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Query: UMLS:C0020538 (
hypertension
)
170,190
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
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.
...
PMID:A human Na+/H+ antiporter sharing evolutionary origins with bacterial NhaA may be a candidate gene for essential hypertension. 1800 46
Human
NHA2
, a newly discovered cation proton antiporter, is implicated in essential hypertension by gene linkage analysis. We show that
NHA2
mediates phloretin-sensitive Na(+)-Li(+) counter-transport (SLC) activity, an established marker for
hypertension
. In contrast to bacteria and fungi where H(+) gradients drive uptake of metabolites, secondary transport at the plasma membrane of mammalian cells is coupled to the Na(+) electrochemical gradient. Our findings challenge this paradigm by showing coupling of
NHA2
and V-type H(+)-ATPase at the plasma membrane of kidney-derived MDCK cells, resulting in a virtual Na(+) efflux pump. Thus,
NHA2
functionally recapitulates an ancient shared evolutionary origin with bacterial NhaA. Although plasma membrane H(+) gradients have been observed in some specialized mammalian cells, the ubiquitous tissue distribution of
NHA2
suggests that H(+)-coupled transport is more widespread. The coexistence of Na(+) and H(+)-driven chemiosmotic circuits has implications for salt and pH regulation in the kidney.
...
PMID:Unconventional chemiosmotic coupling of NHA2, a mammalian Na+/H+ antiporter, to a plasma membrane H+ gradient. 2294 42
Increased renal reabsorption of sodium is a significant risk factor in
hypertension
. An established clinical marker for essential hypertension is elevated sodium lithium countertransport (SLC) activity.
NHA2
is a newly identified Na
+
(Li
+
)/H
+
antiporter with potential genetic links to
hypertension
, which has been shown to mediate SLC activity and H
+
-coupled Na
+
(Li
+
) efflux in kidney-derived MDCK cells. To evaluate a putative role in sodium homeostasis, we determined the effect of dietary salt on
NHA2
. In murine kidney sections,
NHA2
localized apically to distal convoluted (both DCT1 and 2) and connecting tubules, partially overlapping in distribution with V-ATPase, AQP2, and NCC1 transporters. Mice fed a diet high in sodium chloride showed elevated transcripts and expression of
NHA2
protein. We propose a model in which
NHA2
plays a dual role in salt reabsorption or secretion, depending on the coupling ion (sodium or protons). The identified novel regulation of Na
+
/H
+
antiporter in the kidney suggests new roles in salt homeostasis and disease.
...
PMID:NHA2 is expressed in distal nephron and regulated by dietary sodium. 2790 97
NHA2
is a sodium/proton exchanger associated with arterial
hypertension
in humans, but the role of
NHA2
in kidney function and blood pressure homeostasis is currently unknown. Here we show that
NHA2
localizes almost exclusively to distal convoluted tubules in the kidney.
NHA2
knock-out mice displayed reduced blood pressure, normocalcemic hypocalciuria and an attenuated response to the thiazide diuretic hydrochlorothiazide. Phosphorylation of the thiazide-sensitive sodium/chloride cotransporter NCC and its upstream activating kinase Ste20/SPS1-related proline/alanine rich kinase (SPAK), as well as the abundance of with no lysine kinase 4 (WNK4), were significantly reduced in the kidneys of
NHA2
knock-out mice. In vitro experiments recapitulated these findings and revealed increased WNK4 ubiquitylation and enhanced proteasomal WNK4 degradation upon loss of
NHA2
. The effect of
NHA2
on WNK4 stability was dependent from the ubiquitylation pathway protein Kelch-like 3 (KLHL3) . More specifically, loss of
NHA2
selectively attenuated KLHL3 phosphorylation and blunted protein kinase A- and protein kinase C-mediated decrease of WNK4 degradation. Phenotype analysis of
NHA2
/NCC double knock-out mice supported the notion that
NHA2
affects blood pressure homeostasis by a kidney-specific and NCC-dependent mechanism. Thus, our data show that
NHA2
as a critical component of the WNK4-NCC pathway and is a novel regulator of blood pressure homeostasis in the kidney.
...
PMID:The sodium/proton exchanger NHA2 regulates blood pressure through a WNK4-NCC dependent pathway in the kidney. 3295 52
