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Query: EC:3.6.1.3 (
ATPase
)
65,361
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The effect of Cd(2+) on chloride secretion was examined in A6 renal epithelia cells by chloride-sensitive fluorescence (SPQ probe) and by the short-circuit-current (I(sc)) technique. Depleting the cells of Cl(-) suggests that the Cd(2+)-activated I(sc) (DeltaI(sc(Cd))) is dependent on the presence of Cl(-) ions. Among the Cl(-)-channel inhibitors the fenemates, flufenamic acid (FFA) and niflumic acid (NFA), and 5-nitro-2-(3-phenylpropylamino)-benzoate (
NPPB
) significantly lowered DeltaI(sc(Cd)) compared with control level. In SPQ-loaded A6 cells, Cd(2+) evoked an increase in Cl(-) secretion ([DeltaCl(-)](Cd)), which significantly exceeded the basal Cl(-) transport and was blockable by FFA and NFA. The closely related metals, Zn(2+) or Ni(2+), were also able to activate Cl(-) secretion. Preexposure of Zn(2+) or Ni(2+) completely prevented [DeltaCl(-)](Cd), suggesting that Zn(2+) and Ni(2+) probably use similar mechanisms. Like Cd(2+), thapsigargin (TG), an inhibitor of intracellular Ca(2+)-
ATPase
and the Ca(2+)-ionophore A23187, induced an increase in I(sc). Moreover, TG and Cd(2+) were able to neutralize the responses of the counterparts as also observed in I(sc) measurements, which indicates that Cd(2+) activates Cl(-) secretion in a Ca(2+)-dependent manner. Hence, this study supports the idea that basolateral Cd(2+) (possibly also Zn(2+) and Ni(2+)), probably through a Ca(2+)-sensing receptor, causes calcium mobilization that activates apical fenemate-sensitive chloride channels leading to chloride secretion in A6 cells.
...
PMID:Chloride secretion in kidney distal epithelial cells (A6) evoked by cadmium. 1070 66
The regulation of gene expression by nutrients plays an important role in the overall manifestations of nutritional deficiencies. Insufficient intakes of dietary micronutrients, such as zinc, produce profound effects in multiple organs and tissues. One of the major challenges, however, is to identify genes affected by changes in nutritional status. Differential display of mRNA has proved to be a valuable technique in meeting this challenge. In our ongoing search for genes responsive to dietary zinc, we compared small intestinal mRNA from rats that were fed zinc-deficient or -adequate diets using differential display to generate 3' anchored expressed sequence tags (EST). EST for intestinal mRNAs with altered expression due to zinc deficiency include two peptide hormones, intestinal fatty acid binding protein, intestinal alkaline phosphatase II, a proteasomal
ATPase
, cis-Golgi p28 and two subunits of the ubiquinone oxidoreductase. The EST for one of the hormones yielded the sequence for the 3' end of an mRNA encoding preprouroguanylin and was used to clone the remaining portion of the rat cDNA via 5' rapid amplification of cDNA ends. Northern blot analysis of RNA from rat intestine demonstrated that preprouroguanylin mRNA was 2.5-fold more abundant during zinc deficiency. Uroguanylin, a
natriuretic peptide
hormone, is an endogenous ligand for the same guanylate cyclase C that the Escherichia coli heat-stable enterotoxin (STa) binds when it causes secretory diarrhea by activating the cystic fibrosis transmembrane conductance regulator, thus altering fluid balance in the intestine. This suggests a mechanism whereby zinc deficiency could induce uroguanylin levels in the intestine and cause or potentiate diarrhea.
...
