Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

In enterocytes and erythrocytes a calmodulin-stimulated Ca(2+)-ATPase is the main Ca2+ efflux pathway. Previous studies have shown that in enterocytes this Ca(2+)-pumping ATPase could be stimulated by vitamin D-dependent Ca(2+)-binding protein, calbindin-D9k, in ethylene glycol-bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid (EGTA)-free solutions. In contrast, a similar stimulatory effect of calbindin-D9K was not observed in erythrocytes. We reinvestigated the effects of calbindin, parvalbumin and calmodulin on active Ca2+ uptake in membrane vesicles derived from porcine erythrocytes and from rat duodenum. In EGTA-containing solutions, neither calbindin-D28k nor parvalbumin influenced the rate of ATP-dependent Ca2+ uptake in red blood cell-derived vesicles. However, when EGTA-free solutions were used, calbindin D28k and parvalbumin significantly increased ATP-dependent Ca2+ uptake in erythrocyte as well as in enterocyte-derived membrane vesicles. In contrast, calmodulin significantly increased active Ca2+ uptake in erythrocyte vesicles in the absence as well as in the presence of EGTA. In addition, ATP-dependent Ca2+ uptake in the presence of 0.2 microM calmodulin was further increased by parvalbumin in the absence but not in the presence of EGTA. This observation precludes that parvalbumin and calbindin stimulate the plasma membrane Ca(2+)-ATPase by occupying the calmodulin binding site. Our results support the theoretical notion that calbindin and parvalbumin stimulate the Ca(2+)-starved pump by increasing the free Ca2+ in the immediate vicinity of the Ca2+ pump sites.
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PMID:Stimulation of plasma membrane Ca2+ pump by calbindin-D28k and calmodulin is additive in EGTA-free solutions. 760 80

Calcium (Ca2+) accumulates within the endoplasmic reticulum of cells through function of the sarcoplasmic reticulum and endoplasmic reticulum Ca(2+)-dependent ATPase family of intracellular Ca(2+)-pumping ATPases. The resulting pools have important signaling functions. Thapsigargin (TG) is a sesquiterpene gamma-lactone which selectively inhibits the sarcoplasmic reticulum and endoplasmic reticulum Ca(2+)-dependent ATPase pumps with a 50% inhibitory concentration of approximately 30 nM. Treatment of androgen-independent prostate cancer cells of both rat and human origin with TG inhibits their endoplasmic reticulum Ca(2+)-dependent ATPase activity, resulting in a 3-4-fold elevation in the level of intracellular free Ca2+ (Cai) within minutes of exposure. Due to a secondary influx of extracellular Ca2+, this increase in Cai is sustained, resulting in morphological (cell rounding) and biochemical changes within 6-12 h (enhanced calmodulin, glucose regulated protein, and tissue transglutaminase expression, and decreased expression of the G1 cyclins). Within 24 h of exposure, androgen-independent prostatic cancer cells stop progression through the cell cycle, arrest out of cycle in G0, and irreversibly lose their ability to proliferate with a median effective concentration value of 31 nM TG. During the next 24-48 h, the genomic DNA of the G0-arrested cells undergoes double-strand fragmentation. This is followed by the loss of plasma membrane integrity and fragmentation of the cell into apoptotic bodies. During this process, there is no acidification in the intracellular pH. Using cells transfected with the avian M(r) 28,000 calbindin D Ca(2+)-buffering protein, it was demonstrated that the programmed death initiated by TG is critically dependent upon an adequate (i.e., 3-4-fold) sustained (> 1 h) elevation in Cai and not depletion of the endoplasmic reticulum pools of Ca2+. These results demonstrate that TG induces programmed cell death in androgen-independent prostatic cancer cells in a dose-dependent manner and that this death does not require proliferation or intracellular acidification but is critically dependent upon an adequate, sustained (i.e., > 1 h) elevation in Cai.
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PMID:The role of calcium, pH, and cell proliferation in the programmed (apoptotic) death of androgen-independent prostatic cancer cells induced by thapsigargin. 795 63

