Warning: Undefined array key "mm" in /www/wwwroot/www.ai-bt.com/si.php on line 10 Deprecated: trim(): Passing null to parameter #1 ($string) of type string is deprecated in /www/wwwroot/www.ai-bt.com/si.php on line 10 Lecture: New light on the role of claudins in the kidney.

Literature DB >> 22504740

Lecture: New light on the role of claudins in the kidney.

Abstract

The physiology of paracellular permeation of ions and solutes in the kidney is pivotally important but poorly understood. Claudins are the key components of the paracellular pathway. Defects in claudin function result in a broad range of renal diseases, including hypomagnesemia, hypercalciuria and nephrolithiasis. This review describes recent findings on the physiological function of claudins underlying paracellular transport mechanisms with a focus on renal Ca(2+) handling. We have uncovered a molecular mechanism underlying paracellular Ca(2+) transport in the thick ascending limb of Henle (TAL) that involves the functional interplay of three important claudin genes: claudin-14, -16 and -19, all of which are associated with human kidney diseases with hypercalciuria, nephrolithiasis and bone mineral loss. The Ca(2+) sensing receptor (CaSR) signaling in the kidney has long been a mystery. By analyzing small non-coding RNA molecules in the kidney, we have uncovered a novel microRNA based signaling pathway downstream of CaSR that directly regulates claudin-14 gene expression and establishes the claudin-14 molecule as a key regulator for renal Ca(2+) homeostasis. The molecular cascade of CaSR-microRNAs-claudins forms a regulatory loop to maintain proper Ca(2+) homeostasis in the kidney.

Entities: Chemical Disease Gene Species

Mesh：

Substances：
Claudins
Calcium

Year: 2012 PMID： 22504740 PMCID： PMC3399704 DOI： 10.4161/org.19808

Source DB: PubMed Journal: Organogenesis ISSN： 1547-6278 Impact factor: 2.500

69 in total

1. Restricted localization of claudin-16 at the tight junction in the thick ascending limb of Henle's loop together with claudins 3, 4, and 10 in bovine nephrons.

Authors: Hiroshi Ohta; Hirokazu Adachi; Mitsuyoshi Takiguchi; Mutsumi Inaba
Journal: J Vet Med Sci Date: 2006-05 Impact factor: 1.267

2. Aldosterone and tight junctions: modulation of claudin-4 phosphorylation in renal collecting duct cells.

Authors: Cathy Le Moellic; Sheerazed Boulkroun; Daniel González-Nunez; Isabelle Dublineau; Francoise Cluzeaud; Michel Fay; Marcel Blot-Chabaud; Nicolette Farman
Journal: Am J Physiol Cell Physiol Date: 2005-08-17 Impact factor: 4.249

3. The first extracellular domain of claudin-7 affects paracellular Cl- permeability.

Authors: Michele D Alexandre; Beverly G Jeansonne; Randall H Renegar; Rodney Tatum; Yan-Hua Chen
Journal: Biochem Biophys Res Commun Date: 2007-03-22 Impact factor: 3.575

Review 4. Claudins and epithelial paracellular transport.

Authors: Christina M Van Itallie; James M Anderson
Journal: Annu Rev Physiol Date: 2006 Impact factor: 19.318

5. Mutations in the tight-junction gene claudin 19 (CLDN19) are associated with renal magnesium wasting, renal failure, and severe ocular involvement.

Authors: Martin Konrad; Andre Schaller; Dominik Seelow; Amit V Pandey; Siegfried Waldegger; Annegret Lesslauer; Helga Vitzthum; Yoshiro Suzuki; John M Luk; Christian Becker; Karl P Schlingmann; Marcel Schmid; Juan Rodriguez-Soriano; Gema Ariceta; Francisco Cano; Ricardo Enriquez; Harald Juppner; Sevcan A Bakkaloglu; Matthias A Hediger; Sabina Gallati; Stephan C F Neuhauss; Peter Nurnberg; Stefanie Weber
Journal: Am J Hum Genet Date: 2006-09-19 Impact factor: 11.025

6. Renal localization and function of the tight junction protein, claudin-19.

Authors: Susanne Angelow; Randa El-Husseini; Sanae A Kanzawa; Alan S L Yu
Journal: Am J Physiol Renal Physiol Date: 2007-03-27

7. Paracellin-1 and the modulation of ion selectivity of tight junctions.

Authors: Jianghui Hou; David L Paul; Daniel A Goodenough
Journal: J Cell Sci Date: 2005-10-18 Impact factor: 5.285

8. CLDN16 genotype predicts renal decline in familial hypomagnesemia with hypercalciuria and nephrocalcinosis.

Authors: Martin Konrad; Jianghui Hou; Stefanie Weber; Jörg Dötsch; Jameela A Kari; Tomas Seeman; Eberhard Kuwertz-Bröking; Amira Peco-Antic; Velibor Tasic; Katalin Dittrich; Hammad O Alshaya; Rodo O von Vigier; Sabina Gallati; Daniel A Goodenough; André Schaller
Journal: J Am Soc Nephrol Date: 2007-11-14 Impact factor: 10.121

