Microinjection of arginase into enzyme-deficient cells with the isolated glycoproteins of sendai virus as fusogen

Bumetanide is a potent diuretic drug which has some structural features in common with furosemide. The steady-state exchange of K⁺ and Cl^? was investigated in Ehrlich ascites tumor cells treated with bumetanide. This agent did not alter the cellular content of K⁺ or Cl^? but the self-exchange of both ions was depressed. K⁺ self-exchange was inhibited by 55% at bumetanide concentrations as low as 10^?6 M. Cl^? self-exchange was less sensitive to this drug but at low concentrations (between 10^?6 and 10^?3 M) bumetanide was a more effective inhibitor of Cl^? transfer than furosemide. The steady-state K⁺ flux of cells equilibrated in NO₃^? media was compared with the K⁺ flux in cells treated with 10^?4 or 10^?3 M bumetanide; the Cl^? -sensitive K⁺ exchange was equivalent to the bumetanide-sensitive K⁺ exchange. Since the results suggested that a bumetanide-sensitive (Cl^?, K⁺) cotransport could be operative in steady-state cells, the stoichiometry of the bumetanide-sensitive fluxes was determined by measuring Cl^? and K⁺ fluxes simultaneously in the same cell suspension. At $\text{5 · 10}{}^{\mathrm{?4}}$ and 10^?3 M bumetanide concentrations, the ratio of these fluxes was $\text{0.98 ? 0.07 (}\text{S.E.}\text{)}\text{and}\text{1.04 ? 0.06}$, respectively, consistent with the postulated cotransport mechanism. At 10^?4 and 10^?5 M, however, the ratio of the bumetanide-sensitive Cl^?/K⁺ flux was significantly less than 1.0. Since the magnitude of the bumetanide-sensitive K⁺ flux at 10^?4 M was close to that of the Cl^?-sensitive flux, a ratio of less than 1.0 at this drug level indicates that Cl^? sensitivity and drug sensitivity may not reflect inhibition of the same process under all circumstances.