Calcium at the surface of cardiac plasma membrane vesicles: cation binding, surface charge screening, and Na-Ca exchange

Calcium binding and Na-Ca exchange activity were measured in isolated cardiac plasma membrane vesicles under various ionic conditions. A model was developed to describe the Ca binding characteristics of cardiac sarcolemmal vesicles using the Gouy-Chapman theory of the diffuse double layer with speci...

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Bibliographic Details
Published in:The Journal of membrane biology 1985-01, Vol.85 (3), p.251-261
Main Authors: BERS, D. M, PHILIPSON, K. D, PESKOFF, A
Format: Article
Language:English
Subjects:
Animals
Biological and medical sciences
calcium
Calcium - metabolism
Carrier Proteins - metabolism
Cell Membrane - metabolism
Dogs
Fundamental and applied biological sciences. Psychology
Heart
Heart Ventricles - metabolism
Hydrogen-Ion Concentration
Kinetics
mathematical models
Mathematics
Models, Biological
Myocardium - metabolism
Rabbits
sarcolemma
Sarcolemma - metabolism
sodium
Sodium - metabolism
Sodium-Calcium Exchanger
Vertebrates: cardiovascular system
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Summary:Calcium binding and Na-Ca exchange activity were measured in isolated cardiac plasma membrane vesicles under various ionic conditions. A model was developed to describe the Ca binding characteristics of cardiac sarcolemmal vesicles using the Gouy-Chapman theory of the diffuse double layer with specific cation binding to phospholipid carboxyl and phosphate groups. The surface association constants used for Ca, Na, K and H binding to both of these groups were 7,0.63, 0.3 and 3800 M-1, respectively. This model allows the estimation of surface [Ca] under any specific ionic conditions. The effects of the divalent screening cation, dimethonium, on Ca binding and Na-Ca exchange were compared. Dimethonium had no significant effect on Ca binding at high ionic strength (150 mM KCl), but strongly depressed Ca binding at low ionic strength. Dimethonium had no significant effect on Na-Ca exchange (Na-inside dependent Ca influx) at either high or low ionic strength. These results suggest that the Ca sites of the Na-Ca exchanger are in a physical environment where they are either not exposed to or not sensitive to surface [Ca].
ISSN:0022-2631
1432-1424
DOI:10.1007/BF01871520