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Literature DB >> 16339961

Regulation of ROMK (Kir1.1) channels: new mechanisms and aspects.

Abstract

This brief review attempts to provide an overview regarding recent developments in the regulation of ROMK channels. Studies performed in ROMK null mice suggest that ROMK cannot only form hometetramers such as the small-conductance (30-pS) K channels but also construct heterotetramers such as the 70-pS K channel in the thick ascending limb (TAL). The expression of ROMK channels in the plasma membrane is regulated by protein tyrosine kinase (PTK), serum and glucorticoid-induced kinase (SGK), and with-no-lysine-kinase 4. PTK is involved in mediating the effect of low K intake on ROMK channel activity. Increases in superoxide anions induced by low dietary K intake are responsible for the stimulation of PTK expression and tyrosine phosphorylation of ROMK channels. Finally, a recent study indicated that ROMK channels can be monoubiquitinated and monoubiquitination regulates the surface expression of ROMK channels.

Entities: Chemical Gene Species

Mesh：

Substances：

Year: 2006 PMID： 16339961 PMCID： PMC2837595 DOI： 10.1152/ajprenal.00093.2005

Source DB: PubMed Journal: Am J Physiol Renal Physiol ISSN： 1522-1466

74 in total

1. WNK4 regulates the balance between renal NaCl reabsorption and K+ secretion.

Authors: Kristopher T Kahle; Frederick H Wilson; Qiang Leng; Maria D Lalioti; Anthony D O'Connell; Ke Dong; Alicia K Rapson; Gordon G MacGregor; Gerhard Giebisch; Steven C Hebert; Richard P Lifton
Journal: Nat Genet Date: 2003-11-09 Impact factor: 38.330

2. A potassium channel in the apical membrane of rabbit thick ascending limb of Henle's loop.

Authors: W H Wang; S White; J Geibel; G Giebisch
Journal: Am J Physiol Date: 1990-02

3. Protein tyrosine kinase is expressed and regulates ROMK1 location in the cortical collecting duct.

Authors: Dao-Hong Lin; Hyacinth Sterling; Baofeng Yang; Steven C Hebert; Gerhard Giebisch; Wen-Hui Wang
Journal: Am J Physiol Renal Physiol Date: 2004-05

4. Regulation of ubiquitin protein ligase activity in c-Cbl by phosphorylation-induced conformational change and constitutive activation by tyrosine to glutamate point mutations.

Authors: C Kenneth Kassenbrock; Steven M Anderson
Journal: J Biol Chem Date: 2004-04-26 Impact factor: 5.157

5. PKC expression is regulated by dietary K intake and mediates internalization of SK channels in the CCD.

Authors: Hyacinth Sterling; Dao-Hong Lin; Yu-Jung Chen; Yuan Wei; Zhi-Jian Wang; Jian Lai; Wen-Hui Wang
Journal: Am J Physiol Renal Physiol Date: 2004-06

6. Regulation of Kir channels by intracellular pH and extracellular K(+): mechanisms of coupling.

Authors: Anke Dahlmann; Min Li; ZhongHua Gao; Deirdre McGarrigle; Henry Sackin; Lawrence G Palmer
Journal: J Gen Physiol Date: 2004-04 Impact factor: 4.086

7. Assembly and trafficking of a multiprotein ROMK (Kir 1.1) channel complex by PDZ interactions.

Authors: Dana Yoo; Thomas P Flagg; Olav Olsen; Viswanathan Raghuram; J Kevin Foskett; Paul A Welling
Journal: J Biol Chem Date: 2003-11-05 Impact factor: 5.157

8. ROMK is required for expression of the 70-pS K channel in the thick ascending limb.

Authors: Ming Lu; Tong Wang; Qingshang Yan; Wenhui Wang; Gerhard Giebisch; Steven C Hebert
Journal: Am J Physiol Renal Physiol Date: 2003-11-04

9. Potassium-dependent slow inactivation of Kir1.1 (ROMK) channels.

Authors: H Sackin; L G Palmer; M Krambis
Journal: Biophys J Date: 2004-04 Impact factor: 4.033

10. Impaired regulation of renal K+ elimination in the sgk1-knockout mouse.

Authors: Dan Yang Huang; Peer Wulff; Harald Völkl; Johannes Loffing; Kerstin Richter; Dietmar Kuhl; Florian Lang; Volker Vallon
Journal: J Am Soc Nephrol Date: 2004-04 Impact factor: 10.121

31 in total

1. Mitochondria-derived superoxide and voltage-gated sodium channels in baroreceptor neurons from chronic heart-failure rats.

