Intercalated cell BKα subunit is required for flow-induced K+ secretion
Rolando Carrisoza-Gaytan, Evan C. Ray, Daniel Flores, Allison L. Marciszyn, Peng Wu, Leah Liu, Arohan R. Subramanya, WenHui Wang, Shaohu Sheng, Lubika J. Nkashama, Jingxin Chen, Edwin K. Jackson, Stephanie M. Mutchler, Szilvia Heja, Donald E. Kohan, Lisa M. Satlin, Thomas R. Kleyman
Rolando Carrisoza-Gaytan, Evan C. Ray, Daniel Flores, Allison L. Marciszyn, Peng Wu, Leah Liu, Arohan R. Subramanya, WenHui Wang, Shaohu Sheng, Lubika J. Nkashama, Jingxin Chen, Edwin K. Jackson, Stephanie M. Mutchler, Szilvia Heja, Donald E. Kohan, Lisa M. Satlin, Thomas R. Kleyman
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Research Article Cell biology Nephrology

Intercalated cell BKα subunit is required for flow-induced K+ secretion

Abstract

BK channels are expressed in intercalated cells (ICs) and principal cells (PCs) in the cortical collecting duct (CCD) of the mammalian kidney and have been proposed to be responsible for flow-induced K+ secretion (FIKS) and K+ adaptation. To examine the IC-specific role of BK channels, we generated a mouse with targeted disruption of the pore-forming BK α subunit (BKα) in ICs (IC-BKα–KO). Whole cell charybdotoxin–sensitive (ChTX-sensitive) K+ currents were readily detected in control ICs but largely absent in ICs of IC-BKα–KO mice. When placed on a high K+ (HK) diet for 13 days, blood [K+] was significantly greater in IC-BKα–KO mice versus controls in males only, although urinary K+ excretion rates following isotonic volume expansion were similar in males and females. FIKS was present in microperfused CCDs isolated from controls but was absent in IC-BKα–KO CCDs of both sexes. Also, flow-stimulated epithelial Na+ channel–mediated (ENaC–mediated) Na+ absorption was greater in CCDs from female IC-BKα–KO mice than in CCDs from males. Our results confirm a critical role of IC BK channels in FIKS. Sex contributes to the capacity for adaptation to a HK diet in IC-BKα–KO mice.

Authors

Rolando Carrisoza-Gaytan, Evan C. Ray, Daniel Flores, Allison L. Marciszyn, Peng Wu, Leah Liu, Arohan R. Subramanya, WenHui Wang, Shaohu Sheng, Lubika J. Nkashama, Jingxin Chen, Edwin K. Jackson, Stephanie M. Mutchler, Szilvia Heja, Donald E. Kohan, Lisa M. Satlin, Thomas R. Kleyman

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Figure 9

Immunodetectable apical BKα is more abundant in the DCT of IC-BKα–KO versus floxed control mice fed a HK diet for 10 days.

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Immunodetectable apical BKα is more abundant in the DCT of IC-BKα–KO ver...
Colabeling for BKα (A and D) and NCC (B and E) was performed in fixed kidney slices from HK-fed floxed control (A–C) and IC-BKα–KO (D–F) mice using antibodies directed against BKα (green; A and D) and NCC (red; B and E) to identify the DCT. The merged images (C and F) reveal BKα colocalization with NCC in the apical and subapical domains of DCT cells in control (C) and IC-BKα–KO (F) mice. Scale bars: 40 μm. (G) The mean fluorescence intensity (MFI) of BKα was measured in the apical + subapical region (defined by NCC labeling) of individually identified cells, captured in profile, in sections from 3 mice of each genotype. MFIs in the IC-BKα–KO (41 cells in 9 tubules) were normalized to the average of that measured in the floxed control (43 cells in 11 tubules). Analysis revealed that apical + subapical BKα abundance was 57% greater in IC-BKα–KO than control DCT. Individual data points, as well as median ± quartiles, are shown. *P < 0.001, by Mann-Whitney U test.