ENaC blocker amiloride and by a mutation that decreases ENaC activity (αH69A) and was reduced by a mutation that activates ENaC (βS520K). Moreover, the Na+ ionophore monensin reversed the effect of the inactivating mutation (αH69A) on ENaC cleavage, suggesting that intracellular Na+ regulates cleavage. Na+ did not alter activity of Nedd4-2, an E3 ubiquitin ligase that modulates ENaC cleavage, but Na+ reduced ENaC cleavage by exogenous trypsin. Our findings support a model in which intracellular Na+ regulates cleavage by altering accessibility of ENaC cleavage sites to proteases and provide a molecular explanation for the earlier observation that intracellular Na+ inhibits Na+ transport via ENaC (Na+ feedback inhibition).

• Publication year

  2008

• Venue

  Journal of Biological Chemistry

• Publication date

  2008-10-10

• Fields of study

  Biology, Medicine, Chemistry

• Identifiers
  DOI 10.1074/jbc.M804176200PMID 18662987PMCID PMC2562069
• External record

  Open on Semantic Scholar

• Source metadata

  Semantic Scholar, PubMed

• No claims are published for this paper.

• No concepts are published for this paper.

• Nedd4-2 Induces Endocytosis and Degradation of Proteolytically Cleaved Epithelial Na+ Channels*

  2008cited by this paper
• The A‐kinase anchoring protein 15 regulates feedback inhibition of the epithelial Na+ channel

  2007cited by this paper
• Epithelial Na+ Channels Are Fully Activated by Furin- and Prostasin-dependent Release of an Inhibitory Peptide from the γ-Subunit*

  2007cited by this paper
• Open probability of the epithelial sodium channel is regulated by intracellular sodium

  2006cited by this paper
• Furin cleavage activates the epithelial Na+ channel by relieving Na+ self-inhibition.

  2006cited by this paper
• Liddle's syndrome mutations increase Na+ transport through dual effects on epithelial Na+ channel surface expression and proteolytic cleavage.

  2006cited by this paper
• Minireview: regulation of epithelial Na+ channel trafficking.

  2005cited by this paper
• 17beta-estradiol enhances heparin-binding epidermal growth factor-like growth factor production in human keratinocytes.

  2005cited by this paper
• Neutrophil elastase activates near-silent epithelial Na+ channels and increases airway epithelial Na+ transport.

  2005cited by this paper
• The epithelial sodium channel: from molecule to disease.

  2004cited by this paper
• Extracellular Histidine Residues Crucial for Na+ Self-inhibition of Epithelial Na+ Channels*

  2004cited by this paper
• Epithelial Sodium Channels Are Activated by Furin-dependent Proteolysis*

  2004cited by this paper
• Molecular Dissection of Na+ Binding to Thrombin*

  2004cited by this paper
• Serine protease activation of near-silent epithelial Na+ channels.

  2004cited by this paper
• Distinct Pools of Epithelial Sodium Channels Are Expressed at the Plasma Membrane*

  2004cited by this paper
• Pasteurella multocida toxin as a tool for studying Gq signal transduction.

  2004cited by this paper
• Serum and Glucocorticoid-regulated Kinase Modulates Nedd4-2-mediated Inhibition of the Epithelial Na+Channel*

  2002cited by this paper
• Na Self Inhibition of Human Epithelial Na Channel

  2002cited by this paper
• Gating Induces a Conformational Change in the Outer Vestibule of Enac

  2000cited by this paper
• Feedback inhibition of rat amiloride‐sensitive epithelial sodium channels expressed in Xenopus laevis oocytes

  1999cited by this paper
• Regulation of the epithelial Na+ channel by intracellular Na.

  1999cited by this paper
• Identification of a highly conserved sequence at the N-terminus of the epithelial Na+ channel α subunit involved in gating

  1999cited by this paper
• Nedd4 mediates control of an epithelial Na+ channel in salivary duct cells by cytosolic Na+.

  1998cited by this paper
• Mutations causing Liddle syndrome reduce sodium-dependent downregulation of the epithelial sodium channel in the Xenopus oocyte expression system.

  1998cited by this paper
• An epithelial serine protease activates the amiloride-sensitive sodium channel

  1997cited by this paper
• Epithelial sodium channels: function, structure, and regulation.

  1997cited by this paper
• Cytosolic Na+ controls and epithelial Na+ channel via the Go guanine nucleotide-binding regulatory protein.

  1996cited by this paper
• Molecular Genetics of Human Blood Pressure Variation

  1996cited by this paper
• Cloning and expression of the beta- and gamma-subunits of the human epithelial sodium channel.

  1995cited by this paper
• Cloning, expression, and tissue distribution of a human amiloride-sensitive Na+ channel.

  1994cited by this paper
• Amiloride-sensitive epithelial Na+ channel is made of three homologous subunits

  1994cited by this paper
• Feedback regulation of Na channels in rat CCT. I. Effects of inhibition of Na pump.

  1993cited by this paper
• Epithelial sodium channel related to proteins involved in neurodegeneration

  1993cited by this paper
• Feedback regulation of Na channels in rat CCT. II. Effects of inhibition of Na entry.

  1993cited by this paper
• Intracellular pH controls cell membrane Na+ and K+ conductances and transport in frog skin epithelium

  1988cited by this paper
• Stimulation of apical Na permeability and basolateral Na pump of toad urinary bladder by aldosterone.

