Publications

• Cloning and characterization of a putative Ca2+/H+ antiporter gene from Escherichia coli upon functional complementation of Na+/H+ antiporter-deficient strains by the overexpressed gene.

  Ivey D.M., Guffanti A.A., Zemsky J., Pinner E., Karpel R., Padan E., Schuldiner S., Krulwich T.A.

  DNA libraries from alkaliphilic Bacillus firmus OF4 had been screened earlier (Ivey, D.M., Guffanti, A.A., Bossewitch, J. S., Padan, E., and Krulwich, T. A. (1991) J. Biol. Chem. 266, 23483-23489) for clones that would functionally complement a strain of Escherichia coli (NM81) with a deletion in ... >> More

  DNA libraries from alkaliphilic Bacillus firmus OF4 had been screened earlier (Ivey, D.M., Guffanti, A.A., Bossewitch, J. S., Padan, E., and Krulwich, T. A. (1991) J. Biol. Chem. 266, 23483-23489) for clones that would functionally complement a strain of Escherichia coli (NM81) with a deletion in one of its Na+/H+ antiporter genes. During those studies, an alkaliphile antiporter gene was hypothesized to have been incorporated into the chromosome of strain NM81, producing Na(+)-resistant NM8191. After introduction of a deletion in the second known E. coli Na+/H+ antiporter gene, libraries were prepared from NM8191 and screened for complementation of Na+/H+ antiporter-deficient mutants of E. coli. Instead of retrieving an alkaliphile gene, an unexpected E. coli gene was identified on the basis of its ability to restore Na+ resistance and membrane Na+/H+ antiporter activity to such mutant strains. The active open reading frame in the clone maps at 27 min on the E. coli chromosome and is identical in sequence to a wild type counterpart. It would be predicted to encode an extremely hydrophobic protein with multiple membrane-spanning regions and a molecular weight of 39,200. A region in one of the predicted hydrophilic loops in the gene product structure possesses striking sequence similarity to calsequestrin. The Ca2+/H+ antiporter activity of membranes from an E. coli transformant with a clone possessing only this open reading frame was indeed found to have enhanced pH-independent Ca2+/H+ antiporter activity. The Ca2+/H+ and Na+/H+ antiporter activities conferred by the clone were both inhibited by Mg2+. The gene was designated chaA and is proposed to be the structural gene for a Ca2+/H+ antiporter whose overexpression leads to resistance to growth inhibition by both calcium and sodium. << Less

  J. Biol. Chem. 268:11296-11303(1993) [PubMed] [EuropePMC]

  This publication is cited by 1 other entry.

• A human Na+/H+ antiporter sharing evolutionary origins with bacterial NhaA may be a candidate gene for essential hypertension.

  Xiang M., Feng M., Muend S., Rao R.

  Phylogenetic analysis of the cation/proton antiporter superfamily has uncovered a previously unknown clade of genes in metazoan genomes, including two previously uncharacterized human isoforms, NHA1 and NHA2, found in tandem on human chromosome 4. The NHA (sodium hydrogen antiporter) family member ... >> More

  Phylogenetic analysis of the cation/proton antiporter superfamily has uncovered a previously unknown clade of genes in metazoan genomes, including two previously uncharacterized human isoforms, NHA1 and NHA2, found in tandem on human chromosome 4. The NHA (sodium hydrogen antiporter) family members share significant sequence similarity with Escherichia coli NhaA, including a conserved double aspartate motif in predicted transmembrane 5. We show that HsNHA2 (Homo sapiens NHA2) resides on the plasma membrane and, in polarized MDCK cells, localizes to the apical domain. Analysis of mouse tissues indicates that NHA2 is ubiquitous. When expressed in the yeast Saccharomyces cerevisiae lacking endogenous cation/proton antiporters and pumps, HsNHA2 can confer tolerance to Li(+) and Na(+) ions but not to K(+). HsNHA2 transformants accumulated less Li(+) than the salt-sensitive host; however, mutagenic replacement of the conserved aspartates abolished all observed phenotypes. Functional complementation by HsNHA2 was insensitive to amiloride, a characteristic inhibitor of plasma membrane sodium hydrogen exchanger isoforms, but was inhibited by phloretin. These are hallmarks of sodium-lithium countertransport activity, a highly heritable trait correlating with hypertension. Our findings raise the possibility that NHA genes may contribute to sodium-lithium countertransport activity and salt homeostasis in humans. << Less

  Proc. Natl. Acad. Sci. U.S.A. 104:18677-18681(2007) [PubMed] [EuropePMC]

• Structure, mechanism and lipid-mediated remodeling of the mammalian Na(+)/H(+) exchanger NHA2.

