Benzamil-mediated urine alkalization is caused by the inhibition of H+, K+ ATPases

Niklas Ayasse; Peder Berg; Jesper Frank Andersen; Samuel Levi Svinth C Svendsen; Mads Vaarby Sørensen; Natalya Fedosova; Charles Wingo; I. Jeanette Lynch; Jens Georg Leipziger

doi:10.1152/ajprenal.00444.2020

Benzamil-mediated urine alkalization is caused by the inhibition of H⁺, K⁺ ATPases

Niklas Ayasse, Peder Berg, Jesper Frank Andersen, Samuel Levi Svinth C Svendsen, Mads Vaarby Sørensen, Natalya Fedosova, Charles Wingo, I. Jeanette Lynch, Jens Georg Leipziger

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Abstract

Epithelial Na channel (ENaC) blockers elicit acute and substantial increases of urinary pH. The underlying mechanism remains to be understood. Here, we evaluated if benzamil-induced urine alkalization is mediated by an acute reduction in H secretion via renal H-K-ATPases (HKAs). Experiments were performed in vivo on HKA double-knockout and wild-Type mice. Alterations in dietary K intake were used to change renal HKA and ENaC activity. The acute effects of benzamil (0.2 mg/g body wt, sufficient to block ENaC) on urine flow rate and urinary electrolyte and acid excretion were monitored in anesthetized, bladder-catheterized animals. We observed that benzamil acutely increased urinary pH (DpH: 0.33 ± 0.07) and reduced NH4 and titratable acid excretion and that these effects were distinctly enhanced in animals fed a low-K diet (DpH: 0.74 ± 0.12), a condition when ENaC activity is low. In contrast, benzamil did not affect urine acid excretion in animals kept on a high-K diet (i.e., during high ENaC activity). Thus, urine alkalization appeared completely uncoupled from ENaC function. The absence of benzamil-induced urinary alkalization in HKA double-knockout mice confirmed the direct involvement of these enzymes. The inhibitory effect of benzamil was also shown in vitro for the pig a1-isoform of HKA. These results suggest a revised explanation of the benzamil effect on renal acid-base excretion. Considering the conditions used here, we suggest that it is caused by a direct inhibition of HKAs in the collecting duct and not by inhibition of the ENaC function. NEW and NOTEWORTHY Bolus application of epithelial Na channel (EnaC) blockers causes marked and acute increases of urine pH. Here, we provide evidence that the underlying mechanism involves direct inhibition of the H-K pump in the collecting duct. This could provide a fundamental revision of the previously assumed mechanism that suggested a key role of ENaC inhibition in this response.

Original language	English
Journal	American Journal of Physiology: Renal Physiology
Volume	320
Issue	4
Pages (from-to)	F596-F607
Number of pages	12
ISSN	1931-857X
DOIs	https://doi.org/10.1152/ajprenal.00444.2020
Publication status	Published - Apr 2021

Keywords

acid excretion
acid secretion
aldosterone-sensitive distal nephron
benzamil
epithelial Na+ channel

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@article{ab0e60e8b95e47b49ade9b0976a87e95,

title = "Benzamil-mediated urine alkalization is caused by the inhibition of H+, K+ ATPases",

abstract = "Epithelial Na channel (ENaC) blockers elicit acute and substantial increases of urinary pH. The underlying mechanism remains to be understood. Here, we evaluated if benzamil-induced urine alkalization is mediated by an acute reduction in H secretion via renal H-K-ATPases (HKAs). Experiments were performed in vivo on HKA double-knockout and wild-Type mice. Alterations in dietary K intake were used to change renal HKA and ENaC activity. The acute effects of benzamil (0.2 mg/g body wt, sufficient to block ENaC) on urine flow rate and urinary electrolyte and acid excretion were monitored in anesthetized, bladder-catheterized animals. We observed that benzamil acutely increased urinary pH (DpH: 0.33 ± 0.07) and reduced NH4 and titratable acid excretion and that these effects were distinctly enhanced in animals fed a low-K diet (DpH: 0.74 ± 0.12), a condition when ENaC activity is low. In contrast, benzamil did not affect urine acid excretion in animals kept on a high-K diet (i.e., during high ENaC activity). Thus, urine alkalization appeared completely uncoupled from ENaC function. The absence of benzamil-induced urinary alkalization in HKA double-knockout mice confirmed the direct involvement of these enzymes. The inhibitory effect of benzamil was also shown in vitro for the pig a1-isoform of HKA. These results suggest a revised explanation of the benzamil effect on renal acid-base excretion. Considering the conditions used here, we suggest that it is caused by a direct inhibition of HKAs in the collecting duct and not by inhibition of the ENaC function. NEW and NOTEWORTHY Bolus application of epithelial Na channel (EnaC) blockers causes marked and acute increases of urine pH. Here, we provide evidence that the underlying mechanism involves direct inhibition of the H-K pump in the collecting duct. This could provide a fundamental revision of the previously assumed mechanism that suggested a key role of ENaC inhibition in this response.",

keywords = "acid excretion, acid secretion, aldosterone-sensitive distal nephron, benzamil, epithelial Na+ channel",

author = "Niklas Ayasse and Peder Berg and Andersen, {Jesper Frank} and Svendsen, {Samuel Levi Svinth C} and S{\o}rensen, {Mads Vaarby} and Natalya Fedosova and Charles Wingo and Lynch, {I. Jeanette} and Leipziger, {Jens Georg}",

year = "2021",

month = apr,

doi = "10.1152/ajprenal.00444.2020",

language = "English",

volume = "320",

pages = "F596--F607",

journal = "American Journal of Physiology: Renal Physiology",

issn = "1931-857X",

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Benzamil-mediated urine alkalization is caused by the inhibition of H⁺, K⁺ ATPases. / Ayasse, Niklas; Berg, Peder ; Andersen, Jesper Frank et al.
In: American Journal of Physiology: Renal Physiology, Vol. 320, No. 4, 04.2021, p. F596-F607.

