Properties of an electrogenic sodium-potassium pump in isolated canine Purkinje myocytes.

AUTOR(ES)

Cohen, I S

RESUMO

1. Purkinje myocytes were isolated from canine Purkinje strands by collagenase exposure and gentle trituration. The myocytes were studied by a switched single-micro-electrode voltage-clamp technique at 37 degrees C in Tyrode solution containing 8 mM-K+ and 2 mM-Ca2+. 2. The dose-response relation for the cardiotonic steroid dihydroouabain (DHO) was obtained by measuring the change in membrane current caused by application of concentrations of 1-100 microM. The KD obtained in fourteen experiments was 3.7 +/- 1.1 microM (mean +/- S.E. of mean). 3. We employed 100 microM-DHO (a concentration more than 25-fold greater than the KD) to estimate the resting pump current (Ip) in the isolated myocytes. A value of 0.27 +/- 0.02 microA microF-1 (mean +/- S.E. of mean, n = 32) was obtained. 4. Myocytes were also exposed to K+-free solution for a period of 200 s. On return to K+-containing Tyrode solution there was a slowly decaying outward current. The time constant of decay of this pump current transient was 87 +/- 8 s (mean +/- S.E. of mean, n = 8). The integral beneath this transient was used to obtain a second estimate of the resting pump current. In four preparations where exposures in DHO and in K+-free solutions were employed the ratio Ip, DHO/Ip, K-free was 1.76 +/- 0.15 (mean +/- S.E. of mean). 5. From the magnitude of resting pump current, in the presence of total pump blockade the Na+ activity should rise at a rate of 1.3 mM min-1. 6. Reducing [K+]o from 8 to 1 mM reduced Ip by more than 40% initially. Ip then slowly increased over the next 30 min. These results suggest that the steady-state inward background current is not greatly altered by changes in [K+]o, and that [Na+]i rises to a new level. The changes in Ip obtained at early times following reduction of [K+]o to 1 or 0.5 mM (t less than 1.75 min) were used to estimate the Km for external K+; a value of 0.8 mM was obtained. 7. The results suggest that the properties of the Na+-K+ pump in isolated canine Purkinje myocytes are similar to those in canine Purkinje strands. This argues against major distortions of measured pump properties in the canine Purkinje strand and for the physiological state of the Na+-K+ pump in the isolated Purkinje myocyte.

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