[On the determination of the mineral content in erythrocytes]

The non-selective voltage-activated cation channel in the human red blood cell membrane: reconciliation between two conflicting reports and further characterisation

Using the patch-clamp technique, the non-selective, voltage-activated cation channel in the human red blood cell (RBC) membrane was further characterised. Activity of the cation channel could be demonstrated at a range of salt concentrations with the current-voltage characteristics for monovalent cations going from linear to superlinear functions, depending on the cation concentration in the range of 100-500 mM. The non-selective voltage-activated cation channel was demonstrated to be permeable to the divalent cations Ca2+ and Ba2+, and even Mg2+. The current-voltage relations for the divalent cations were superlinear even at 75 mM salt concentration, but indicated outward rectification in contrast to the I-V curve for monovalent cations. The degree of activation at a given membrane potential depended strongly on the prehistory of the channel. The gating exhibited hysteretic-like behaviour, since the quasi steady-state deactivation and activation curves were displaced by approximately 25 mV. This result fully explains apparent discrepancies between V0.5-values previously obtained by slightly different experimental protocols. The possible physiological/pathophysiological role of the channel is discussed in the context of the demonstrated permeability for divalent cations.

Carrier-mediated residual K+ and Na+ transport of human red blood cells

Residual, i.e., (ouabain, bumetanide, and EGTA)-insensitive K+ and Na+ influxes as well as effluxes of human red blood cells are enhanced in isotonic solutions of low (NaCl + KCl) concentration using sucrose to maintain constant osmolarity. Various carrier models were tested to fit the experimental data of these fluxes simultaneously. The residual K+ and Na+ fluxes can be described on the basis of a carrier mechanism of competing substrates with modifier sites.

[Sodium-potassium-adenosine triphosphatase-activity in red cell ghosts of patients with essential hypertension (author's transl)]

Increased sodium concentration and high influx of Na22 are reported in erythrocytes of patients with essential hypertension. It was speculated, that these findings are due to a disturbed transport for sodium across red cell membranes. We found a significantly increased activity of the ouabainsensitive Na-K-ATP'ase in red cell ghosts of 27 patients with essential hypertension compaired with 32 normotensive controls. There existed no difference in Mg-ATP'ase-activity between the two groups. These findings suggest an increased activity of the Na-pump in red cell membranes of patients with essential hypertension.