Authors: Huiyin Tu; Jinxu Liu; Zhen Zhu; Libin Zhang; Iraklis I Pipinos; Yu-Long Li
Journal: J Neurophysiol Date: 2011-11-09 Impact factor: 2.714

Review 2. Maintaining K⁺ balance on the low-Na⁺, high-K⁺ diet.

Authors: Ryan J Cornelius; Bangchen Wang; Jun Wang-France; Steven C Sansom
Journal: Am J Physiol Renal Physiol Date: 2016-01-06

Review 3. KATP Channels in the Cardiovascular System.

Authors: Monique N Foster; William A Coetzee
Journal: Physiol Rev Date: 2016-01 Impact factor: 37.312

4. Protein kinase C dependent inhibition of the heteromeric Kir4.1-Kir5.1 channel.

Authors: Asheebo Rojas; Ningren Cui; Junda Su; Liang Yang; Jean-Pierre Muhumuza; Chun Jiang
Journal: Biochim Biophys Acta Date: 2007-04-19

5. Pyk2 regulates H+-ATPase-mediated proton secretion in the outer medullary collecting duct via an ERK1/2 signaling pathway.

Authors: Kimberly D Fisher; Juan Codina; Snezana Petrovic; Thomas D DuBose
Journal: Am J Physiol Renal Physiol Date: 2012-07-18

Regulation of ROMK (Kir1.1) channels: new mechanisms and aspects.

1. WNK4 regulates the balance between renal NaCl reabsorption and K+ secretion.

2. A potassium channel in the apical membrane of rabbit thick ascending limb of Henle's loop.

3. Protein tyrosine kinase is expressed and regulates ROMK1 location in the cortical collecting duct.

4. Regulation of ubiquitin protein ligase activity in c-Cbl by phosphorylation-induced conformational change and constitutive activation by tyrosine to glutamate point mutations.

5. PKC expression is regulated by dietary K intake and mediates internalization of SK channels in the CCD.

6. Regulation of Kir channels by intracellular pH and extracellular K(+): mechanisms of coupling.

7. Assembly and trafficking of a multiprotein ROMK (Kir 1.1) channel complex by PDZ interactions.

8. ROMK is required for expression of the 70-pS K channel in the thick ascending limb.

9. Potassium-dependent slow inactivation of Kir1.1 (ROMK) channels.

10. Impaired regulation of renal K+ elimination in the sgk1-knockout mouse.

1. Mitochondria-derived superoxide and voltage-gated sodium channels in baroreceptor neurons from chronic heart-failure rats.

Review 2. Maintaining K⁺ balance on the low-Na⁺, high-K⁺ diet.

Review 3. KATP Channels in the Cardiovascular System.

4. Protein kinase C dependent inhibition of the heteromeric Kir4.1-Kir5.1 channel.

5. Pyk2 regulates H+-ATPase-mediated proton secretion in the outer medullary collecting duct via an ERK1/2 signaling pathway.

6. Inhibitors of the renal outer medullary potassium channel.

Review 7. Renal outer medullary potassium channel knockout models reveal thick ascending limb function and dysfunction.

8. CO2-dependent opening of an inwardly rectifying K+ channel.

Review 9. Thick Ascending Limb Sodium Transport in the Pathogenesis of Hypertension.

Review 10. Thick ascending limb: the Na(+):K (+):2Cl (-) co-transporter, NKCC2, and the calcium-sensing receptor, CaSR.

Review 2. Maintaining K+ balance on the low-Na+, high-K+ diet.

Review 3. KATP Channels in the Cardiovascular System.

Review 7. Renal outer medullary potassium channel knockout models reveal thick ascending limb function and dysfunction.

Review 9. Thick Ascending Limb Sodium Transport in the Pathogenesis of Hypertension.

Review 10. Thick ascending limb: the Na(+):K (+):2Cl (-) co-transporter, NKCC2, and the calcium-sensing receptor, CaSR.

Review 2. Maintaining K⁺ balance on the low-Na⁺, high-K⁺ diet.