  1986cited by this paper
• Clinical Physiology of Acid—Base and Electrolyte Disorders.

  1978cited by this paper
• Osmotic behaviour of the epithelial cells of frog skin.

  1961cited by this paper

• Impact of aldosterone deficiency on the development of diuretic resistance in mice

  2025cites this paper
• Epithelial Na + Channels Function as Extracellular Sensors.

  2024cites this paper
• ENaC gene variants and their involvement in Covid‑19 severity

  2024cites this paper
• Detrimental or beneficial: Role of endothelial ENaC in vascular function

  2021cites this paper
• Cleavage state of γENaC in mouse and rat kidney.

  2021cites this paper
• ENaC in Salt-Sensitive Hypertension: Kidney and Beyond

  2020cites this paper
• The N terminus of α-ENaC mediates ENaC cleavage and activation by furin

  2018cites this paper
• Epithelial Na+ Channel Regulation by Extracellular and Intracellular Factors.

  2018cites this paper
• N-linked glycans are required on epithelial Na+ channel subunits for maturation and surface expression.

  2018cites this paper
• The Epithelial Sodium Channel and the Processes of Wound Healing

  2016cites this paper
• Proteolytic Regulation of Epithelial Sodium Channels by Urokinase Plasminogen Activator

  2015cites this paper
• Intracellular Na+ Regulates Epithelial Na+ Channel Maturation*

  2015cites this paper
• Molecular genetics of Liddle's syndrome.

  2014cites this paper
• The N-terminal Domain Allosterically Regulates Cleavage and Activation of the Epithelial Sodium Channel*

  2014cites this paper
• The role of ENaC in vascular endothelium

  2014cites this paper
• Epithelial Sodium Channel Regulates Cleavage and Activation of the The N-terminal Domain Allosterically Molecular Biophysics

  2014cites this paper
• Regulation of allosteric activation of ENaC

  2014cites this paper
• Blood pressure and amiloride-sensitive sodium channels in vascular and renal cells

  2014cites this paper
• Feedback inhibition of ENaC: Acute and chronic mechanisms

  2014cites this paper
• Effect of apical hyperosmotic sodium challenge and amiloride on sodium transport in human bronchial epithelial cells from cystic fibrosis donors.

  2013cites this paper
• Ubiquitin-specific Peptidase 8 (USP8) Regulates Endosomal Trafficking of the Epithelial Na+ Channel*

  2013cites this paper
• Electrochemical Biosensors Based on ZnO Nanostructures to Measure Intracellular Metal Ions and Glucose

  2013cites this paper
• Epithelial Na + Channels

  2013cites this paper
• Urinary prostasin in normotensive individuals: correlation with the aldosterone to renin ratio and urinary sodium

  2013cites this paper
• Epithelial Na(+) channel regulation by cytoplasmic and extracellular factors.

  2012cites this paper
• The Epithelial Sodium Channel (ENaC) Establishes a Trafficking Vesicle Pool Responsible for Its Regulation

  2012cites this paper
• Regulation and dysregulation of epithelial Na+ channels

  2012cites this paper
• Regulation of Epithelial Sodium Channel Trafficking by Proprotein Convertase Subtilisin/Kexin Type 9 (PCSK9)*

  2012cites this paper
• Cathepsin B Is Secreted Apically from Xenopus 2F3 Cells and Cleaves the Epithelial Sodium Channel (ENaC) to Increase Its Activity*

  2012cites this paper
• Regulation of epithelial sodium channel (enac) activity by extracellular stimuli

  2011cites this paper
• ENaC structure and function in the wake of a resolved structure of a family member.

  2011cites this paper
• [Amiloride sensitive sodium channels (ENaC) and their regulation by proteases].

  2011cites this paper
• Growth and Structure of ZnO Nanorods on a Sub-Micrometer Glass Pipette and Their Application as Intracellular Potentiometric Selective Ion Sensors

  2010cites this paper
• Regulation of sodium transport by ENaC in the kidney

  2010cites this paper
• Intracellular sodium sensing: SIK1 network, hormone action and high blood pressure.

  2010influential citation
• Acute regulation of the epithelial sodium channel in airway epithelia by proteases and trafficking.

  2010cites this paper
• Inhibition of Lung Fluid Clearance and Epithelial Na+ Channels by Chlorine, Hypochlorous Acid, and Chloramines*

  2010cites this paper
• The δ-Subunit of the Epithelial Sodium Channel (ENaC) Enhances Channel Activity and Alters Proteolytic ENaC Activation*

  2009cites this paper
• ENaC at the Cutting Edge: Regulation of Epithelial Sodium Channels by Proteases*

  2009cites this paper
• Extracellular Chloride Regulates the Epithelial Sodium Channel*

  2009cites this paper
• Sex-specific Regulation of ENaC and Androgen Receptor in Female Rat Kidney

  2009cites this paper
• SIK 1 / SOS 2 networks : decoding sodium signals via calcium-responsive protein kinase pathways

  2009cites this paper
• SIK1/SOS2 networks: decoding sodium signals via calcium-responsive protein kinase pathways

  2009cites this paper
• Proteolytic Regulation Of Epithelial Sodium Channels By Proteolytic Regulation Of Epithelial Sodium Channels By Urokinase Plasminogen Activator: Cutting Edge And Cleavage Urokinase Plasminogen Activator: Cutting Edge And Cleavage Sites Sites

  year unknowncites this paper