Abstract
AbstractThe intestinal transport and metabolism of stavudine (d4T), a nucleoside analogue of thymidine used in the treatment of AIDS, was studied using single-pass intestinal perfusion (SPIP), intestinal brush-border membrane vesicles (BBMV), and mucosal homogenates in rats and rabbits. In the SPIP, d4T demonstrated concentration-dependent mean wall permeability (P *w) at perfusate concentrations ranging from 0.001 to 25mM. In coperfusion studies using 0.1mM thymidine, 1mM formycin B, or 5 μM NBTI as putative inhibitors of d4T transport, the P *w of 5 μM d4T was reduced to 48%, 62%, and 70% of the control value, respectively, suggesting the involvement of multiple nucleoside carriers in the intestinal uptake of d4T. d4T uptake in rat BBMV was significantly greater in the presence of a sodium ion gradient compared with a sodium-free (choline) gradient. The permeability of d4T, in the presence of a sodium gradient, was concentration-dependent and inhibited by 10mM thymidine but not significantly reduced by 10mM formycin B. In the presence of 10 μM NBTI, the permeability of d4T was not inhibited; however, the binding of d4T to rat and rabbit BBMV was significantly reduced. Formycin B did not significantly reduce the d4T uptake in rat or rabbit BBMV suggesting that d4T does not interact with the purine-selective N1 nucleoside carrier. However, because formycin B inhibited d4T uptake in the SPIP and since d4T inhibited formycin B uptake in rat but not rabbit BBMV, it appears to interact with the N3 carrier which has been demonstrated in rat but not rabbit intestine. Also, an interaction with the sodium-independent facilitative transporter at the basolateral membrane cannot be ruled out. The low hybrid Km and high passive permeability of d4T likely account for the lack of saturable absorption behavior observed in humans, whereas the brush-border and intracellular stability of d4T preserve the high bioavailability observed after oral dosing.
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