RENAL TUBULAR TRANSPORT OF GENTAMICIN IN THE RAT

The renal handling of gentamicin in the rat was examined by clearance, microinjection, and renal cortical-slice techniques. The steady-state renal clearance of 14C-gentamicin, when corrected for the 7.5% binding to plasma protein, was not significantly different from that of 3H-inulin. At the end of the renal clearance experiments, the cortical concentration of gentamicin was 93 ± 7 μg/g of tissue (N = 7), a concentration threefold greater than that of the medulla and 20-fold greater than that of serum. Absorption of 3H-gentamicin along the proximal convoluted tubule and loop of Henle was demonstrated by the tubular microinjection technique. No reabsorption of 3H-gentamicin was detected beyond the early distal convoluted tubule. The tubular absorption of 3H-gentamicin was load dependent. Fractional absorption of 3H-gentamicin averaged 30.1 ± 2.7% when the dose of 3H-gentamicin injected into early proximal tubular convolutions averaged 132 ± 17 pg. It was decreased to 13.6 ± 2.6% when the microinjected dose of gentamicin was increased to 1996 ± 388 pg. No evidence of transtubular absorption of 3H-gentamicin was detected during the microinjection experiments. Microperfusion of peritubular capillaries failed to demonstrate urinary precession of 3H-gentamicin over 14C-inulin, a finding which argues against a rapid transtubular secretory flux of gentamicin. Significant uptake of gentamicin was demonstrated by renal cortical slices incubated in medium containing 14C-gentamicin. The accumulation of 14C-gentamicin by renal cortical slices was not inhibited by probenecid or N1-methylnicotinamide but was inhibited by netilmicin and tobramycin. These data support the conclusion that the renal accumulation of gentamicin reflects transport of gentamicin across both the apical and basolateral membranes of proximal tubular epithelium.