Time dependent and other possible changes of the intracellulard-glucose and Na+ concentration in the cortical tissue of rabbit kidney perfused ?in vitro?

Abstract

The mean intracellulard-glucose concentration (G_i), the ratio between G_i and the serosal extracellular concentration (G_i/G_e) and the cell Na⁺ (Na_i ⁺) were calculated on cortex slices at increasing times after their excision from two groups of kidneys perfused with blood containing 18.1±0.4 and 23.1±2.0 mmol·l⁻¹ plasma glucose concentration. The distribution ratios G_i/G_e, always lower than 1, were substantially unchanged up to at least 50s after removal of the tissue from the organ. Between these time limits the calculated G_i and G_i/G_e does not seem to be affected by a rapid glucose breakdown in the isolated tissue. Neither such low values depend on a degrading of the intra-extracellular Na⁺ concentration gradient, since this gradient scems to remain unchanged throughout the same time. In another group of experiments, in which phloretin was added to the perfusing blood (mean 0.6×10⁻³ mol·l⁻¹) at different glucose levels, the mean values of G_i/G_e in the cortical tissue were higher (in many cases >1) than those obtained in a group of control kidneys perfused in absence of phloretin. According to the presented data, the mean G_i and G_i/G_e values, as calculated by us, seem to correspond to those existing in the functioning tissue just before its excision. The already suggested view that the low values of G_i and G_i/G_e could depend on the possible existence of a mechanism actively extruding glucose from the basolateral membrane of tubular cells seems to be reinforced.