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Digitale Medien

Spatial and temporal patterns of intracellular calcium in colonic smooth muscle (1992)

Mayer, Emeran A. ; Kodner, Anatoly ; Sun, Xiao Ping ; [weitere]

Springer

The journal of membrane biology 125 (1992), S. 107-118

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ISSN: 1432-1424

Schlagwort(e): Ca2+ oscillations ; Ca2+ wave ; sarcoplasmic reticulum

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie , Chemie und Pharmazie

Notizen: Summary Intracellular calcium [Ca2+] i measurements in cell suspension of gastrointestinal myocytes have suggested a single [Ca2+] i transient followed by a steady-state increase as the characteristic [Ca2+] i response of these cells. In the present study, we used digital video imaging techniques in freshly dispersed myocytes from the rabbit colon, to characterize the spatiotemporal pattern of the [Ca2+] i signal in single cells. The distribution of [Ca2+] i in resting and stimulated cells was nonhomogeneous, with gradients of high [Ca2+] i present in the subplasmalemmal space and in one cell pole. [Ca2+] i gradients within these regions were not constant but showed temporal changes in the form of [Ca2+] i oscillations and spatial changes in the form of [Ca2+] i waves. [Ca2+] i oscillations in unstimulated cells (n = 60) were independent of extracellular [Ca2+] and had a mean frequency of 12.6 +1.1 oscillations per min. The baseline [Ca2+], was 171 ± 13 nm and the mean oscillation amplitude was 194 ± 12 nm. Generation of [Ca2+] i waves was also independent of influx of extracellular Ca2+. [Ca2+] i waves originated in one cell pole and were visualized as propagation mostly along the subplasmalemmal space or occasionally throughout the cytoplasm. The mean velocity was 23 +3 μm per sec (n = 6). Increases of [Ca2+] i induced by different agonists were encoded into changes of baseline [Ca2+] i and the amplitude of oscillations, but not into their frequency. The observed spatiotemporal pattern of [Ca2+] i regulation may be the underlying mechanism for slow wave generation and propagation in this tissue. These findings are consistent with a [Ca2+] i regulation whereby cell regulators modulate the spatiotemporal pattern of intracellularly generated [Ca2+] i oscillations.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF00233351

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Digitale Medien

Amiloride sensitivity of proton-conductive pathways in gastric and intestinal apical membrane vesicles (1992)

Wilkes, Jonathan M. ; Hirst, Barry H.

Springer

The journal of membrane biology 126 (1992), S. 115-122

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ISSN: 1432-1424

Schlagwort(e): amiloride ; brush-border membranes ; intestine ; Na+/H+ antiport ; parietal cell ; proton conductance

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie , Chemie und Pharmazie

Notizen: Summary Passive proton permeability of gastrointestinal apical membrane vesicles was determined. The nature of the pathways for proton permeation was investigated using amiloride. The rate of proton permeation (k H + was determined by addition of vesicles (pH i = 6.5) to a pH 8.0 solution containing acridine orange. The rate of recovery of acridine orange fluorescence after quenching by the acidic vesicles ranged from 4 × 10−3 (gastric parietal cell stimulation-associated vesicles; SAV) and 5 × 10−3 (duodenal brush-border membrane vesicles; dBBMV) to 11 × 10+−3 sec−1 (ileal BBMV; iBBMV). Amiloride, 0.03 and 0.1 mm, significantly reduced the rate of proton permeation in dBBMV and iBBMV, but not gastric SAV. The decreases in k H + were proportionately greater in iBBMV as compared with dBBMV. The presence of Na+/H+ exchange was demonstrated in both dBBMV and iBBMV by proton-driven (pH i 〈 pH o ) 22Na+ uptake. Evidence was also sought for the conductive nature of pathways for proton permeation. Intravesicular acidification, again determined by quenching of acridine orange fluorescence, was observed during imposition of K+-diffusion potential ([K+] i ≫ [K+ o ). In dBBMV and iBBMV, intravesicular acidification was enhanced in the presence of the K+-ionophore valinomycin, indicating that the native K+ permeability is rate limiting. In the presence of valinomycin, the K+-diffusion potential drove BBMV intravesicular acidification to levels close to the electrochemical potential. In gastric SAV, acidification was not limited by the K+ permeability. Valinomycin was without effect, but the K+/H+ ionophore nigericin enhanced acidification in gastric SAV, illustrating the low proton permeability of these membranes. Amiloride, 0.03–1 mm, resulted in concentration-dependent reductions of K+-diffusion potential-driven acidification in dBBMV and iBBMV but not in gastric SAV. These data demonstrate that proton permeation in the three membrane types is rheogenic. The sensitivity of the proton-conductive pathways in intestinal BBMV to high concentrations of amiloride correlated with the presence of the Na+/H+ antiport and indicates that this transmembrane protein may represent a pathway for proton permeation.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF00231910

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