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MEMBRANE TRANSPORTERS, ION CHANNELS, AND PUMPS

Regulation of the human NBC3 Na⁺/HCO₃^– cotransporter by carbonic anhydrase II and PKA

Canadian Institute of Health Research Membrane Protein Research Group, Department of Physiology and Department of Biochemistry, University of Alberta, Edmonton, Alberta, Canada T6G 2H7

Submitted 5 September 2003 ; accepted in final form 15 January 2004

Human NBC3 is an electroneutral Na⁺/HCO₃^– cotransporter expressed in heart, skeletal muscle, and kidney in which it plays an important role in HCO₃^– metabolism. Cytosolic enzyme carbonic anhydrase II (CAII) catalyzes the reaction CO₂ + H₂O HCO₃^– + H⁺ in many tissues. We investigated whether NBC3, like some Cl^–/HCO₃^– exchange proteins, could bind CAII and whether PKA could regulate NBC3 activity through modulation of CAII binding. CAII bound the COOH-terminal domain of NBC3 (NBC3Ct) with K_d = 101 nM; the interaction was stronger at acid pH. Cotransfection of HEK-293 cells with NBC3 and CAII recruited CAII to the plasma membrane. Mutagenesis of consensus CAII binding sites revealed that the D1135-D1136 region of NBC3 is essential for CAII/NBC3 interaction and for optimal function, because the NBC3 D1135N/D1136N retained only 29 ± 22% of wild-type activity. Coexpression of the functionally dominant-negative CAII mutant V143Y with NBC3 or addition of 100 µM 8-bromoadenosine to NBC3 transfected cells reduced intracellular pH (pH_i) recovery rate by 31 ± 3, or 38 ± 7%, respectively, relative to untreated NBC3 transfected cells. The effects were additive, together decreasing the pH_i recovery rate by 69 ± 12%, suggesting that PKA reduces transport activity by a mechanism independently of CAII. Measurements of PKA-dependent phosphorylation by mass spectroscopy and labeling with [-³²P]ATP showed that NBC3Ct was not a PKA substrate. These results demonstrate that NBC3 and CAII interact to maximize the HCO₃^– transport rate. Although PKA decreased NBC3 transport activity, it did so independently of the NBC3/CAII interaction and did not involve phosphorylation of NBC3Ct.

pH regulation; bicarbonate transport; metabolon

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