PMID:Regulation of intestinal gene expression by dietary zinc: induction of uroguanylin mRNA by zinc deficiency. 1080 50
The role of H(+)-
ATPase
in proximal tubule cell pH regulation was studied by microperfusion techniques and by confocal microscopy. In a first series of experiments, proximal S3 segments of rabbit kidney were perfused "in vitro" while their cell pH was measured by fluorescence microscopy after loading with BCECF. In Na(+)- and Cl(-)-free medium, cell pH fell by a mean of 0.37+/-0.051 pH units, but after a few minutes started to rise again slowly. This rise was of 0.17 +/-0.022 pH units per min, and was significantly reduced by bafilomycin and by the Cl(-) channel blocker
NPPB
, but not by DIDS. In a second series of experiments, subcellular vesicles of proximal tubule cells of S3 segments of mouse kidney were studied by confocal microscopy after visualization by acridine orange or by Lucifer yellow. After superfusion with low Na(+) solution, which is expected to cause cell acidification, vesicles originally disposed in the basolateral and perinuclear cell areas, moved toward the apical area, as detected by changes in fluorescence density measured by the NIH Image program. The variation of apical to basolateral fluorescence ratios during superfusion with NaCl Ringer with time was 0.0018+/- 0.0021 min(-1), not significantly different from zero (P>0.42). For superfusion with Na(+)0 Ringer, this variation was 0.081+/-0.015 min(-1), P<0.001 against 0. These slopes were markedly reduced by the Cl(-) channel blocker
NPPB
, and by vanadate at a concentration that has been shown to disrupt cytoskeleton function. These data show that the delayed alkalinization of proximal tubule cells in Na(+)-free medium is probably due to a vacuolar H(+)-
ATPase
, whose activity is stimulated in the presence of Cl(-), and dependent on apical insertion of subcellular vesicles. The movement of these vesicles is also dependent on Cl(-) and on the integrity of the cytoskeleton.
...
PMID:Cell pH and H(+) secretion by S3 segment of mammalian kidney: role of H(+)-ATPase and Cl(-). 1108
By using Western blot and RT-PCR analyses, the expression of ClC-5, a member of the ClC family of voltage-gated chloride channels, and its mRNA was detected in OK cells. The effect of chloride channel inhibitors on receptor-mediated endocytosis of albumin was examined in OK cells and compared to that of vacuolar H(+)-
ATPase
inhibitors. Accumulation of fluorescein-isothiocyanate (FITC)-albumin, a receptor-mediated endocytosis marker, was inhibited by 5-nitro-2-(3-phenylpropylamino)-benzoic acid (
NPPB
), a chloride channel inhibitor, in a concentration-dependent fashion. In contrast, uptake of FITC-inulin, a fluid-phase endocytosis marker, was not affected by
NPPB
. Other chloride channel inhibitors, 4,4'-diisothiocyanatostilbene-2-2'-disulfonic acid and diphenylamine-2-carboxylic acid, also inhibited FITC-albumin uptake.
NPPB
, as well as a vacuolar H(+)-
ATPase
inhibitor bafilomycin A(1), caused a decrease in the affinity and in the maximal velocity of FITC-albumin uptake. These results suggest that chloride channel, most likely ClC-5, plays an important role in the receptor-mediated endocytosis of albumin in OK cells.
...
PMID:Expression of chloride channel, ClC-5, and its role in receptor-mediated endocytosis of albumin in OK cells. 1126 94
This review presents the current state of our knowledge regarding the regulation of renal tubular sodium transport by natriuretic peptides, with special emphasis on recent findings in this field. Natriuretic peptides constitute a complex system involved in the regulation of sodium balance and blood pressure. The
natriuretic peptide
family consists of atrial peptides, such as atrial natriuretic factor (ANF, ANP(99-126)), long-acting
natriuretic peptide
(ANP(1-30)), vessel dilator (ANP(31-67)) and kaliuretic peptide (ANP(79-98)), as well as brain or B-type
natriuretic peptide
(BNP), C-type natriuretic peptide (CNP) and urodilatin. Natriuretic peptides act on target cells through A-type and B-type receptors and stimulate cyclic GMP synthesis. ANF stimulates natriuresis mainly by inhibiting sodium reabsorption in the inner medullary collecting duct. The effect results from coordinate inhibition of apical sodium channels and basolateral Na+, K+-
ATPase
. Additional effects on sodium transport occur in more proximal nephron segments and on glomerular filtration when hormone concentration is elevated. BNP and urodilatin share the same mechanism of action. CNP synthetized in several nephron segments acts through specific B-type
natriuretic peptide
receptors, which are also expressed in renal tubule, but have a different distribution than A-type receptors. ANP(1-30), ANP(31-67) and ANP(79-98) decrease Na+, K+-
ATPase
activity in tubular cells through a prostaglandin E2-dependent mechanism.
...
