Elsevier

Biochemical Pharmacology

Volume 48, Issue 5, 30 August 1994, Pages 881-888
Biochemical Pharmacology

Functional expression of intestinal dipeptide/β-lactam antibiotic transporter in Xenopus laevis oocytes

https://doi.org/10.1016/0006-2952(94)90358-1Get rights and content

Abstract

An intestinal active transport system specific to small peptides and peptide-like drugs such as β-lactam antiobiotics was functionally expressed in Xenopus laevis oocytes after microinjection of messenger RNA (mRNA) derived from rat intestinal cells. The transport activity was evaluated by measuring the uptake of a tripeptide-like cephalosporin antibiotic, ceftibuten, which has high affinity for the intestinal peptide/H+ co-transporter and is resittant to peptidases. Ceftibuten transport in mRNA-injected oocytes was pH dependent (a proton gradient is the driving force), stereo selective (uptake of the cis-isomer of ceftibuten was about 4-fold higher than that of the trans-isomer), saturable and temperature dependent. Furthermore, various dipeptides showed cis-inhibitory and trans-stimulatory effects on the uptake of ceftibuten by mRNA-injected oocytes, suggesting that ceftibuten and dipeptides are transported by a common carrier protein. These results are in accordance with the functional properties of native proton-coupled peptide transporter previously clarified by studies with isolated intestinal brush-border membrane vesicles and other experimental systems. A protein with a molecular mass of about 130 kDa expressed in the membrane of mRNA-injected oocytes was identified as the transport protein by specific labeling with a photoreactive β-lactam antibiotic, [3h]benxylpenicillin, followed by SDS-PAGE analysis of the radiolabeled protein. Furthermore, an experiment with mRNA size-fractionated by sucrose density gradient centrifugation indicated that the peptide transporter is encoded by mRNA of between 1.8 and 3.6 kb. These results, obtained using a heterologous gene expression technique, confirm that intestinal absorption of β-lactam antibiotics occurs through a carrier-mediated mechanism and show that biologically stable β-lactam antibiotics can be useful probes for molecular analysis of intestinal peptide transporter.

References (34)

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Present address: Faculty of Pharmaceutical Sciences, University of Tokyo, Hongo, Bunkyo-ku, Tokyo, Japan.

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