Research output: Contribution to journal/Conference contribution in journal/Contribution to newspaper › Journal article › Research › peer-review

TY - JOUR

T1 - Benzamil-mediated urine alkalization is caused by the inhibition of H+, K+ ATPases

AU - Ayasse, Niklas

AU - Berg, Peder

AU - Andersen, Jesper Frank

AU - Svendsen, Samuel Levi Svinth C

AU - Sørensen, Mads Vaarby

AU - Fedosova, Natalya

AU - Wingo, Charles

AU - Lynch, I. Jeanette

AU - Leipziger, Jens Georg

PY - 2021/4

Y1 - 2021/4

N2 - Epithelial Na channel (ENaC) blockers elicit acute and substantial increases of urinary pH. The underlying mechanism remains to be understood. Here, we evaluated if benzamil-induced urine alkalization is mediated by an acute reduction in H secretion via renal H-K-ATPases (HKAs). Experiments were performed in vivo on HKA double-knockout and wild-Type mice. Alterations in dietary K intake were used to change renal HKA and ENaC activity. The acute effects of benzamil (0.2 mg/g body wt, sufficient to block ENaC) on urine flow rate and urinary electrolyte and acid excretion were monitored in anesthetized, bladder-catheterized animals. We observed that benzamil acutely increased urinary pH (DpH: 0.33 ± 0.07) and reduced NH4 and titratable acid excretion and that these effects were distinctly enhanced in animals fed a low-K diet (DpH: 0.74 ± 0.12), a condition when ENaC activity is low. In contrast, benzamil did not affect urine acid excretion in animals kept on a high-K diet (i.e., during high ENaC activity). Thus, urine alkalization appeared completely uncoupled from ENaC function. The absence of benzamil-induced urinary alkalization in HKA double-knockout mice confirmed the direct involvement of these enzymes. The inhibitory effect of benzamil was also shown in vitro for the pig a1-isoform of HKA. These results suggest a revised explanation of the benzamil effect on renal acid-base excretion. Considering the conditions used here, we suggest that it is caused by a direct inhibition of HKAs in the collecting duct and not by inhibition of the ENaC function. NEW and NOTEWORTHY Bolus application of epithelial Na channel (EnaC) blockers causes marked and acute increases of urine pH. Here, we provide evidence that the underlying mechanism involves direct inhibition of the H-K pump in the collecting duct. This could provide a fundamental revision of the previously assumed mechanism that suggested a key role of ENaC inhibition in this response.

AB - Epithelial Na channel (ENaC) blockers elicit acute and substantial increases of urinary pH. The underlying mechanism remains to be understood. Here, we evaluated if benzamil-induced urine alkalization is mediated by an acute reduction in H secretion via renal H-K-ATPases (HKAs). Experiments were performed in vivo on HKA double-knockout and wild-Type mice. Alterations in dietary K intake were used to change renal HKA and ENaC activity. The acute effects of benzamil (0.2 mg/g body wt, sufficient to block ENaC) on urine flow rate and urinary electrolyte and acid excretion were monitored in anesthetized, bladder-catheterized animals. We observed that benzamil acutely increased urinary pH (DpH: 0.33 ± 0.07) and reduced NH4 and titratable acid excretion and that these effects were distinctly enhanced in animals fed a low-K diet (DpH: 0.74 ± 0.12), a condition when ENaC activity is low. In contrast, benzamil did not affect urine acid excretion in animals kept on a high-K diet (i.e., during high ENaC activity). Thus, urine alkalization appeared completely uncoupled from ENaC function. The absence of benzamil-induced urinary alkalization in HKA double-knockout mice confirmed the direct involvement of these enzymes. The inhibitory effect of benzamil was also shown in vitro for the pig a1-isoform of HKA. These results suggest a revised explanation of the benzamil effect on renal acid-base excretion. Considering the conditions used here, we suggest that it is caused by a direct inhibition of HKAs in the collecting duct and not by inhibition of the ENaC function. NEW and NOTEWORTHY Bolus application of epithelial Na channel (EnaC) blockers causes marked and acute increases of urine pH. Here, we provide evidence that the underlying mechanism involves direct inhibition of the H-K pump in the collecting duct. This could provide a fundamental revision of the previously assumed mechanism that suggested a key role of ENaC inhibition in this response.

KW - acid excretion

KW - acid secretion

KW - aldosterone-sensitive distal nephron

KW - benzamil

KW - epithelial Na+ channel

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U2 - 10.1152/ajprenal.00444.2020

DO - 10.1152/ajprenal.00444.2020

M3 - Journal article

C2 - 33554781

SN - 1931-857X

VL - 320

SP - F596-F607

JO - American Journal of Physiology: Renal Physiology

JF - American Journal of Physiology: Renal Physiology

IS - 4

ER -

Benzamil-mediated urine alkalization is caused by the inhibition of H⁺, K⁺ ATPases

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