Emile L. Boulpaep scite author profile

Bicarbonate transporters are the principal regulators of pH in animal cells, and play a vital role in acid-base movement in the stomach, pancreas, intestine, kidney, reproductive system and central nervous system. The functional family of HCO3- transporters includes Cl- -HCO3- exchangers, three Na+/HCO3- cotransporters, a K+/HCO3- cotransporter, and a Na+-driven Cl- -HCO3- exchanger. Molecular information is sparse on HCO3- transporters, apart from Cl- -HCO3- exchangers ('anion exchangers'), whose complementary DNAs were cloned several years ago. Attempts to clone other HCO3- transporters, based on binding of inhibitors, protein purification or homology with anion exchangers, have so far been unsuccessful. Here we monitor the intracellular pH and membrane voltage in Xenopus oocytes to follow the expression of the most electrogenic transporter known: the renal 1:3 electrogenic Na+/HCO3- cotransporter from the salamander Ambystoma tigrinum. We now report the successful cloning and characterization of a cDNA encoding a cation-coupled HCO3- transporter. The encoded protein is 1,035 amino acids long with several potential membrane-spanning domains. We show that when it is expressed in Xenopus oocytes, this protein is electrogenic, Na+ and HCO3- dependent, and blocked by the anion-transport inhibitor DIDS, and conclude that it is the renal electrogenic sodium bicarbonate cotransporter (NBC).

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Intracellular pH regulation in the renal proximal tubule of the salamander. Basolateral HCO3- transport.

Boron¹,

Boulpaep²

1983

528

316

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We have used pH-, Na-, and Cl-sensitive microelectrodes to study basolateral HC03 transport in isolated, perfused proximal tubules of the tiger salamander Ambystoma tigrinum . In one series of experiments, we lowered basolateral pH (pHb) from 7.5 to 6.8 by reducing [Na+]b are largely blocked by 4-acetamido-4-isothiocyanostilbene-2,2'-disulfonate (SITS), they are not affected by removal of Cl-, nor are there accompanying changes in a, consistent with a tight linkage between Cl-fluxes and those of Na' and HCOS . The aforementioned changes are apparently mediated by a single transport system, not involving Cl -. We conclude that HC03 transport is restricted to the basolateral membrane, and that HC03 fluxes are linked to those of Na'. The data are compatible with an electrogenic Na/HC03 transporter that carries Na', HCOa, and net negative charge in the same direction.

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An electroneutral sodium/bicarbonate cotransporter NBCn1 and associated sodium channel

Choi

Aalkjær

Boulpaep

et al. 2000

Nature

229

266

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Two electroneutral, Na+-driven HCO3- transporters, the Na+-driven Cl-/HCO3- exchanger and the electroneutral Na+/HCO3- cotransporter, have crucial roles in regulating intracellular pH in a variety of cells, including cardiac myocytes, vascular smooth-muscle, neurons and fibroblasts; however, it is difficult to distinguish their Cl- dependence in mammalian cells. Here we report the cloning of three variants of an electroneutral Na+/HCO3- cotransporter, NBCn1, from rat smooth muscle. They are 89-92% identical to a human skeletal muscle clone, 55-57% identical to the electrogenic NBCs and 33-43% identical to the anion exchangers. When expressed in Xenopus oocytes, NBCn1-B (which encodes 1,218 amino acids) is electroneutral, Na+-dependent and HCO3(-)-dependent, but not Cl(-)-dependent. Oocytes injected with low levels of NBCn1-B complementary RNA exhibit a Na+ conductance that 4,4-diisothiocyanatostilbene-2,2'-disulphonate stimulates slowly and irreversibly.

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Intracellular pH regulation in the renal proximal tubule of the salamander. Na-H exchange.