  Matsuoka R., Fudim R., Jung S., Zhang C., Bazzone A., Chatzikyriakidou Y., Robinson C.V., Nomura N., Iwata S., Landreh M., Orellana L., Beckstein O., Drew D.

  The Na⁺/H⁺ exchanger SLC9B2, also known as NHA2, correlates with the long-sought-after Na⁺/Li⁺ exchanger linked to the pathogenesis of diabetes mellitus and essential hypertension in humans. Despite the functional importance of NHA2, structural informati ... >> More

  The Na⁺/H⁺ exchanger SLC9B2, also known as NHA2, correlates with the long-sought-after Na⁺/Li⁺ exchanger linked to the pathogenesis of diabetes mellitus and essential hypertension in humans. Despite the functional importance of NHA2, structural information and the molecular basis for its ion-exchange mechanism have been lacking. Here we report the cryo-EM structures of bison NHA2 in detergent and in nanodiscs, at 3.0 and 3.5 Å resolution, respectively. The bison NHA2 structure, together with solid-state membrane-based electrophysiology, establishes the molecular basis for electroneutral ion exchange. NHA2 consists of 14 transmembrane (TM) segments, rather than the 13 TMs previously observed in mammalian Na⁺/H⁺ exchangers (NHEs) and related bacterial antiporters. The additional N-terminal helix in NHA2 forms a unique homodimer interface with a large intracellular gap between the protomers, which closes in the presence of phosphoinositol lipids. We propose that the additional N-terminal helix has evolved as a lipid-mediated remodeling switch for the regulation of NHA2 activity. << Less

  Nat. Struct. Mol. Biol. 29:108-120(2022) [PubMed] [EuropePMC]

• Localization and functional characterization of Na+/H+ exchanger isoform NHE4 in rat thick ascending limbs.

  Chambrey R., St John P.L., Eladari D., Quentin F., Warnock D.G., Abrahamson D.R., Podevin R.-A., Paillard M.

  The Na+/H+ exchanger NHE4 was cloned from a rat stomach cDNA library and shown to be expressed predominantly in the stomach and less dramatically in the kidney. The role and precise localization of NHE4 in the kidney are still unknown. A polyclonal antibody against a unique NHE4 decapeptide was us ... >> More

  The Na+/H+ exchanger NHE4 was cloned from a rat stomach cDNA library and shown to be expressed predominantly in the stomach and less dramatically in the kidney. The role and precise localization of NHE4 in the kidney are still unknown. A polyclonal antibody against a unique NHE4 decapeptide was used for immunohistochemistry in rat kidney. Simultaneous use of antibodies to Tamm-Horsfall glycoprotein and aquaporin-2 or -3 permitted identification of thick ascending limbs and collecting ducts, respectively. The results indicate that NHE4 is highly expressed in basolateral membranes of thick ascending limb and distal convoluted tubule, whereas collecting ducts from cortex to inner medulla and proximal tubules showed weaker basolateral NHE4 expression. Western blot analysis of NHE4 in membrane fractions prepared from the inner stripe of the outer medulla revealed the presence of a 95-kDa protein that was enriched in basolateral membrane vesicles isolated from medullary thick ascending limbs. The inhibition curve of H+-activated (22)Na uptake by 5-(N-ethyl-N-isopropyl)amiloride (EIPA) was consistent with the presence, beyond the EIPA high-affinity NHE1 isoform, of an EIPA low-affinity NHE with apparent half-maximal inhibition of 2.5 microM. Kinetic analyses showed that the extracellular Na+ dependence of NHE4 activity followed a simple hyperbolic relationship, with an apparent affinity constant of 12 mM. Intravesicular H+ activated NHE4 by a positive cooperative mechanism. NHE4 had an unusual low affinity for intravesicular H+ with a half-maximal activation value of pK 6.21. We conclude that NHE4, like NHE1, is expressed on the basolateral membrane of multiple nephron segments. Nevertheless, these two proteins exhibited dramatically different affinities for intracellular H+, suggesting that they may play distinct physiological roles in the kidney. << Less

  Am. J. Physiol. 281:F707-F717(2001) [PubMed] [EuropePMC]

• A new sperm-specific Na+/H+ exchanger required for sperm motility and fertility.

