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Query: UMLS:C0020538 (
hypertension
)
170,190
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Cardiac sodium pumps (Na,K-ATPase) influence cell calcium and contractility by generating the Na+ gradient driving Ca++ extrusion via the
Na+/Ca++ exchanger
(
NCX
), and are the receptors for cardiac glycosides such as digitalis which increases cardiac contractility by decreasing the Na+ gradient driving Ca++ extrusion. There are multiple isoforms of the sodium pump expressed in the heart indicating the potential for isoform specific expression patterns, function and regulation. Regarding isoform expression patterns, human heart expresses alpha1, alpha2, alpha3, beta1 and a small amount of beta2. Within the human heart, alpha3, beta1 and
NCX
levels are 30-50% lower in atria than ventricles, associated with increased sensitivity to inotropic stimulation. Distribution at the cellular level has been studied in the rat heart where both alpha1 and alpha2 are detected in the T-tubules along with
NCX
. Regarding isoform function, we focussed on human sodium pumps as cardiac glycoside receptors. A study of human sodium pump expressed alone (alpha1) or in combination (alpha1 with alpha2, or alpha1 with alpha2 and alpha3) in their native membranes aimed to determine whether different isoforms had distinct affinities for the cardiac glycoside ouabain by evaluating whether the ouabain binding data were best fit with a single site or two site model. The results indicated that the affinity of these human a subunit isoforms for ouabain is indistinguishable, and that changes in sensitivity to cardiac glycosides during heart failure are likely due to a decrease in the total number of pumps rather than a shift in expression to a more sensitive isoform. Regarding isoform regulation, we hypothesized that a primary decrease in cardiac Na,K-ATPase expression would be associated with a secondary increase in cardiac
Na+/Ca++ exchanger
expression as a homeostatic mechanism to blunt an increase in cell Ca++ stores (and visa versa with an increase in Na,K-ATPase). Supporting the hypothesis: in a rat model of renovascular
hypertension
, or after treatment with amiodarone there are 50% decreases in alpha2 levels with 35-40% increases in
NCX
levels in left ventricle, while in the transition from hypo- to hyperthyroid, there are increases in both alpha1 (2-fold) and alpha2 (8-fold) with decreases in
NCX
(0.45-fold). In comparison, in transgenic mice overexpressing
NCX
, there was no secondary change in Na,K-ATPase alpha1 or alpha2 levels indicating that primary changes in
NCX
do not drive secondary changes in Na,K-ATPase in the heart. This information provides the basis for addressing the significant gaps in our understanding of the physiologic, structural and homeostatic coupling between sodium pump isoforms and Na+/Ca++ exchangers in the heart and how coupling is related to control of cardiac contractility in health and disease.
...
PMID:The cardiac sodium pump: structure and function. 1247 29
The Na+/Ca2+ exchanger (NCX) is an ion transporter that exchanges Na+ and Ca2+ in either Ca2+ efflux or Ca2+ influx mode, depending on membrane potential and transmembrane ion gradients. In myocytes, neurons, and nephron cells, NCX is thought to play an important role in the regulation of intracellular Ca2+ concentration. Recently, the benzyloxyphenyl derivatives KB-R7943, SEA0400, and SN-6 have been developed as selective NCX inhibitors. Currently, SEA0400 is the most potent and selective inhibitor. These inhibitors possess different isoform-selectivities, although they have similar properties, such as Ca2+ influx mode-selectivity and I1 inactivation-dependence. Recent site-directed mutagenesis has revealed that these inhibitors possess some molecular determinants (Phe-213, Val-227, Tyr-228, Gly-833, and Asn-839) for interaction with
NCX1
. These benzyloxyphenyl derivatives are expected to be useful tools to study the physiological roles of NCX. Moreover, such inhibitors may have therapeutic potential as a new remedy for ischemic disease, arrhythmias, heart failure, and
hypertension
.
...
