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Low concentrations of ouabain stimulate Na/Ca exchange in neurons (1996)

Saghian, Alex A. ; Ayrapetyan, Sinerik N. ; Carpenter, David O.

Springer

Cellular and molecular neurobiology 16 (1996), S. 489-498

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ISSN: 1573-6830

Keywords: sodium efflux ; rubidium influx ; cyclic AMP ; calcium transport ; snail ganglia

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary 1. The effect of low concentrations of ouabain on22Na efflux,86Rb influx,45Ca uptake and cyclic AMP levels were studied in snail ganglia. Ouabain, at concentrations below that which inhibits the Na−K pump as monitored by86Rb influx, activated “reverse mode” Na/Ca exchange, as indicated by an increased22Na efflux and45Ca influx. 2. With electrophysiologic recordings ouabain, in the presence of K+-free saline to block Na/K transport, caused a membrane hyperpolarization. These concentrations of ouabain also caused elevation of intracellular cyclic AMP levels. 3. We suggest that the ouabain-induced stimulation of Na efflux is due to a stimulation of reverse Na/Ca exchange. since Na/Ca exchange is electrogenic, these observations are most consistent with ouabain stimulation of Na/Ca exchange in a reversed direction (intracellular Na for extracellular Ca). 4. The effect on Na/Ca exchange may be secondary to a rise in intracellular cyclic AMP.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02150229

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Magnetic fields alter electrical properties of solutions and their physiological effects (1994)

Ayrapetyan, Sinerik N. ; Grigorian, Khachik V. ; Avanesian, Arpat S. ; [et al.]

New York, NY [u.a.] : Wiley-Blackwell

Bioelectromagnetics 15 (1994), S. 133-142

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ISSN: 0197-8462

Keywords: magnetic field ; neuron ; conductance ; cell volume ; Ca ; water of hydration ; cyclic nucleotide ; Life and Medical Sciences ; Occupational Health and Environmental Toxicology

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Biology , Physics

Notes: Calcium chloride and snail physiological salt solutions were exposed to static magnetic fields (2.3-350 mT), and the physical properties of the solutions as well as their biologic effects were studied. Our preliminary observations show that these fields alter physicochemical properties of CaCl2 solutions and the functional effects of physiological solutions. Experiments on CaCl2 solutions demonstrated field-dependent changes of electrical conductivity, with the magnitude and the direction of conductivity change being a function of both concentration and field intensity. The changes in conductivity were maintained for periods in excess of 1 h after exposure. Conductivity changes were not found after exposure of physiological solutions to static magnetic fields, but changes of biological consequence did occur. Other experiments showed that there were several changes in cellular function observed in ganglia and isolated neurons of Helix pomatia when the perfusing medium was changed from the normal physiologic solution to the same solution after exposure to magnetic fields. These changes include membrane depolarization and increased action potential discharge, reduced uptake of Ca into cells, altered content of cyclic nucleotides in ganglia, and increased volume of isolated cell bodies. A change in hydration of calcium ions may be one of the consequences of magnetic-field exposure, and in physiological solutions this change may have functional consequences. © 1994 Wiley-Liss, Inc.

Additional Material: 3 Ill.