ATP-dependent calcium transport in rat parotid basolateral membrane vesicles is modulated by membrane potential |
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Authors: | Indu S Ambudkar Bruce J Baum |
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Institution: | (1) Clinical Investigations and Patient Care Branch, National Institute of Dental Research, National Institutes of Health, 20892 Bethesda, Maryland |
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Abstract: | Summary The ATP-dependent Ca2+ transport activity (T. Takuma, B.L. Kuyatt and B.J. Baum,Biochem. J.
227:239–245, 1985) exhibited by inverted basolateral membrane vesicles isolated from rat parotid gland was further characterized. The activity was dependent on Mg2+. Phosphate (5mm), but not oxalate (5mm), increased maximum Ca2+ accumulation by 50%. Half-maximal Ca2+ transport was achieved at 70nm Ca2+ in EGTA-buffered medium while maximal activity required >1 m Ca2+ (V
max=54 nmol/mg protein/min). Optimal rates of Ca2+ transport were obtained in the presence of KCl, while in a KCl-free medium (mannitol or sucrose) 40% of the total activity was achieved, which could not be stimulated by FCCP. The initial rate of Ca2+ transport could be significantly altered by preimposed membrane potentials generated by K+ gradients in the presence of valinomycin. Compared to the transport rate in the absence of membrane potential, a negative (interior) potential stimulated uptake by 30%, while a positive (interior) potential inhibited uptake. Initial rates of Ca2+ uptake could also be altered by imposing pH gradients, in the absence of KCl. When compared to the initial rate of Ca2+ transport in the absence of a pH gradient, pH
i
=7.5/pH
o
=7.5; the activity was 60% higher in the presence of an outwardly directed pH gradient, pH
i
=7.5/pH
o
=8.5; while it was 80% lower when an inwardly directed pH gradient was imposed, pH
i
=7.5/pH
o
=6.2. The data show that the ATP-dependent Ca2+ transport in BLMV can be modulated by the membrane potential, suggesting therefore that there is a transfer of charge into the vesicle during Ca2+ uptake, which could be compensated by other ion movements. |
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Keywords: | Ca2+ transport plasma membrane parotid acinar cells membrane potential |
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