Boron¹,

Boulpaep²

1983

260

164

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Using pH-sensitive microelectrodes to measure intracellular pH (pHi) in isolated, perfused proximal tubules of the tiger salamander Ambystoma tigrinum, we have found that when cells are acid-loaded by pretreatment with NH4 in a nominally HC03-free Ringer, pHi spontaneously recovers with an exponential time course. This pHi recovery, which is indicative of active (i.e ., uphill) transport, is blocked by removal of Na' from both the luminal and basolateral (i.e., bath) solutions. Re-addition of Na' to either the lumen or the bath results in a full pHi recovery, but at a lower-than-normal rate ; the maximal rate is achieved only with Na' in both solutions. The diuretic amiloride reversibly inhibits the pHi recovery when present on either the luminal or basolateral sides, and has its maximal effect when present in both solutions . The pHi recovery is insensitive to stilbene derivatives and to Cl -removal. A transient rise of intracellular Na' activity accompanies the pHi recovery ; there is no change of intracellular Cl-activity . These data suggest that these proximal tubule cells have Na-H exchangers in both the luminal and basolateral membranes.

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Immunolocalization of the electrogenic Na⁺- HCO 3 − cotransporter in mammalian and amphibian kidney

Schmitt¹,

Biemesderfer

Romero³

et al. 1999

American Journal of Physiology-Renal Physiology

133

142

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Electrogenic cotransport of Na+ and[Formula: see text] is a crucial element of[Formula: see text] reabsorption in the renal proximal tubule (PT). An electrogenic Na+-[Formula: see text]cotransporter (NBC) has recently been cloned from salamander and rat kidney. In the present study, we generated polyclonal antibodies (pAbs) to NBC and used them to characterize NBC on the protein level by immunochemical methods. We generated pAbs in guinea pigs and rabbits by immunizing with a fusion protein containing the carboxy-terminal 108 amino acids (amino acids 928–1035) of rat kidney NBC (rkNBC). By indirect immunofluorescence microscopy, the pAbs strongly labeled HEK-293 cells transiently expressing NBC, but not in untransfected cells. By immunoblotting, the pAbs recognized a ∼130-kDa band in Xenopus laevis oocytes expressing rkNBC, but not in control oocytes injected with water or cRNA for the Cl−/[Formula: see text]exchanger AE2. In immunoblotting experiments on renal microsomes, the pAbs specifically labeled a major band at ∼130 kDa in both rat and rabbit, as well as a single ∼160-kDa band in salamander kidney. By indirect immunofluorescence microscopy on 0.5-μm cryosections of rat and rabbit kidneys fixed in paraformaldehyde-lysine-periodate (PLP), the pAbs produced a strong and exclusively basolateral staining of the PT. In the salamander kidney, the pAbs labeled only weakly the basolateral membrane of the PT. In contrast, we observed strong basolateral labeling in the late distal tubule, but not in the early distal tubule. The specificity of the pAbs for both immunoblotting and immunohistochemistry was confirmed in antibody preabsorption experiments using either the fusion protein used for immunization or similarly prepared control fusion proteins. In summary, we have developed antibodies specific for NBC, determined the apparent molecular weights of rat, rabbit, and salamander kidney NBC proteins, and described the localization of NBC within the kidney of these mammalian and amphibian species.

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Paracellular Cl ^- permeability is regulated by WNK4 kinase: Insight into normal physiology and hypertension

Kahle

MacGregor²,

Wilson³

et al. 2004

Proc. Natl. Acad. Sci. U.S.A.

152

128

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Paracellular ion flux across epithelia occurs through selective and regulated pores in tight junctions; this process is poorly understood. Mutations in the kinase WNK4 cause pseudohypoaldosteronism type II (PHAII), a disease featuring hypertension and hyperkalemia. Whereas WNK4 is known to regulate several transcellular transporters and channels involved in NaCl and K ؉ homeostasis, its localization to tight junctions suggests it might also regulate paracellular flux. We performed electrophysiology on mammalian kidney epithelia with inducible expression of various WNK4 constructs. Induction of wild-type WNK4 reduced transepithelial resistance by increasing absolute chloride permeability. PHAII-mutant WNK4 produced markedly larger effects, whereas kinase-mutant WNK4 had no effect. The electrochemical and pharmacologic properties of these effects indicate they are attributable to the paracellular pathway. The effects of WNK4 persist when induction is delayed until after tight-junction formation, demonstrating a dynamic effect. WNK4 did not alter the flux of uncharged solutes, or the expression or localization of selected tight-junction proteins. Transmission and freeze-fracture electron microscopy showed no effect of WNK4 on tight-junction structure. These findings implicate WNK signaling in the coordination of transcellular and paracellular flux to achieve NaCl and K ؉ homeostasis, explain PHAII pathophysiology, and suggest that modifiers of WNK signaling may be potent antihypertensive agents.protein serine-threonine kinases ͉ ion transport

