Reorganization and Suppression of Store-Operated Calcium Entry in Podocytes of Type 2 Diabetic Rats

Type 2 diabetes mellitus (DM2) is a widespread metabolic disorder that results in podocyte damage and diabetic nephropathy. Previous studies demonstrated that TRPC6 channels play a pivotal role in podocyte function and their dysregulation is associated with development of different kidney diseases i...

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Autores principales: Gusev, Konstantin, Shalygin, Alexey, Kolesnikov, Dmitrii, Shuyskiy, Leonid, Makeenok, Sofia, Glushankova, Lyubov, Sivak, Konstantin, Yakovlev, Kirill, Orshanskaya, Yana, Wang, Guanghui, Bakhtyukov, Andrey, Derkach, Kira, Shpakov, Alexander, Kaznacheyeva, Elena
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10139047/
https://www.ncbi.nlm.nih.gov/pubmed/37108424
http://dx.doi.org/10.3390/ijms24087259
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author Gusev, Konstantin
Shalygin, Alexey
Kolesnikov, Dmitrii
Shuyskiy, Leonid
Makeenok, Sofia
Glushankova, Lyubov
Sivak, Konstantin
Yakovlev, Kirill
Orshanskaya, Yana
Wang, Guanghui
Bakhtyukov, Andrey
Derkach, Kira
Shpakov, Alexander
Kaznacheyeva, Elena
author_facet Gusev, Konstantin
Shalygin, Alexey
Kolesnikov, Dmitrii
Shuyskiy, Leonid
Makeenok, Sofia
Glushankova, Lyubov
Sivak, Konstantin
Yakovlev, Kirill
Orshanskaya, Yana
Wang, Guanghui
Bakhtyukov, Andrey
Derkach, Kira
Shpakov, Alexander
Kaznacheyeva, Elena
author_sort Gusev, Konstantin
collection PubMed
description Type 2 diabetes mellitus (DM2) is a widespread metabolic disorder that results in podocyte damage and diabetic nephropathy. Previous studies demonstrated that TRPC6 channels play a pivotal role in podocyte function and their dysregulation is associated with development of different kidney diseases including nephropathy. Here, using single channel patch clamp technique, we demonstrated that non-selective cationic TRPC6 channels are sensitive to the Ca(2+) store depletion in human podocyte cell line Ab8/13 and in freshly isolated rat glomerular podocytes. Ca(2+) imaging indicated the involvement of ORAI and sodium–calcium exchanger in Ca(2+) entry induced upon store depletion. In male rats fed a high-fat diet combined with a low-dose streptozotocin injection, which leads to DM2 development, we observed the reduction of a store-operated Ca(2+) entry (SOCE) in rat glomerular podocytes. This was accompanied by a reorganization of store-operated Ca(2+) influx such that TRPC6 channels lost their sensitivity to Ca(2+) store depletion and ORAI-mediated Ca(2+) entry was suppressed in TRPC6-independent manner. Altogether our data provide new insights into the mechanism of SOCE organization in podocytes in the norm and in pathology, which should be taken into account when developing pharmacological treatment of the early stages of diabetic nephropathy.
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spelling pubmed-101390472023-04-28 Reorganization and Suppression of Store-Operated Calcium Entry in Podocytes of Type 2 Diabetic Rats Gusev, Konstantin Shalygin, Alexey Kolesnikov, Dmitrii Shuyskiy, Leonid Makeenok, Sofia Glushankova, Lyubov Sivak, Konstantin Yakovlev, Kirill Orshanskaya, Yana Wang, Guanghui Bakhtyukov, Andrey Derkach, Kira Shpakov, Alexander Kaznacheyeva, Elena Int J Mol Sci Article Type 2 diabetes mellitus (DM2) is a widespread metabolic disorder that results in podocyte damage and diabetic nephropathy. Previous studies demonstrated that TRPC6 channels play a pivotal role in podocyte function and their dysregulation is associated with development of different kidney diseases including nephropathy. Here, using single channel patch clamp technique, we demonstrated that non-selective cationic TRPC6 channels are sensitive to the Ca(2+) store depletion in human podocyte cell line Ab8/13 and in freshly isolated rat glomerular podocytes. Ca(2+) imaging indicated the involvement of ORAI and sodium–calcium exchanger in Ca(2+) entry induced upon store depletion. In male rats fed a high-fat diet combined with a low-dose streptozotocin injection, which leads to DM2 development, we observed the reduction of a store-operated Ca(2+) entry (SOCE) in rat glomerular podocytes. This was accompanied by a reorganization of store-operated Ca(2+) influx such that TRPC6 channels lost their sensitivity to Ca(2+) store depletion and ORAI-mediated Ca(2+) entry was suppressed in TRPC6-independent manner. Altogether our data provide new insights into the mechanism of SOCE organization in podocytes in the norm and in pathology, which should be taken into account when developing pharmacological treatment of the early stages of diabetic nephropathy. MDPI 2023-04-14 /pmc/articles/PMC10139047/ /pubmed/37108424 http://dx.doi.org/10.3390/ijms24087259 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Gusev, Konstantin
Shalygin, Alexey
Kolesnikov, Dmitrii
Shuyskiy, Leonid
Makeenok, Sofia
Glushankova, Lyubov
Sivak, Konstantin
Yakovlev, Kirill
Orshanskaya, Yana
Wang, Guanghui
Bakhtyukov, Andrey
Derkach, Kira
Shpakov, Alexander
Kaznacheyeva, Elena
Reorganization and Suppression of Store-Operated Calcium Entry in Podocytes of Type 2 Diabetic Rats
title Reorganization and Suppression of Store-Operated Calcium Entry in Podocytes of Type 2 Diabetic Rats
title_full Reorganization and Suppression of Store-Operated Calcium Entry in Podocytes of Type 2 Diabetic Rats
title_fullStr Reorganization and Suppression of Store-Operated Calcium Entry in Podocytes of Type 2 Diabetic Rats
title_full_unstemmed Reorganization and Suppression of Store-Operated Calcium Entry in Podocytes of Type 2 Diabetic Rats
title_short Reorganization and Suppression of Store-Operated Calcium Entry in Podocytes of Type 2 Diabetic Rats
title_sort reorganization and suppression of store-operated calcium entry in podocytes of type 2 diabetic rats
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10139047/
https://www.ncbi.nlm.nih.gov/pubmed/37108424
http://dx.doi.org/10.3390/ijms24087259
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