PMID:Forefront of Na+/Ca2+ exchanger studies: molecular pharmacology of Na+/Ca2+ exchange inhibitors. 1535 84
Excessive salt intake is a major risk factor for
hypertension
. Here we identify the role of Na(+)/Ca(2+) exchanger type 1 (
NCX1
) in salt-sensitive
hypertension
using SEA0400, a specific inhibitor of Ca(2+) entry through
NCX1
, and genetically engineered mice. SEA0400 lowers arterial blood pressure in salt-dependent hypertensive rat models, but not in other types of hypertensive rats or in normotensive rats. Infusion of SEA0400 into the femoral artery in salt-dependent hypertensive rats increases arterial blood flow, indicating peripheral vasodilation. SEA0400 reverses ouabain-induced cytosolic Ca(2+) elevation and vasoconstriction in arteries. Furthermore, heterozygous
NCX1
-deficient mice have low salt sensitivity, whereas transgenic mice that specifically express
NCX1
.3 in smooth muscle are hypersensitive to salt. SEA0400 lowers the blood pressure in salt-dependent hypertensive mice expressing
NCX1
.3, but not in SEA0400-insensitive
NCX1
.3 mutants. These findings indicate that salt-sensitive
hypertension
is triggered by Ca(2+) entry through
NCX1
in arterial smooth muscle and suggest that
NCX1
inhibitors might be useful therapeutically.
...
PMID:Salt-sensitive hypertension is triggered by Ca2+ entry via Na+/Ca2+ exchanger type-1 in vascular smooth muscle. 1551 8
The Na+/Ca2+ exchanger (NCX) is a membrane protein involved in calcium homeostasis, catalyzing the exchange of one Ca2+ ion for three Na+ ions across the cell membrane. The Na+/Ca2+ exchange has been suggested to play a role in the pathogenesis of
hypertension
. Therefore, we examined whether genetic variations in
NCX1
were associated with
hypertension
. Among 15 polymorphisms identified in 96 hypertensive subjects by sequencing the entire exon and promoter regions of
NCX1
, 7 representative polymorphisms with a minor allele frequency of greater than 4% were genotyped in 1,865 individuals, of whom 787 were hypertensive and 1,072 were normotensive. These subjects were residents of Suita City and were randomly selected as a population for the Suita cohort study. Multivariate logistic regression analysis performed after adjusting for age, body mass index, hyperlipidemia, diabetes mellitus, smoking, and drinking revealed that the -23200T>C and -23181T>C polymorphisms in the 5' upstream region of exon 1c were significantly associated with
hypertension
in men (-23200T>C: CC vs. TC+TT: odds ratio=0.61; 95% confidence intervals: 0.39 to 0.97; p =0.04) and in women (-23181T>C: CC vs. TC+TT: odds ratio=1.45; 95% confidence intervals: 1.04 to 2.02; p =0.03), respectively. Thus, our study suggests that
NCX1
is one of the genes related to susceptibility to essential hypertension in the Japanese general population.
...
PMID:Association of genetic polymorphisms of sodium-calcium exchanger 1 gene, NCX1, with hypertension in a Japanese general population. 1578 3
The response of blood pressure to thiazide diuretics (TZDs) differs among individuals. The prediction of the antihypertensive effect of TZDs is important for realizing individualized therapy in the management of
hypertension
. The aim of this study was to identify the single nucleotide polymorphisms (SNPs) susceptible to the antihypertensive effect of TZDs, particularly focusing on genes related to water-electrolyte absorption in the kidney. Seventy-six outpatients (mean age, 65.4+/-9.0 years) with essential hypertension (EHT) taking TZDs were retrospectively assessed. We defined as responders (R) those whose mean blood pressure was lowered by more than 5 mmHg after the use of TZDs. Forty-eight SNPs in 17 genes (ADD1, GNB3, TSC [SLC12A3], MLR [NR3C2],
NCX1
[SLC8A1], WNK1, WNK4, AGT, ACE, AT1 [AGTR1], CYP11B2, ADRB1, ADRB2, ADRB3, ADRA1A, ADRA1B, ADRA2A) were genotyped in the 76 patients. The SNPs in TSC, MLR,
NCX1
, WNK1, and WNK4 were identified by direct sequencing and those with minor frequencies of greater than 5% were genotyped in this study. The comparison of polymorphism prevalence between R and non-responders (NR) showed significant differences in TSC C1784T (C allele vs. T allele, odds ratio (OR)=3.81, p =0.016, confidence interval (CI): 1.25-11.63) and ADRB3 T727C (Trp64Arg) (T allele vs. C allele, OR=4.59, p =0.005, CI: 1.54-13.68). The blood pressure (BP) in patients homozygous for the major alleles of both TSC C1784T and ADRB3 T727C were significantly reduced by TZD treatment; however, the BP in those homozygous for the minor allele and heterozygous (TSC C1784T: TT+CT; ADRB3 T727C: CC+CT) for both SNPs were not significantly changed after TZD treatment. Both newly detected TSC C1784T and ADRB3 T727C are gene polymorphisms susceptible to the antihypertensive effect of TZDs in patients with EHT. Thus, the prediction of BP reduction by TZDs may be possible by evaluating these two SNPs.