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The electrogenic Na/HCO3 cotransporter

Boron¹,

Boulpaep²

1989

Kidney International

125

119

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Active K⁺secretion through multiple K_Ca-type channels and regulation by IK_Cachannels in rat proximal colon

Joiner¹,

Basavappa²,

Vidyasagar³

et al. 2003

American Journal of Physiology-Gastrointestinal and Liver Physi

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Colonic K+ secretion stimulated by cholinergic agents requires activation of muscarinic receptors and the release of intracellular Ca2+. However, the precise mechanisms by which this rise in Ca2+ leads to K+ efflux across the apical membrane are poorly understood. In the present study, Northern blot analysis of rat proximal colon revealed the presence of transcripts encoding rSK2 [small conductance (SK)], rSK4 [intermediate conductance (IK)], and rSlo [large conductance (BK)] Ca2+-activated K+ channels. In dietary K+-depleted animals, only rSK4 mRNA was reduced in the colon. On the basis of this observation, a cDNA encoding the K+ channel rSK4 was cloned from a rat colonic cDNA library. Transfection of this cDNA into Chinese hamster ovary (CHO) cells led to the expression of Ca2+-activated K+ channels that were blocked by the IK channel inhibitor clotrimazole (CLT). Confocal immunofluorescence confirmed the presence of IK channels in proximal colonic crypts, and Western blotting demonstrated that IK protein sorted to both the apical and basolateral surfaces of colonic epithelia. In addition, transcellular active K+ secretion was studied on epithelial strips of rat proximal colon using unidirectional 86Rb+ fluxes. The addition of thapsigargin or carbachol to the serosal surface enhanced net 86Rb+ secretion. The mucosal addition of CLT completely inhibited carbachol-induced net 86Rb+ secretion. In contrast, only partial inhibition was observed with the BK and SK channel inhibitors, iberiotoxin and apamin, respectively. Finally, in parallel with the reduction in SK4 message observed in animals deprived of dietary K+, carbachol-induced 86Rb+ secretion was abolished in dietary K+-depleted animals. These results suggest that the rSK4 channel mediates K+ secretion induced by muscarinic agonists in the rat proximal colon and that transcription of the rSK4 channel is downregulated to prevent K+ loss during dietary K+ depletion.

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Emile L. Boulpaep

Expression cloning and characterization of a renal electrogenic Na+ /HCO3− cotransporter

Intracellular pH regulation in the renal proximal tubule of the salamander. Basolateral HCO3- transport.

An electroneutral sodium/bicarbonate cotransporter NBCn1 and associated sodium channel

Intracellular pH regulation in the renal proximal tubule of the salamander. Na-H exchange.

Immunolocalization of the electrogenic Na⁺- HCO 3 − cotransporter in mammalian and amphibian kidney

Paracellular Cl ^- permeability is regulated by WNK4 kinase: Insight into normal physiology and hypertension

The electrogenic Na/HCO3 cotransporter

Active K⁺secretion through multiple K_Ca-type channels and regulation by IK_Cachannels in rat proximal colon

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About

Emile L. Boulpaep

Expression cloning and characterization of a renal electrogenic Na+ /HCO3− cotransporter

Intracellular pH regulation in the renal proximal tubule of the salamander. Basolateral HCO3- transport.

An electroneutral sodium/bicarbonate cotransporter NBCn1 and associated sodium channel

Intracellular pH regulation in the renal proximal tubule of the salamander. Na-H exchange.

Immunolocalization of the electrogenic Na+- HCO 3 − cotransporter in mammalian and amphibian kidney

Paracellular Cl - permeability is regulated by WNK4 kinase: Insight into normal physiology and hypertension

The electrogenic Na/HCO3 cotransporter

Active K+secretion through multiple KCa-type channels and regulation by IKCachannels in rat proximal colon

Contact Info

Product

Resources

About

Immunolocalization of the electrogenic Na⁺- HCO 3 − cotransporter in mammalian and amphibian kidney

Paracellular Cl ^- permeability is regulated by WNK4 kinase: Insight into normal physiology and hypertension

Active K⁺secretion through multiple K_Ca-type channels and regulation by IK_Cachannels in rat proximal colon