Angiotensin II increases activity of the ClC-K2 Cl− channel in collecting duct intercalated cells by stimulating production of reactive oxygen species

Khayyat, Naghmeh Hassanzadeh; Zaika, Oleg; Tomilin, Viktor; Pyrshev, Kyrylo; Pochynyuk, Oleh

doi:10.1016/j.jbc.2021.100347

Cited by 9 publications

(2 citation statements)

References 68 publications

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“…27,28 We and others have shown that ClC-K2 is the dominant Cl − channel on the basolateral membrane of intercalated but not principal cells of the collecting duct. [29][30][31][32] However, little is known about the physiological roles of ClC-K2 in this segment.…”

Section: Introductionmentioning

confidence: 99%

ClC‐K2 Cl ⁻ channel allows identification of A‐ and B‐type of intercalated cells in split‐opened collecting ducts

et al. 2022

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The collecting duct is a highly adaptive terminal part of the nephron, which is essential for maintaining systemic homeostasis. Principal and intercalated cells perform different physiological tasks and exhibit distinctive morphology. However, acid‐secreting A‐ and base secreting B‐type of intercalated cells cannot be easily separated in functional studies. We used BCECF‐sensitive intracellular pH (pHi) measurements in split‐opened collecting ducts followed by immunofluorescent microscopy in WT and intercalated cell‐specific ClC‐K2−/− mice to demonstrate that ClC‐K2 inhibition enables to distinguish signals from A‐ and B‐intercalated cells. We show that ClC‐K2 Cl− channel is expressed on the basolateral side of intercalated cells, where it governs Cl−‐dependent H+/HCO3− transport. ClC‐K2 blocker, NPPB, caused acidification or alkalization in different subpopulations of intercalated cells in WT but not ClC‐K2−/− mice. Immunofluorescent assessment of the same collecting ducts revealed that NPPB increased pHi in AE1‐positive A‐type and decreased pHi in pendrin‐positive B‐type of intercalated cells. Induction of metabolic acidosis led to a significantly augmented abundance and H+ secretion in A‐type and decreased proton transport in B‐type of intercalated cells, whereas metabolic alkalosis caused the opposite changes in intercalated cell function, but did not substantially change their relative abundance. Overall, we show that inhibition of ClC‐K2 can be employed to discriminate between A‐ and B‐type of intercalated cells in split‐opened collecting duct preparations. We further demonstrate that this method can be used to independently monitor changes in the functional status and abundance of A‐ and B‐type in response to systemic acid/base stimuli.

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Section: Introductionmentioning

confidence: 99%

ClC‐K2 Cl ⁻ channel allows identification of A‐ and B‐type of intercalated cells in split‐opened collecting ducts

et al. 2022

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“…Unlike other epithelial tissues (such as the lung (4, 5) and intestine (6, 7)) there are limited in vitro systems that recapitulate the physiological function of the nephron, let alone the patterned collecting ducts (though a recent report demonstrated directed differentiation of human pluripotent stem cells into collecting duct epithelial cells (8)). To date, significant advances in our understanding of transport phenomena in the collecting ducts has relied on low-throughput methods such as perfused (9, 10) or split-open single tubules (11, 12), as well as transgenic animal models. Immortalized cell lines, such as mpkCCD cells, have been effective tools in understanding AQP2 regulation in PCs (13, 14), as well as amiloride-sensitive ENaC current (15, 16).…”

Section: Introductionmentioning

confidence: 99%

The Transcription Factor Foxi1 Promotes Expression of V-ATPase and Gpr116 in M-1 cells

Kui

Pluznick

Zaidman

2022

Preprint

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The diverse functions of each nephron segment rely on the coordinated action of specialized cell populations that are uniquely defined by their transcriptional profile. In the collecting duct, there are two critical and distinct cell populations: principal cells and intercalated cells. Principal cells play key roles in the regulation of water, Na+, and K+, while intercalated cells are best known for their role in acid-base homeostasis. Currently, there are no in vitro systems that recapitulate the heterogeneity of the collecting ducts, which limits high-throughput and replicate investigations of genetic and physiological phenomena. Here, we have demonstrated that the transcription factor Foxi1 is sufficient to alter the transcriptional identity of M-1 cells, a murine cortical collecting duct cell line. Specifically, overexpression of Foxi1 induces the expression of intercalated cell transcripts including Gpr116, Atp6v1b1, Atp6v1g3, Atp6v0d2, Slc4a9, and Slc26a4. These data indicate that overexpression of Foxi1 differentiates M-1 cells towards a B-type intercalated cell phenotype and may provide a novel in vitro tool to study transcriptional regulation and physiological function of the renal collecting duct.

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Clues and new evidences in arterial hypertension: unmasking the role of the chloride anion

Kouyoumdzian

Kim

Rudi

et al. 2021

Pflugers Arch - Eur J Physiol

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Angiotensin II increases activity of the ClC-K2 Cl− channel in collecting duct intercalated cells by stimulating production of reactive oxygen species

Cited by 9 publications

References 68 publications

ClC‐K2 Cl ⁻ channel allows identification of A‐ and B‐type of intercalated cells in split‐opened collecting ducts

ClC‐K2 Cl ⁻ channel allows identification of A‐ and B‐type of intercalated cells in split‐opened collecting ducts

The Transcription Factor Foxi1 Promotes Expression of V-ATPase and Gpr116 in M-1 cells

Clues and new evidences in arterial hypertension: unmasking the role of the chloride anion

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Angiotensin II increases activity of the ClC-K2 Cl− channel in collecting duct intercalated cells by stimulating production of reactive oxygen species

Cited by 9 publications

References 68 publications

ClC‐K2 Cl − channel allows identification of A‐ and B‐type of intercalated cells in split‐opened collecting ducts

ClC‐K2 Cl − channel allows identification of A‐ and B‐type of intercalated cells in split‐opened collecting ducts

The Transcription Factor Foxi1 Promotes Expression of V-ATPase and Gpr116 in M-1 cells

Clues and new evidences in arterial hypertension: unmasking the role of the chloride anion

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ClC‐K2 Cl ⁻ channel allows identification of A‐ and B‐type of intercalated cells in split‐opened collecting ducts

ClC‐K2 Cl ⁻ channel allows identification of A‐ and B‐type of intercalated cells in split‐opened collecting ducts