Provision of Ca2+ for egg shell calcification in the avian uterus [egg shell gland (ESG)] derives mostly from vitamin D-dependent intestinal Ca2+ absorption from the diet. Ca2+ absorption is strongly linked to the intestinal vitamin D-dependent calbindin D28K (D28K) concentration. The laying hen ESG also contains D28K, and again, Ca2+ transport into the shell appeared to be linked to the ESG D28K concentration. However, evidence is now presented that ESG D28K synthesis may be estradiol (E2) dependent and vitamin D independent under certain conditions. One-day-old female chicks fed a vitamin D-free diet for as long as 6 weeks and then repeatedly injected im with E2 for up to 3 more weeks developed frank rickets, but possessed precociously matured reproductive tracts. While the tiny presumptive ESGs of nonestrogenized vitamin D-depleted chicks were devoid of D28K, the highly developed ESG, including the isthmus, of estrogenized chicks contained D28K. The ESGs of nonestrogenized, vitamin D-replete chicks also exhibited no development or detectable D28K. Regardless of whether vitamin D depleted or replete, estrogenized chick ESG contained similar D28K and D28K mRNA concentrations. Immunohistochemical techniques showed that the endometrial cellular localization of both D28K and Ca(2+)-ATPase (Ca2+ pump) in estrogenized chicks was similar to that in mature laying hens. There was no trace of D28K, nor was there any stimulation of Ca2+ absorption, in duodenum of vitamin D-free, immature chicks regardless of E2 treatment. As expected, both D28K and D28K mRNA were present in vitamin D-replete chick duodenum. We conclude that in E2-treated chicks, ESG D28K gene expression may be vitamin D independent and E2 dependent. This is the first clear demonstration of hormone-dependent tissue-specific D28K gene expression in the chick.
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PMID:Tissue-specific regulation of shell gland calbindin D28K biosynthesis by estradiol in precociously matured, vitamin D-depleted chicks. 841 23

A thiazide sensitive Na-Cl cotransporter, rTSC1, has recently been cloned from a rat kidney cortex cDNA library. The molecular regulation and nephron localization of this protein is unknown. The purpose of this study was to examine the nephron distribution and subcellular localization of the rTSC1 protein in the rat kidney. In situ hybridization showed rTSC1 transcripts were localized to short, convoluted tubule segments in the kidney cortex. Polyclonal antibodies raised against a 110 amino acid segment from the amino terminus of rTSC1 recognized three major bands of 135, 140 and 155 kDa on Western blotting of membrane protein from cortex but not outer medulla of the rat kidney. Immunofluorescence studies using the antibody alone and in double labeling experiments with antibodies against the H+ ATPase and calbindin D28, showed intense labeling of apical membranes in the distal nephron beginning in the initial distal convoluted tubule and terminating within the connecting tubule. The intensity of labeling diminished from proximal to distal sites along the distal tubule. Ultrastructural studies by immunoelectron microscopy showed the cotransporter protein to be localized predominately on apical microvilli of the distal convoluted tubule cells. These results are consistent with rTSC1 encoding the apical thiazide sensitive Na-Cl cotransporter in the distal tubule.
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PMID:Localization of the thiazide sensitive Na-Cl cotransporter, rTSC1 in the rat kidney. 880 86

The 1 alpha,25-dihydroxyvitamin D3 [1,25(OH)2D3]-induced expression of Na+/Ca2+ exchanger, Ca(2+)-adenosinetriphosphatase (Ca(2+)-ATPase), and calbindin-D28k was investigated in the rabbit distal nephron. Immunocytochemical studies in rabbit kidney sections revealed colocalization of the three Ca2+ transport proteins in the majority of cells in the distal nephron, including connecting tubules and cortical collecting ducts. Subsequently, rabbit connecting and cortical collecting tubule cells were immunodissected and cultured on permeable supports. Immunocytochemical analysis of the cultured cells by confocal microscopy revealed that Na+/Ca2+ exchanger and Ca(2+)-ATPase were present at the basolateral membrane, whereas calbindin-D28k was evenly distributed throughout the cytosol. Concomitant with an increase in Ca2+ transport, 1,25(OH)2D3 increased calbindin-D28k protein and RNA content two- to threefold, as determined by Northern and Western blotting. By contrast, neither Na+/Ca2+ exchanger nor Ca(2+)-ATPase RNA or protein content was noticeably altered. Our findings suggest that 1,25(OH)2D3 stimulation of transcellular Ca2+ transport in primary cultures of rabbit cortical collecting system cells involves an increase in the gene expression of calbindin-D28k but not of Na+/Ca2+ exchanger and Ca(2+)-ATPase.
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PMID:Localization and regulation by vitamin D of calcium transport proteins in rabbit cortical collecting system. 894 92

