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The renal handling of polybasic drugs (1977)

Just, Melitta ; Habermann, E.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 300 (1977), S. 67-76

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ISSN: 1432-1912

Keywords: Polycations ; Aminoglycosides ; Kidney ; Brush border membrane ; Lysosomes

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. Experiments with Brush Border Membranes Drugs were screened for inhibition of 125I-aprotinin binding to isolated rat renal brush border membranes. Cationic polymers were effective, and their primary amino groups were crucial. The polycationic aminoglycosides displaced 125I-aprotinin with low concentrations (50% inhibition by 50 μg/ml of gentamicin). The decreasing sequence of both number of amino groups and of inhibitory potency was: neomycin 〉 tobramycin 〉 gentamicin 〉 kanamycin 〉 streptomycin. Binding of 3H-gentamicin-C1 to the brush border membrane was saturable. The Scatchard plot indicated an association constant of 43 mM−1, and 18 nmoles per mg of membrane protein for the number of binding sites. Inhibition of 125I-aprotinin binding by gentamicin was competitive. The inhibition constant (KI) was 20 μg/ml with concentrations of 8 and 40 μg/ml of gentamicin. 2. Experiments with Lysosomes Gentamicin and aprotinin (200 μg/ml) activated β-glucuronidase and β-galactosidase from renal lysosomes, but not acid phosphatase. Gentamicin and aprotinin (300 μg/ml) increased the release of acid phosphatase from intact renal lysosomes. Lysosomal degradation of 125I-aprotinin into acid soluble split products was much slower than that of 125I-insulin. From our present and previous results it is concluded that binding to the brush border membrane occurs with chemically quite different, however basic drugs and that the number of amino groups per molecule is relevant. Nephrotoxicity of aminoglycosides may be related to their endocytic uptake through a direct action on lysosomes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00505081

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The renal handling of polybasic drugs (1977)

Just, Melitta ; Erdmann, G. ; Habermann, E.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 300 (1977), S. 57-66

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ISSN: 1432-1912

Keywords: Aminoglycoside ; Gentamicin ; Kidney ; Electron microscopic autoradiography ; Lysosomes

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Upon intravenous injection of 3H-gentamicin in rats, radioactivity in serum rapidly declined to 3% of total within 1 h. Kidneys accumulated a constant amount (14%) of the injected radioactivity between 2 and 6 h after injection. In mice, simultaneous or prior application of unlabeled gentamicin (10 mg/kg) diminished the renal concentration of 3H-gentamicin, and aprotinin (10 mg/kg) was able to compete with labeled aprotinin. Aprotinin did not diminish the renal accumulation of gentamicin and vice versa. However, since 10 mg/kg aprotinin raised also the plasma concentrations of both 3H-gentamicin and 125I-aprotinin, the evidences resulting from these experiments are limited. Mouse kidney cortex was processed for light and electron microscopic autoradiography at different times following i.v. injection of 3H-gentamicin. Gentamicin enters the apical part of proximal tubule cells. Initially, brush border and basement membrane labeling is prominent, whereas lysosomes appear as intense and prevalent stores 20 min or later after injection. Fractionation of 3H-gentamicin loaded kidneys showed a similar distribution pattern of radioactivity and the lysosomal marker β-galactosidase. The same was true when the crude lysosomal fraction was subjected to density gradient centrifugation, which corroborates the microscopical findings. Radioactivity is partially bound to lysosomal structures, for repeated freezing of loaded lysosomes left 35% of radioactivity particle-bound. It is concluded that both gentamicin and peptides are handled in a similar manner by adsorption, followed by endocytosis and lysosomal sequestration in proximal tubule cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00505080

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