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Characterization of calcium uptake into rough endoplamic reticulum of rat pancreas (1984)

Bayerdörffer, E. ; Streb, H. ; Eckhardt, L. ; [et al.]

Springer

The journal of membrane biology 81 (1984), S. 69-82

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ISSN: 1432-1424

Keywords: Ca2+ transport ; Ca2+ pools ; permeabilized cells ; rough endoplasmic reticulum ; pancreatic acinar cells

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary ATP-dependent Ca2+ uptake into isolated pancreatic acinar cells with permeabilized plasma membranes, as well as into isolated endoplasmic reticulum prepared from these cells, was measured using a Ca2+-specific electrode and45Ca2+. Endoplasmic reticulum was purified on an isopycnic Percoll gradient and characterized by marker enzyme distribution. When compared to the total homogenate, the typical marker for the rough endoplasmic reticulum RNA was enriched threefold and the typical marker for the plasma membrane Na+,K+(Mg2+)ATPase was decreased 20-fold. When different fractions of the Percoll gradient were compared,45Ca2+ uptake correlated with the RNA content and not with the Na+,K+(Mg2+)ATPase activity. The characteristics of nonmitochondrial Ca2+ uptake into leaky isolated cells and45Ca2+ uptake into isolated endoplasmic reticulum were very similar: Calcium uptake was maximal at 0.3 and 0.2 mmol/liter free Mg2+, at 1 and 1 mmol/liter ATP, at pH 6.0 and 6.5, and free Ca2+ concentration of 2 and 2 μmol/liter, respectively. Calcium uptake decreased at higher free Ca2+ concentration.45Ca2+ uptake was dependent on monovalent cations (Rb+〉K+〉Na+〉Li+〉choline+) and different anions (Cl−〉Br−〉SO 4 2− 〉NO 3 − 〉I−〉cyclamate−〉SCN−) in both preparations. Twenty mmol/liter oxalate enhanced45Ca2+ uptake in permeabilized cells 10-fold and in vesicles of endoplasmic reticulum, fivefold. Calcium oxalate precipitates in the endoplasmic reticulum of both preparations could be demonstrated by electron microscopy. The nonmitochondrial Ca2+ pool in permeabilized cells characterized in this study has been previously shown to regulate the cytosolic free Ca2+ concentration to 0.4 μmol/liter. Our results provide firm evidence that the endoplasmic reticulum plays an important role in the regulation of the cytosolic free Ca2+ concentration in pancreatic acinar cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01868811

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Electrogenic calcium transport in plasma membrane of rat pancreatic acinar cells (1985)

Bayerdörffer, E. ; Eckhardt, L. ; Haase, W. ; [et al.]

Springer

The journal of membrane biology 84 (1985), S. 45-60

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ISSN: 1432-1424

Keywords: electrogenic Ca2+ transport ; plasma membrane ; rough endoplasmic reticulum ; pancreatic acinar cells

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary ATP-dependent45Ca2+ uptake was investigated in purified plasma membranes from rat pancreatic acinar cells. Plasma membranes were purified by four subsequent precipitations with MgCl2 and characterized by marker enzyme distribution. When compared to the total homogenate, typical marker enzymes for the plasma membrane, (Na+,K+)-ATPase, basal adenylate cyclase and CCK-OP-stimulated adenylate cyclase were enriched by 43-fold, 44-fold, and 45-fold, respectively. The marker for the rough endoplasmic reticulum was decreased by fourfold compared to the total homogenate. Comparing plasma membranes with rough endoplasmic reticulum, Ca2+ uptake was maximal with 10 and 2 μmol/liter free Ca2+, and half-maximal with 0.9 and 0.5 μmol/liter free Ca2+. It was maximal at 3 and 0.2 mmol/liter free Mg2+ concentration, at an ATP concentration of 5 and 1 mmol/liter, respectively, and at pH 7 for both preparations. When Mg2+ was replaced by Mn2+ or Zn2+ ATP-dependent Ca2+ uptake was 63 and 11%, respectively, in plasma membranes; in rough endoplasmic reticulum only Mn2+ could replace Mg2+ for Ca2+ uptake by 20%. Other divalent cations such as Ba2+ and Sr2+ could not replace Mg2+ in Ca2+ uptake. Ca2+ uptake into plasma membranes was not enhanced by oxalate in contrast to Ca2+ uptake in rough endoplasmic reticulum which was stimulated by 7.3-fold. Both plasma membranes and rough endoplasmic reticulum showed cation and anion dependencies of Ca2+ uptake. The sequence was K+〉Rb+〉Na+〉Li+〉choline+ in plasma membranes and Rb+≥K+≥Na+〉Li+〉choline+ for rough endoplasmic reticulum. The anion sequence was Cl−≥Br−≥I−〉SCN−〉NO 3 − 〉isethionate− 〉cyclamate−〉gluconate−〉SO 4 2− ≥glutarate− and Cl−〉Br〉gluconate〉SO 4 2− 〉NO 3 − 〉I−〉cyclamate−≥SCN−, respectively. Ca2+ uptake into plasma membranes appeared to be electrogenic since it was stimulated by an inside-negative K+ and SCN diffusion potential and inhibited by an inside-positive diffusion potential. Ca2+ uptake into rough endoplasmic reticulum was not affected by diffusion potentials. We assume that the Ca2+ transport mechanism in plasma membranes as characterized in this study represents the extrusion system for Ca2+ from the cell that might be involved in the regulation of the cytosolic Ca2+ level.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01871647

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Calcium uptake into acini from rat pancreas: Evidence for intracellular ATP-dependent calcium sequestration (1982)

Wakasugi, H. ; Kimura, T. ; Haase, W. ; [et al.]

