0000000000555408
AUTHOR
E. Cejudo-ferragud
Evidence of competitive inhibition for the intestinal absorption of baclofen by phenylalanine
Abstract Previous studies showed that the absorption of the antispastic drug baclofen, in the rat middle intestine, is inhibited by β-alanine, γ-aminobutyric acid (GABA) and leucine. It was concluded that baclofen intestinal transport was mediated, at least in part, by the β-, γ- and α-amino acid carriers. We therefore focused our next studies on the analysis of the possible inhibition of drug absorption by an aromatic α-amino acid model compound, phenylalanine. An in situ study in the rat small intestine was undertaken in order to evaluate the effect of phenylalanine on baclofen absorption and to establish the inhibition model. Assays using isotonic perfusion solutions of 0.5 mM baclofen w…
Evidence of competitive inhibition of methotrexate absorption by leucovorin calcium in rat small intestine
Abstract The effect of leucovorin calcium on the intestinal absorption of methotrexate in rat small intestine was investigated using an in situ rat gut technique. First, the kinetic absorption in situ parameters for methotrexate in solution were obtained: V m =21.54 (±2.22) μ M/h; K m =10.51 (±1.08) μ M; k a =0.26 (±0.03) h −1 and AIC=−188.63. The inhibitory effect of leucovorin calcium in methotrexate intestinal absorption has been investigated by perfusing of 10 μ M methotrexate isotonic solutions containing increasing concentrations of leucovorin calcium (10–500 μ M), and the remaining concentrations of both compounds were measured. A competitive inhibition of methotrexate absorption was…
Influence of leucine on intestinal baclofen absorption as a model compound of neutral α-aminoacids
The inhibitory effect of the essential alpha-aminoacid L-leucine on the intestinal absorption of the antispastic drug baclofen was examined by means of an in situ rat gut perfusion technique. When 0.5 mM baclofen solutions were perfused in the presence of increasing concentrations of the aminoacid (5-100 mM), the apparent absorption rate constant of the drug decreased as the initial leucine concentration increased. Higher leucine concentrations however did not completely abolish the absorption of the drug (at 100 mM of leucine, only 76% inhibition was observed). The interaction can be mathematically described as a complete competitive inhibition with a second component, K = 0.35 (+/- 0.08)h…