  Wang D., King S.M., Quill T.A., Doolittle L.K., Garbers D.L.

  It has long been speculated that intracellular pH is a critical regulator of both invertebrate and vertebrate sperm motility, and sodium-hydrogen exchange has been suggested as a mediator of such pH(i) regulation in various instances. Two sodium-hydrogen exchangers (NHE1 and NHE5) are expressed in ... >> More

  It has long been speculated that intracellular pH is a critical regulator of both invertebrate and vertebrate sperm motility, and sodium-hydrogen exchange has been suggested as a mediator of such pH(i) regulation in various instances. Two sodium-hydrogen exchangers (NHE1 and NHE5) are expressed in spermatozoa. However, elimination of the NHE1 gene fails to cause infertility, suggesting that normal sperm function is maintained in NHE1-null animals. Here, we used a functionally unbiased signal peptide trap screen to identify a novel sperm-specific NHE. The NHE contains 14 predicted transmembrane segments, including a potential voltage sensor and a consensus cyclic nucleotide-binding motif. Testis histology, sperm numbers and morphology were normal, but NHE-null males were completely infertile with severely diminished sperm motility. The addition of ammonium chloride, which elevates intracellular pH, partially rescued the motility and fertility defects. Surprisingly, cyclic AMP analogues almost completely rescued the motility and infertility phenotypes. The existence of this new sperm NHE provides an attractive contraceptive target, given its cell-specific expression and absolute requirement for fertility. << Less

  Nat. Cell Biol. 5:1117-1122(2003) [PubMed] [EuropePMC]

• Four Na+/H+ exchanger isoforms are distributed to Golgi and post-Golgi Compartments and are involved in organelle pH regulation.

  Nakamura N., Tanaka S., Teko Y., Mitsui K., Kanazawa H.

  Four isoforms of the Na+/H+ exchanger (NHE6-NHE9) are distributed to intracellular compartments in human cells. They are localized to Golgi and post-Golgi endocytic compartments as follows: mid-to trans-Golgi, NHE8; trans-Golgi network, NHE7; early recycling endosomes, NHE6; and late recycling end ... >> More

  Four isoforms of the Na+/H+ exchanger (NHE6-NHE9) are distributed to intracellular compartments in human cells. They are localized to Golgi and post-Golgi endocytic compartments as follows: mid-to trans-Golgi, NHE8; trans-Golgi network, NHE7; early recycling endosomes, NHE6; and late recycling endosomes, NHE9. No significant localization of these NHEs was observed in lysosomes. The distribution of these NHEs is not discrete in the cells, and there is partial overlap with other isoforms, suggesting that the intracellular localization of the NHEs is established by the balance of transport in and out of the post-Golgi compartments as the dynamic membrane trafficking. The overexpression of NHE isoforms increased the luminal pH of the compartments in which the protein resided from the mildly acidic pH to the cytosolic pH, suggesting that their in vivo function is to regulate the pH and monovalent cation concentration in these organelles. We propose that the specific NHE isoforms contribute to the maintenance of the unique acidic pH values of the Golgi and post-Golgi compartments in the cell. << Less

  J. Biol. Chem. 280:1561-1572(2005) [PubMed] [EuropePMC]

• Cloning of a novel human NHEDC1 (Na+/H+ exchanger like domain containing 1) gene expressed specifically in testis.

  Ye G.M., Chen C., Han D., Xiong X., Kong Y., Wan B., Yu L.

  The Na+/H+ exchangers (NHEs) catalyze the transport of Na+ in exchange for H+ across membranes in organisms and are required for numerous physiological processes. Here we report the cloning and characterization of a novel human NHEDC1 (Na+/H+ exchanger like domain containing 1) gene, which was map ... >> More

  The Na+/H+ exchangers (NHEs) catalyze the transport of Na+ in exchange for H+ across membranes in organisms and are required for numerous physiological processes. Here we report the cloning and characterization of a novel human NHEDC1 (Na+/H+ exchanger like domain containing 1) gene, which was mapped to human chromosome 4p24. This cDNA is 1859 bp in length, encoding a putative protein of 515 amino acids. The NHEDC1 proteins are highly conserved in mammals including human, mouse, rat, and Macaca fascicularis. One remarkable characteristic of human NHEDC1 gene is that it is exclusively expressed in the testis by RT-PCR analysis. Western blot analysis showed that the molecular weight of NHEDC1 is about 56 KDa. << Less

  Mol. Biol. Rep. 33:175-180(2006) [PubMed] [EuropePMC]