PH Dependence of the Slc4a11-mediated H Conductance is Influenced by Intracellular Lysine Residues and Modified by Disease-linked Mutations

Overview

Journal Am J Physiol Cell Physiol

Publisher American Physiological Society

Specialties Cell Biology
Physiology

Date 2020 Jun 11

PMID 32520610

Citations 7

Authors

Bianca N Quade

Aniko Marshall

Mark D Parker

Affiliations

Soon will be listed here.

Abstract

SLC4A11 is the only member of the SLC4 family that transports protons rather than bicarbonate. SLC4A11 is expressed in corneal endothelial cells, and its mutation causes corneal endothelial dystrophy, although the mechanism of pathogenesis is unknown. We previously demonstrated that the magnitude of the H conductance () mediated by SLC4A11 is increased by rises in intracellular as well as extracellular pH (pH and pH). To better understand this feature and whether it is altered in disease, we studied the pH dependence of wild-type and mutant mouse Slc4a11 expressed in oocytes. Using voltage-clamp circuitry in conjunction with a H-selective microelectrode and a microinjector loaded with NaHCO, we caused incremental rises in oocyte pH and measured the effect on . We find that the rise of has a steeper pH dependence at pH =8.50 than at pH =7.50. Data gathered at pH =8.50 can be fit to the Hill equation enabling the calculation of a p value that reports pH dependence. We find that mutation of lysine residues that are close to the first transmembrane span (TM1) causes an alkaline shift in p. Furthermore, two corneal-dystrophy-causing mutations close to the extracellular end of TM1, E399K and T401K (E368K and T370K in mouse), cause an acidic shift in p, while a third mutation in the fourth intracellular loop, R804H (R774H in mouse), causes an alkaline shift in p. This is the first description of determinants of SLC4A11 pH dependence and the first indication that a shift in pH dependence could modify disease expressivity in some cases of corneal dystrophy.

Citing Articles

NH/NH allosterically activates SLC4A11 by causing an acidic shift in the intracellular pK that governs H(OH) conductance.

Pasternack R, Quade B, Marshall A, Parker M Front Physiol. 2024; 15:1440720.

PMID: 39206384 PMC: 11350239. DOI: 10.3389/fphys.2024.1440720.

Structural insights into the conformational changes of BTR1/SLC4A11 in complex with PIP.

Lu Y, Zuo P, Chen H, Shan H, Wang W, Dai Z Nat Commun. 2023; 14(1):6157.

PMID: 37788993 PMC: 10547724. DOI: 10.1038/s41467-023-41924-0.

Corneal dystrophy mutations R125H and R804H disable SLC4A11 by altering the extracellular pH dependence of the intracellular pK that governs H(OH) transport.

Quade B, Marshall A, Parker M Am J Physiol Cell Physiol. 2022; 323(4):C990-C1002.

PMID: 35993514 PMC: 9484998. DOI: 10.1152/ajpcell.00221.2022.

Revisiting the Role of Ser982 Phosphorylation in Stoichiometry Shift of the Electrogenic Na/HCO Cotransporter NBCe1.

Alsufayan T, Myers E, Quade B, Brady C, Marshall A, Haque N Int J Mol Sci. 2021; 22(23).

PMID: 34884619 PMC: 8657473. DOI: 10.3390/ijms222312817.

RNA sequencing uncovers alterations in corneal endothelial metabolism, pump and barrier functions of Slc4a11 KO mice.

Ogando D, Bonanno J Exp Eye Res. 2021; 214:108884.

PMID: 34871568 PMC: 8792362. DOI: 10.1016/j.exer.2021.108884.

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