We investigated the effects of 1 alpha,25-dihydroxyvitamin D3 [1,25(OH)2D3] on paracellular intestinal Ca2+ absorption by determination of transepithelial electric resistance (TEER), as a measure of tight-junction ion permeability and bidirectional transepithelial 45Ca2+ fluxes in confluent Caco-2 cell cultures. The rise of TEER to steady-state levels of approximately 2,000 omega.cm2 was significantly attenuated by 1,25(OH)2D3 (by up to 50%) in a dose-dependent fashion between 10(-11) and 10(-8) M. Synthetic analogs of 1,25(OH)2D3, namely, 1 alpha,25-dihydroxy-16-ene,23-yne-vitamin D3 and 1 alpha,25-dihydroxy-26,27-hexafluoro-16-ene,23-yne-vitamin D3, exhibited similar biopotency, whereas their genomically inactive 1-deoxy congeners were only marginally effective. Enhancement of transepithelial conductance of Caco-2 cell monolayers by vitamin D was accompanied by a significant increase in bidirectional transepithelial 45Ca2+ fluxes. Although 1,25(OH)2D3 also induced cellular 45Ca2+ uptake from the apical aspect of Caco-2 cell layers and upregulated the expression of calbindin-9kDa mRNA, no significant contribution of the Ca(2+)-adenosinetriphosphatase-mediated transcellular pathway to transepithelial Ca2+ transport could be detected. Therefore stimulation of Ca2+ fluxes across confluent Caco-2 cells very likely results from a genomic effect of vitamin D sterols on assembly and permeability of tight-junctional complexes.
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PMID:Vitamin D increases tight-junction conductance and paracellular Ca2+ transport in Caco-2 cell cultures. 948 94

Morphometric analyses of cultured rat Purkinje neurons, visualized with anti-calbindin, demonstrated that elevated KCl (10 mM) significantly increased dendritic outgrowth and branching. The response was blocked by NiCl2 (50 microM; R-type Ca2+ channel antagonist). Cells grown in low external Ca2+ (100 nM) showed no loss of responsiveness to elevated potassium. However, thapsigargin (1 microM; Ca(2+)-ATPase blocker) inhibited dendrite outgrowth, suggesting that intracellular calcium stores may be important in governing development.
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PMID:Morphological consequences of altered calcium-dependent transmembrane signaling on the development of cultured cerebellar Purkinje neurons. 960 10

Adenosine 5'-triphosphatase (ATPase) plays a role in the process of energy conversion in the controlled hydrolysis of ATP. The effect of Ca2+ -binding protein on ATPase activity in the brain cytosol of rats of different ages was investigated. ATPase activity in the brain cytosol of 50-week-old rats was significantly decreased as compared with that of 5-week-old rats. The presence of calcium chloride (10(-5) and 10(-4) M) in the enzyme reaction mixture caused a significant increase in ATPase activity in the brain cytosol of rats of different ages. This increase was not altered by trifluoperazine (2x10(-5) M), an antagonist of calmodulin. Calmodulin (5 microg/ml), calbindin (5 microg/ml) or S-100A protein (10 microg/ml), a Ca2+ -binding protein, had no effect on ATPase activity. Meanwhile, regucalcin (10(-9) M), which is present in brain, significantly decreased ATPase activity in young and older rats. However, the effect of regucalcin was weakened by the presence of Ca2+ (10(-5) M). The addition of anti-regucalcin monoclonal antibody in the reaction mixture caused a significant elevation of ATPase activity; this increase was completely abolished by addition of regucalcin (10(-9) M). The present study suggests that regucalcin plays an inhibitory role in the regulation of ATPase activity in the brain cytosol of rats of different ages.
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PMID:Effect of calcium-binding protein on adenosine 5'-triphosphatase activity in the brain cytosol of rats of different ages: the inhibitory role of regucalcin. 1022 Feb 91