9. Transgenic RNAi depletion of claudin-16 and the renal handling of magnesium.

Authors: Jianghui Hou; Qixian Shan; Tong Wang; Antonio S Gomes; QingShang Yan; David L Paul; Markus Bleich; Daniel A Goodenough
Journal: J Biol Chem Date: 2007-04-18 Impact factor: 5.157

10. Regulation of heterotypic claudin compatibility.

Authors: Brandy L Daugherty; Christina Ward; Tekla Smith; Jeffrey D Ritzenthaler; Michael Koval
Journal: J Biol Chem Date: 2007-08-14 Impact factor: 5.157

11 in total

Review 1. Role of renal transporters and novel regulatory interactions in the TAL that control blood pressure.

Authors: Lesley A Graham; Anna F Dominiczak; Nicholas R Ferreri
Journal: Physiol Genomics Date: 2017-04-07 Impact factor: 3.107

Review 2. Claudins and the kidney.

Authors: Jianghui Hou; Madhumitha Rajagopal; Alan S L Yu
Journal: Annu Rev Physiol Date: 2012-11-05 Impact factor: 19.318

3. Claudin-14 underlies Ca⁺⁺-sensing receptor-mediated Ca⁺⁺ metabolism via NFAT-microRNA-based mechanisms.

Authors: Yongfeng Gong; Jianghui Hou
Journal: J Am Soc Nephrol Date: 2013-12-12 Impact factor: 10.121

Review 4. The genetics of kidney stone disease and nephrocalcinosis.

Authors: Prince Singh; Peter C Harris; David J Sas; John C Lieske
Journal: Nat Rev Nephrol Date: 2021-12-14 Impact factor: 28.314

5. Expression of claudin-5, claudin-7 and occludin in oral squamous cell carcinoma and their clinico-pathological significance.

Authors: Ekarat Phattarataratip; Kraisorn Sappayatosok
Journal: J Clin Exp Dent Date: 2016-07-01

Review 10. Renal Ca²⁺ and Water Handling in Response to Calcium Sensing Receptor Signaling: Physiopathological Aspects and Role of CaSR-Regulated microRNAs.

Authors: Marianna Ranieri
Journal: Int J Mol Sci Date: 2019-10-27 Impact factor: 5.923

Lecture: New light on the role of claudins in the kidney.

1. Restricted localization of claudin-16 at the tight junction in the thick ascending limb of Henle's loop together with claudins 3, 4, and 10 in bovine nephrons.

2. Aldosterone and tight junctions: modulation of claudin-4 phosphorylation in renal collecting duct cells.

3. The first extracellular domain of claudin-7 affects paracellular Cl- permeability.

Review 4. Claudins and epithelial paracellular transport.

5. Mutations in the tight-junction gene claudin 19 (CLDN19) are associated with renal magnesium wasting, renal failure, and severe ocular involvement.

6. Renal localization and function of the tight junction protein, claudin-19.

7. Paracellin-1 and the modulation of ion selectivity of tight junctions.

8. CLDN16 genotype predicts renal decline in familial hypomagnesemia with hypercalciuria and nephrocalcinosis.

9. Transgenic RNAi depletion of claudin-16 and the renal handling of magnesium.

10. Regulation of heterotypic claudin compatibility.

Review 1. Role of renal transporters and novel regulatory interactions in the TAL that control blood pressure.

Review 2. Claudins and the kidney.

3. Claudin-14 underlies Ca⁺⁺-sensing receptor-mediated Ca⁺⁺ metabolism via NFAT-microRNA-based mechanisms.

Review 4. The genetics of kidney stone disease and nephrocalcinosis.

5. Expression of claudin-5, claudin-7 and occludin in oral squamous cell carcinoma and their clinico-pathological significance.

6. CLDN1 expression in cervical cancer cells is related to tumor invasion and metastasis.

Review 7. Tight junction proteins and oxidative stress in heavy metals-induced nephrotoxicity.

8. Changes of Tight Junction Protein Claudins in Small Intestine and Kidney Tissues of Mice Fed a DDC Diet.

9. Elevated levels of miR-155 in blood and urine from patients with nephrolithiasis.

Review 10. Renal Ca²⁺ and Water Handling in Response to Calcium Sensing Receptor Signaling: Physiopathological Aspects and Role of CaSR-Regulated microRNAs.

Review 4. Claudins and epithelial paracellular transport.

Review 1. Role of renal transporters and novel regulatory interactions in the TAL that control blood pressure.

Review 2. Claudins and the kidney.

Review 4. The genetics of kidney stone disease and nephrocalcinosis.

Review 7. Tight junction proteins and oxidative stress in heavy metals-induced nephrotoxicity.

Review 10. Renal Ca2+ and Water Handling in Response to Calcium Sensing Receptor Signaling: Physiopathological Aspects and Role of CaSR-Regulated microRNAs.

Review 10. Renal Ca²⁺ and Water Handling in Response to Calcium Sensing Receptor Signaling: Physiopathological Aspects and Role of CaSR-Regulated microRNAs.