PMID:Regulation of renal tubular sodium transport by cardiac natriuretic peptides: two decades of research. 1185 95
In several tissues ammonium ions are able to use the transport pathways of other ions, particularly of K+. We investigated this possibility in the C11 clone of MDCK cells, thought to represent intercalated cells, in control and 0 Cl- conditions. Cell pH was measured by ratiometric fluorescence microscopy using the pH indicator BCECF. After preincubating the cells for 10 min in control or 0 Cl- (substituted by gluconate) Ringer, an ammonium pulse was applied to induce cell acidification. The magnitude of the initial alkalinization (DeltapH) was 0.24+/-0.03 ( n=28) pH units in controls, which fell to 0.023+/-0.01 ( n=12) in 0 Cl-, suggesting uptake of NH4+ balancing the alkalinization by NH3. Addition of 10(-3) M bumetanide or furosemide to the 0 Cl- medium, or 10(-4 )M hexamethylene amiloride, did not alter DeltapH. However, with 5 mM Ba+, DeltapH increased to 38% of control. When 2.5x10(-4) M ouabain, an inhibitor of Na+-K+
ATPase
, was used, DeltapH increased to 46% of control. Inhibition of H+-K+
ATPase
by SCH28080 or by omeprazol caused significant increase in DeltapH. In 0 Cl- solution, these cells underwent a mean volume reduction (-d V) of -10.24+/-1.96% per 10 min as measured by confocal microscopy. To investigate if NH4+ influx was regulated by cell volume or by cell Cl-, volume reduction was avoided by two procedures. When preincubating with
NPPB
, a Cl- channel blocker, in 0 Cl-, volume reduction was inhibited (d V=-2.12% per 10 min), and DeltapH was 0.24+/-0.04 ( n=5). When the cells were preincubated in hypotonic 0 Cl- (260 mosmol/l), cell volume reduction was abolished (d V=+2.6% per 10 min) and DeltapH was 0.52+/-0.07 ( n=7). Thus, activation of NH4+ influx by several transporters was due to volume reduction rather than to [Cl-] alteration.
...
PMID:Factors affecting ammonium uptake by C11 clone of MDCK cells. 1245 40
Endothelial cells in most vascular beds release a factor that hyperpolarizes the underlying smooth muscle, produces vasodilatation, and plays a fundamental role in the regulation of local blood flow and systemic blood pressure. The identity of this endothelium-derived hyperpolarizing factor (EDHF), which is neither NO nor prostacyclin, remains obscure. Herein, we demonstrate that in mesenteric resistance arteries, release of C-type natriuretic peptide (CNP) accounts for the biological activity of EDHF. Both produce identical smooth muscle hyperpolarizations that are attenuated in the presence of high [K(+)], the G(i) G protein (G(i)) inhibitor pertussis toxin, the G protein-gated inwardly rectifying K(+) channel inhibitor tertiapin, and a combination of Ba(2+) (inwardly rectifying K(+) channel blocker) plus ouabain (Na(+)K(+)-
ATPase
inhibitor). Responses to EDHF and CNP are unaffected by the
natriuretic peptide
receptor (NPR)-AB antagonist HS-142-1, but mimicked by the selective NPR-C agonist, cANF(4-23). EDHF-dependent relaxation is concomitant with liberation of endothelial CNP; in the presence of the myoendothelial gap-junction inhibitor 18alpha-glycyrrhetinic acid or after endothelial denudation, CNP release and EDHF responses are profoundly suppressed. These data demonstrate that acetylcholine-evoked release of endothelial CNP activates NPR-C on vascular smooth muscle that via a G(i) coupling promotes Ba(2+)ouabain-sensitive hyperpolarization. Thus, we have revealed the identity of EDHF and established a pivotal role for endothelial-derived CNP in the regulation of vascular tone and blood flow.
...