The epithelial Ca(2+) channel (ECaC), which is exclusively expressed in 1,25-dihydroxyvitamin D(3)-responsive tissues, i.e., kidney, intestine, and placenta, is postulated to constitute the initial step in the process of transcellular Ca(2+) transport. To strengthen this postulated function, the present study compares the segmental and cellular distribution of ECaC and the other Ca(2+) transport proteins known to be involved in transcellular Ca(2+) transport. In rabbit kidney, ECaC mRNA and protein expression were primarily present in the connecting tubule. Immunopositive staining for the ECaC protein was exclusively found at the apical domain of this tubular segment. Importantly, ECaC completely colocalized with calbindin-D(28K), Na(+)-Ca(2+) exchanger (NCX), and plasma membrane Ca(2+) -ATPase (PMCA). A minority of cells along the distal tubule lacked immunopositive staining for ECaC and the other Ca(2+) transporting proteins. These negative cells were identified as intercalated cells. In intestine, ECaC was present in a thin layer along the apical membrane of the duodenal villus tip, whereas the crypt and goblet cells were negative. Again, a complete colocalization was observed between ECaC, calbindin-D(9K), and PMCA. In contrast to the kidney, NCX could not be detected in duodenum. The present finding that ECaC completely colocalizes with the Ca(2+) transport proteins in the connecting tubule and duodenum, together with its apical localization, further substantiates the postulated function of ECaC as the gatekeeper of active Ca(2+) (re)absorption.
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PMID:Localization of the epithelial Ca(2+) channel in rabbit kidney and intestine. 1086 72

Calbindin-D28k is an intracellular protein with high affinity for calcium. In the kidney, this protein is exclusively localized in the distal tubule and in the proximal part of the collecting ducts. Functionally, calbindin-D28k is supposed to be involved in the regulation of the reabsorption of calcium and possibly magnesium in the distal nephron though the exact regulatory mechanisms are not yet known. Thus, several theories regarding the functional role of calbindin-D28k have been proposed: The carrier theory describes calbindin-D28k as a transport protein which binds calcium and then transports it from the luminal to the basolateralcell membrane. The buffer theory assumes that calbindin-D28k functions by binding calcium ions to prevent intracellular calcium concentrations from reaching toxic levels. The activator theory describes that calbindin-D28k increases the activity of calcium channels or the enzymatic activity of the Ca++-Mg++-ATPase in the luminal membrane and thereby increases the tubular reabsorption of calcium. The renal calbindin-D28k is dependent upon vitamin D. Pharmacological doses of the active vitamin D metabolite 1,25-(OH)2D increases the concentrations of renal calbindin-D28k, whereas the concentration of calbindin-D28k is low in conditions with reduced levels of circulating 1,25-(OH)2D. Likewise, plasma calcium concentrations, uremia and hypertension affect calbindin-D28k expression. However, several studies have rendered probable the effect of additional factors in the regulation of renal calbindin-D28k. The aim of the present dissertation therefore was to examine the regulation of renal calbindin-D28k in a series of physiological and pathophysiological conditions established in vivo in the rat. A possible correlation between hypertension and calbindin-D28k was examined in three models of experimental hypertension: the genetically defined spontaneous hypertensive rat, the salt-sensitive Dahl rat and the renovascular hypertensive rat. These three models clearly demonstrated three separate patterns in the calcium metabolism, but the studies were unable to support a role for calbindin-D28k in the development of hypertension. In all three models the development of hypertension caused an increased plasma 1,25-(OH)2D. This increase was accompanied by either unaltered or reduced levels of renal calbindin-D28k possibly secondary to a cellular resistance against 1,25-(OH)2D. Magnesium binds to calbindin-D28k with a relatively high affinity. The regulation of urinary magnesium excretion takes place in the distal tubule where calbindin-D28k is found in high concentrations. Therefore, a possible relation between magnesium and calbindin-D28k was examined. The studies demonstrated not previously known connections between magnesium intake, urinary magnesium excretion and renal calbindin-D28k which suggests that this protein is involved in the regulation of magnesium homeostasis by the kidney. Calcitonin increases the reabsorption of calcium in the distal tubule. Therefore, the effect ofcalcitonin on renal calbindin-D28k was examined both by eliminating the endogeneous calcitonin production by a selective thyroidectomy followed by an autotransplantation of the parathyroid glands and further by infusion of calcitonin. These studies demonstrated unchanged concentrations of renal calbindin-D28k. It was concluded that the increased calcium reabsorption induced by calcitonin in the distal tubule is not mediated by calbindin-D28k. Urinary calcium excretion is in part regulated by the action of PTH on calcium reabsorption in the distal nephron. Previous reports of increased expression of renal calbindin-D28k in uremic rats led us to suggest that secondary hyperparathyroidism associated with uremia induced the synthesis of renal calbindin-D28k. Therefore, the effect of PTH was examined in a study comprising selective parathyroidectomy and infusions of PTH, PTHrP, 1,25-(OH)2D and calcium. (ABSTRACT TRUNCATED)
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PMID:Regulation of renal calbindin-D28K. 1109 7


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