...
PMID:The thiazide-sensitive Na(+)-Cl(-) cotransporter gene, C1784T, and adrenergic receptor-beta3 gene, T727C, may be gene polymorphisms susceptible to the antihypertensive effect of thiazide diuretics. 1582 64
A critical question in
hypertension
research is: How is long-term blood pressure controlled? Excessive NaCl ingestion or NaCl retention by the kidneys and the consequent tendency toward plasma volume expansion lead to
hypertension
. Nevertheless, the precise mechanisms linking salt to
high blood pressure
are unresolved. The discovery of endogenous ouabain, an adrenocortical hormone, provided an important clue. Ouabain, a selective Na+ pump inhibitor, has cardiotonic and vasotonic effects. Plasma endogenous ouabain levels are significantly elevated in approximately 40% of patients with essential hypertension and in animals with several forms of salt-dependent
hypertension
. Also, prolonged ouabain administration induces
hypertension
in rodents. Mice with mutant Na+ pumps or Na/Ca exchangers (NCX) and studies with a ouabain antagonist and an NCX blocker are revealing the missing molecular mechanisms. These data demonstrate that alpha2 Na+ pumps and
NCX1
participate in long-term regulation of vascular tone and blood pressure. Pharmacological agents or mutations in the alpha2 Na+ pump that interfere with the action of ouabain on the pump, and reduced
NCX1
expression or agents that block NCX all impede the development of salt-dependent or ouabain-induced
hypertension
. Conversely, nanomolar ouabain, reduced alpha2 Na+ pump expression, and smooth muscle-specific overexpression of
NCX1
all induce
hypertension
. Furthermore, ouabain and reduced alpha2 Na+ pump expression increase myogenic tone in isolated mesenteric small arteries in vitro, thereby tying these effects directly to the elevation of blood pressure. Thus, endogenous ouabain, and vascular alpha2 Na+ pumps and
NCX1
, are critical links between salt and
hypertension
. New pharmacological agents that act on these molecular links have potential in the clinical management of
hypertension
.
...
PMID:How does salt retention raise blood pressure? 1646 98
There is abundant clinical and epidemiologic data linking excess body sodium with
hypertension
. The mechanism(s) at the molecular level to explain this relationship are unknown. Recent studies by multiple investigators, have identified several ion transport mechanisms in the vascular wall that interact to control vascular tone and contractility. These new data include 1) biochemical, pharmacologic, and molecule structural studies, 2) experiments in transgenic and knockout mice, and 3) results in clinical
hypertension
. The overall results provide compelling evidence for the concept that salt-dependent
hypertension
involves the secretion of endogenous ouabain (EO), an adrenal steroid synthesized with the same initial steps as aldosterone and secreted by the zona glomerulosa. Circulating EO inhibits arterial smooth muscle Na+ pumps with alpha 2 subunits. These are functionally coupled to the type 1 Na/Ca exchanger (
NCX1
). Thus when a2 Na pumps are inhibited in arterial smooth muscle, the resulting subplasma membrane increase in Na+ concentration triggers, via
NCX1
Ca2+ entry, a rise in cytosolic Ca2+ concentration and increased myogenic tone and contractility. The ultimate result is a rise in peripheral vascular resistance-the hemodynamic hallmark of
hypertension
. The elucidation of this pathway has facilitated the development of pharmacologic agents that have therapeutic potential for
hypertension
and other cardiovascular diseases. These include agents that compete with EO for binding to the Na+ pump and inhibitors of
NCX1
.
...
PMID:Molecular mechanisms linking sodium to hypertension: report of a symposium. 1647 78
Excess salt intake is a major risk factor for
hypertension
. However, the molecular mechanisms underlying salt-dependent
hypertension
remain obscure. Our recent studies using selective Na(+)/Ca(2+) exchange inhibitors and genetically engineered mice provide compelling evidence that salt-dependent
hypertension
is triggered by Ca(2+) entry through Na(+)/Ca(2+) exchanger type 1 (
NCX1
) in arterial smooth muscle. Endogenous cardiac glycosides, which may contribute to salt-dependent
hypertension
, seem to be necessary for
NCX1
-mediated
hypertension
. Intriguingly, recent studies by Dostanic-Larson et al. using knock-in mice with modified cardiac glycoside binding affinity of Na(+),K(+)-ATPases demonstrate that this binding site plays an important physiological role in blood pressure control. Thus, when cardiac glycosides inhibit Na(+),K(+)-ATPase in arterial smooth muscle cells, the elevation of local Na(+) on the submembrane area is believed to facilitate Ca(2+) entry through
NCX1
, resulting in vasoconstriction. This proposed pathway may have enabled us to explain how to link dietary salt to
hypertension
.
