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Intracellular potassium in cells of the distal tubule (1972)

Khuri, R. N. ; Agulian, S. K. ; Kalloghlian, A.

Springer

Pflügers Archiv 335 (1972), S. 297-308

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ISSN: 1432-2013

Keywords: Potassium Microelectrode ; Liquid Ion-Exchange Microelectrode ; Intracellular Potassium ; Kidney Cell Potassium ; Distal Tubule Cell Potassium

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Using a new double-barreled K+-selective liquid ion-exchange micro-electrode effective intracellular [K+] and the peritubular PD were measured simultaneously in single cells of the distal tubule of the rat kidney. The transepithelial PD was measured in the same kidney. A mean [K+] of 46.5±1.6 mM was obtained in the distal tubule cells of normal rats. The effective intracellular [K+] increased significantly to 60.5±2.1 mM with chronic K+ loading and to 51.5±0.9 mM with metabolic alkalosis, and decreased significantly to 36.5±2.6 mM with chronic K+ depletion and to 38.7±1.4 mM with metabolic acidosis. The luminal membrane PD was depolarized in the kaliuretic states of K+ loading and alkalosis and hyperpolarized in the kaliupenic states of K+ depletion and acidosis. Thus the summation of the observed chemical and electrical driving forces between the cellular and luminal compartments could quantitatively account for the passive entry of K+ into the lumen of the distal tubule under the different metabolic states.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00586220

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Electrochemical potentials of potassium in proximal renal tubule of rat (1974)

Khuri, R. N. ; Agulian, S. K. ; Bogharian, K.

Springer

Pflügers Archiv 346 (1974), S. 319-326

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ISSN: 1432-2013

Keywords: Potassium Microelectrode ; Liquid Ion-Exchange Microelectrode ; Intracellular Potassium ; Kidney Cell Potassium ; Proximal Tubule Cell Potassium ; Rat Proximal Tubule

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary By means of double-barreled K+ selective liquid ion-exchange microelectrodes, the electrical potential differences across individual cell membranes were determined simultaneously with the K+ concentration in single cellular elements of the proximal tubular epithelium of the rat. Proximal tubular fluid [K+] and plasma [K+] were also determined electrometrically. Thin cortical slices of the rat kidney analyzed by flame photometry yielded a mean [K+] of 136.3±4.2 mM per kg cell water. This electrometric study yielded a mean intracellular [K+] of 54.4±2.5 mM, a value which is about 1/3 of the total K+ content of proximal tubule cells. The electrometric mean proximal tubule fluid (second half) [K+] was 3.7±0.1 mM while plasma [K+] was 4.3±0.1 mM, yielding a fluid/plasma concentration ratio of 0.85±0.02. The calculated K+ equilibrium potentials (E K )across the two individual from their respective measured membrane electrical PDs. This signifies that K+ exhibits an electrochemical equilibrium distribution across the luminal and peritubular cell boundaries of the proximal tubular epithelium. Thus it is no longer necessary to postulate the presence of an active K+ pump in either the luminal or peritubular cell membranes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00596187

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