PMID:Release of C-type natriuretic peptide accounts for the biological activity of endothelium-derived hyperpolarizing factor. 1255 27
The distal-convoluted tubule (DCT) of the kidney absorbs NaCl mainly via an Na+-Cl- cotransporter located at the apical membrane, and Na+, K+
ATPase
at the basolateral side. Cl- transport across the basolateral membrane is thought to be conductive, but the corresponding channels have not yet been characterized. In the present study, we investigated Cl- channels on microdissected mouse DCTs using the patch-clamp technique. A channel of approximately 9 pS was found in 50% of cell-attached patches showing anionic selectivity. The NPo in cell-attached patches was not modified when tubules were preincubated in the presence of 10-5 M forskolin, but the channel was inhibited by phorbol ester (10-6 M). In addition, NPo was significantly elevated when the calcium in the pipette was increased from 0 to 5 mM (NPo increased threefold), or pH increased from 6.4 to 8.0 (NPo increased 15-fold). Selectivity experiments conducted on inside-out patches showed that the Na+ to Cl- relative permeability was 0.09, and the anion selectivity sequence Cl(-)--I(-) > Br(-)--NO3(-) > F(-). Intracellular
NPPB
(10-4 M) and DPC (10-3 M) blocked the channel by 65% and 80%, respectively. The channel was inhibited at acid intracellular pH, but intracellular ATP and PKA had no effect. ClC-K Cl- channels are characterized by their sensitivity to the external calcium and to pH. Since immunohistochemical data indicates that ClC-K2, and perhaps ClC-K1, are present on the DCT basolateral membrane, we suggest that the channel detected in this study may belong to this subfamily of the ClC channel family.
...
PMID:A chloride channel at the basolateral membrane of the distal-convoluted tubule: a candidate ClC-K channel. 1266 33
In cardiomyocytes, mechanical stress induces a variety of hypertrophic responses including an increase in protein synthesis and a reprogramming of gene expression. Recently, the calcium signaling has been reported to play an important role in the development of cardiac hypertrophy. In this article, we report on the role of the calcium signaling in stretch-induced gene expression in cardiomyocytes. Stretching of cultured cardiomyocytes up-regulates the expression of brain
natriuretic peptide
(BNP). Intracellular calcium-elevating agents such as the calcium ionophore A23187, the calcium channel agonist BayK8644 and the sarcoplasmic reticulum calcium-
ATPase
inhibitor thapsigargin up-regulate BNP gene expression. Conversely, stretch-induced BNP gene expression is suppressed by EGTA, stretch-activated ion channel inhibitors, voltage-dependent calcium channel antagonists, and long-time exposure to thapsigargin. Furthermore, stretch increases the activity of calcium-dependent effectors such as calcineurin and calmodulin-dependent kinase II, and inhibitors of calcineurin and calmodulin-dependent kinase II significantly attenuated stretch-induced hypertrophy and BNP expression. These results suggest that calcineurin and calmodulin-dependent kinase II are activated by calcium influx and subsequent calcium-induced calcium release, and play an important role in stretch-induced gene expression during the development of cardiac hypertrophy.
...
PMID:Stretch-modulation of second messengers: effects on cardiomyocyte ion transport. 1273 68
Hypertonicity induced by NaCl, but not by urea or mannitol, up-regulates expression of the gamma subunit of Na/K-
ATPase
in cells of the murine inner medullary collecting duct line (IMCD3) by activation of the Jun kinase 2 (JNK2) pathways. We examined the ionic mediators of the osmosensitive response. An increase in osmolality to 550 milliosmoles per kg of water (mosmol/kgH2O) for 48 h by replacement of NaCl with choline chloride did not prevent the up-regulation of the gamma subunit. Neither Na+ ionophores nor inhibitors of cellular Na+ uptake altered the up-regulation of the gamma subunit or JNK activation. Changes in cell cation concentrations driven by incubation in low-K+ medium were effective in up-regulating the alpha1 subunit of Na/K-
ATPase
but did not have any effect on the gamma subunit. The replacement of NaCl with choline chloride did not down-regulate gamma-subunit expression in cells adapted to hypertonicity. In contrast, the replacement of NaCl with sodium acetate, or pretreatment of cells with the Cl- channel inhibitor 5-nitro-2-(3-phenylpropyl-amino)benzoic acid (
NPPB
) completely blocked gamma-subunit up-regulation, inhibited JNK activation, and caused a significant decrement in cell survival in hypertonic but not isotonic conditions. In adapted cells, replacement of 300 mosmol/kgH2O NaCl with sodium acetate resulted in down-regulation of the gamma subunit. In conclusion, we describe a Na+-independent, Cl--dependent mechanism for hypertonicity-mediated activation of the JNK and the subsequent synthesis of the gamma subunit of Na/K-
ATPase
, which are necessary for cellular survival in these anisotonic conditions.
...
PMID:Chloride, not sodium, stimulates expression of the gamma subunit of Na/K-ATPase and activates JNK in response to hypertonicity in mouse IMCD3 cells. 1274 99
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