Springer

The journal of membrane biology 65 (1982), S. 205-220

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ISSN: 1432-1424

Keywords: pancreas ; Ca2+ pools ; Ca2+ pump ; acini ; saponin ; secretagogue

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Intracellular ATP-dependent Ca2+ sequestration mechanisms were studied in isolated dispersed rat pancreatic acini following treatment with saponin or digitonin to disrupt their plasma membranes. In the presence of45Ca2+ concentrations 〈10−6 mol/liter, addition of 5 mmol/liter ATP caused a rapid increase in45Ca2+ uptake exceeding the control by fivefold. ADP mimicked the ATP effect by 50 to 60%, whereas other nucleotides such as AMP-PNP, AMP-PCP, CTP, UTP, ITP, GTP, cAMP and cGMP did not. Maximal ATP-promoted Ca2+ uptake was obtained at 10−5 mol/liter Ca2+ uptake by mitochondrial inhibitors was dependent on the Ca2+ concentration, indicating the presence of different Ca2+ storage systems. Whereas the apparent half-saturation constant found for mitochondrial Ca2+ uptake was ∼4.5×10−7 mol/liter, in the presence of antimycin and oligomycin (nonmitochondrial uptake) it was ∼1.4×10−8 mol/liter. In the absence of Mg2+ both ATP- and ADP-promoted Ca2+ uptake was nearly abolished. The Ca2+ ionophore and mersalyl blocked Ca2+ uptake. Electron microscopy showed electrondense precipitates in the rough endoplasmic reticulum of saponintreated cells in the presence of Ca2+, oxalate and ATP, which were absent in intact cells and in saponin-cells without ATP or pretreated with A23187. The data suggest the presence of mitochondrial and nonmitochondrial ATP-dependent Ca2+ storage systems in pancreatic acini. The latter is likely to be located in the rough endoplasmic reticulum.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01869964

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Na+/Ca2+ countertransport in plasma membrane of rat pancreatic acinar cells (1985)

Bayerdörffer, E. ; Haase, W. ; Schulz, I.

Springer

The journal of membrane biology 87 (1985), S. 107-119

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ISSN: 1432-1424

Keywords: Na+/Ca2+ countertransport ; plasma membrane ; pancreatic acinar cells ; amiloride

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary The presence of a coupled Na+/Ca2+ exchange system has been demonstrated in plasma membrane vesicles from rat pancreatic acinar cells. Na+/Ca2+ exchange was investigated by measuring45Ca2+ uptake and45Ca2+ efflux in the presence of sodium gradients and at different electrical potential differences across the membrane (=Δϕ) in the presence of sodium. Plasma membranes were prepared by a MgCl2 precipitation method and characterized by marker enzyme distribution. When compared to the total homogenate, the typical marker for the plasma membrane, (Na++K+)-ATPase was enriched by 23-fold. Markers for the endoplasmic reticulum, such as RNA and NADPH cytochromec reductase, as well as for mitochondria, the cytochromec oxidase, were reduced by twofold, threefold and 10-fold, respectively. For the Na+/Ca2+ countertransport system, the Ca2+ uptake after 1 min of incubation was half-maximal at 0.62 μmol/liter Ca2+ and at 20 mmol/liter Na+ concentration and maximal at 10 μmol/liter Ca2+ and 150 mmol/liter Na+ concentration, respecitively. When Na+ was replaced by Li+, maximal Ca2+ uptake was 75% as compared to that in the presence of Na+. Amiloride (10−3 mol/liter) at 200 mmol/liter Na+ did not inhibit Na+/Ca2+ countertransport, whereas at low Na+ concentration (25 mmol/liter) amiloride exhibited dose-dependent inhibition to be 62% at 10−2 mol/liter. CFCCP (10−5 mol/liter) did not influence Na+/Ca2+ countertransport. Monensin inhibited dose dependently; at a concentration of 5×10−6 mol/liter inhibition was 80%. A SCN− or K+ diffusion potential (=Δϕ), being positive at the vesicle inside, stimulated calcium uptake in the presence of sodium suggesting that Na+/Ca2+ countertransport operates electrogenically, i.e. with a stoichiometry higher than 2 Na+ for 1 Ca2+. In the absence of Na+, Δϕ did not promote Ca2+ uptake. We conclude that in addition to ATP-dependent Ca2+ outward transport as characterized previously (E. Bayerdörffer, L. Eckhardt, W. Haase & 1. Schulz, 1985,J. Membrane Biol. 84:45–60) the Na+/Ca2+ countertransport system, as characterized in this study, represents a second transport system for the extrusion of calcium from the cell. Furthermore, the high affinity for calcium suggests that this system might participate in the regulation of the cytosolic free Ca2+ level.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01870657

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