...
PMID:Topics on the Na+/Ca2+ exchanger: role of vascular NCX1 in salt-dependent hypertension. 1696 Apr 23
A rise in cytosolic Ca(2+) concentration ([Ca(2+)](cyt)) in pulmonary artery smooth muscle cells (PASMC) is a trigger for pulmonary vasoconstriction and a stimulus for PASMC proliferation and migration. Multiple mechanisms are involved in regulating [Ca(2+)](cyt) in human PASMC. The resting [Ca(2+)](cyt) and Ca(2+) entry are both increased in PASMC from patients with idiopathic pulmonary arterial
hypertension
(IPAH), which is believed to be a critical mechanism for sustained pulmonary vasoconstriction and excessive pulmonary vascular remodeling in these patients. Here we report that protein expression of
NCX1
, an NCX family member of Na(+)/Ca(2+) exchanger proteins is upregulated in PASMC from IPAH patients compared with PASMC from normal subjects and patients with other cardiopulmonary diseases. The Na(+)/Ca(2+) exchanger operates in a forward (Ca(2+) exit) and reverse (Ca(2+) entry) mode. By activating the reverse mode of Na(+)/Ca(2+) exchange, removal of extracellular Na(+) caused a rapid increase in [Ca(2+)](cyt), which was significantly enhanced in IPAH PASMC compared with normal PASMC. Furthermore, passive depletion of intracellular Ca(2+) stores using cyclopiazonic acid (10 microM) not only caused a rise in [Ca(2+)](cyt) due to Ca(2+) influx through store-operated Ca(2+) channels but also mediated a rise in [Ca(2+)](cyt) via the reverse mode of Na(+)/Ca(2+) exchange. The upregulated
NCX1
in IPAH PASMC led to an enhanced Ca(2+) entry via the reverse mode of Na(+)/Ca(2+) exchange, but did not accelerate Ca(2+) extrusion via the forward mode of Na(+)/Ca(2+) exchange. These observations indicate that the upregulated
NCX1
and enhanced Ca(2+) entry via the reverse mode of Na(+)/Ca(2+) exchange are an additional mechanism responsible for the elevated [Ca(2+)](cyt) in PASMC from IPAH patients.
...
PMID:Upregulation of Na+/Ca2+ exchanger contributes to the enhanced Ca2+ entry in pulmonary artery smooth muscle cells from patients with idiopathic pulmonary arterial hypertension. 1719 85
Cyclosporin A (CsA) is an immunosuppressive drug commonly given to transplant patients. Its application is accompanied by severe side effects related to calcium, among them
hypertension
and nephrotoxicity. The Na+/Ca2+ exchanger (NCX) is a major calcium regulator expressed in the surface membrane of all excitable and many nonexcitable tissues. Three genes,
NCX1
, NCX2, and NCX3 code for Na+/Ca2+ exchange activity.
NCX1
gene products are the most abundant. We have shown previously that exposure of
NCX1
-transfected HEK 293 cells to CsA, leads to concentration-dependent reduction of Na+/Ca2+ exchange activity and surface expression, without a reduction in total cell-expressed
NCX1
protein. We show now that the effect of CsA on
NCX1
protein expression is not restricted to transfected cells overexpressing the
NCX1
protein but exhibited also in cells expressing endogenously the
NCX1
protein (L6, H9c2, and primary smooth muscle cells). Exposure of NCX2- and NCX3-transfected cells to CsA results also in reduction of Na+/Ca2+ exchange activity and surface expression, though the sensitivity to the drug was lower than in
NCX1
-transfected cells. Studying the molecular mechanism of CsA-NCX interaction suggests that cyclophilin (Cyp) is involved in
NCX1
protein expression and its modulation by CsA. Deletion of 426 amino acids from the large cytoplasmic loop of the protein retains the CsA-dependent downregulation of the truncated
NCX1
suggesting that CsA-Cyp-NCX interaction involves the remaining protein domains.
...
PMID:Cyclosporin A-dependent downregulation of the Na+/Ca2+ exchanger expression. 1744 60
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