Intestinal absorption of β‐lactam antibiotics and oligopeptides

Kramer, Werner; Girbig, Frank; Gutjahr, Ulrike; Kowalewski, Simone; Adam, Friedhelm; Schiebler, Werner

doi:10.1111/j.1432-1033.1992.tb16713.x

Cited by 51 publications

(19 citation statements)

References 32 publications

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“…19) Whether or not Lcephalexin is transported by PEPT1 has been controversial. One group reported that L-cephalexin was not transported by peptide transporter(s), 17) whereas another group observed substrate-induced intracellular acidification caused by transport of L-cephalexin via a peptide transporter, possibly PEPT1, though they did not detect L-cephalexin itself.…”

Section: Resultsmentioning

confidence: 99%

“…16) However, intact L-cephalexin was not found in vesicles or proteoliposomes prepared from brush border membrane of intestinal epithelial cells. 17) Although, L-cephalexin was not detected, and the hydrolysis product, 7-aminodesacetoxycephalosporanic acid (7-ADCA), appeared very rapidly in serum and urine after oral administration in rats. 18) This observation suggests that L-cephalexin can be absorbed from gastrointestinal tract.…”

Section: )mentioning

confidence: 99%

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Direct Evidence for Efficient Transport and Minimal Metabolism of L-Cephalexin by Oligopeptide Transporter 1 in Budded Baculovirus Fraction

Mitsuoka

Tamai

Morohashi

et al. 2009

Biological & Pharmaceutical Bulletin

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The oligopeptide transporter PEPT1 (SLC15A1) accepts di-and tripeptides as endogenous substrates 1,2) and also transports various peptide-mimetic therapeutic agents (e.g., cephalexin).3) PEPT1 is primarily expressed in apical membrane of small intestinal epithelial cells. 4) PEPT1 is thought to be involved in gastrointestinal absorption of its substrates. Involvement of PEPT1 may explain the difference in bioavailability between valacyclovir (PEPT1 substrate) and acyclovir (non-substrate) in humans. 5,6) We have recently reported that rab8-null mice, which exhibit minimal expression of PEPT1 on apical membranes of small intestine, lack saturable uptake of a prototypical PEPT1 substrate glycylsarcosine (Gly-Sar).7) This may indicate a predominant role of PEPT1 in the peptide absorption. In addition to small intestine, PEPT1 is functionally expressed in some human cancer cell lines [8][9][10] and therefore would be a promising target for tumor detection. Indeed, a positron emitting probe targeted to PEPT1, 11 C-glycylsarcosine, was recently demonstrated to be able to distinguish between tumor and inflamed tissues. . 12-14) This D-cephalexin is now clinically used for chemotherapy. PEPT1 is presumably responsible for membrane permeation of D-cephalexin in small intestine, because small intestinal uptake of D-cephalexin assessed with an everted sac method was greatly reduced in rab8-null mice.15) The L-diastereomer of cephalexin (Lcephalexin) is also probably transported by PEPT1 in Caco-2 cells.16) However, intact L-cephalexin was not found in vesicles or proteoliposomes prepared from brush border membrane of intestinal epithelial cells. 17) Although, L-cephalexin was not detected, and the hydrolysis product, 7-aminodesacetoxycephalosporanic acid (7-ADCA), appeared very rapidly in serum and urine after oral administration in rats.18) This observation suggests that L-cephalexin can be absorbed from gastrointestinal tract. However, there has been no direct demonstration that L-cephalexin is transported by PEPT1 protein.We recently proposed that orally administered Lcephalexin might be transported and metabolized by PEPT1.13) Indeed, hydrolysis of L-cephalexin was markedly increased by exogenous transfection of PEPT1 gene into cultured cell lines, and metabolism of cephalexin was observed even in membrane-permeabilized cells expressing PEPT1, in which intracellular accumulation of L-cephalexin was negligible.13) This observation may imply that L-cephalexin hydrolysis is mediated by PEPT1 itself, although possible involvement of endogenous peptidases cannot be excluded, because these experimental systems utilized mammalian cells.The purpose of the present study was to clarify whether or not PEPT1 transports and/or metabolizes L-cephalexin. We performed L-cephalexin metabolism and uptake experiments using a highly purified PETP1 protein-expressing system, budded baculovirus 19) which lacks endogenous mammalian metabolic enzymes. MATERIALS AND METHODS MaterialsThe L-diastereoisomer of cephalexin was ob- The oligopepti...

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Section: Resultsmentioning

confidence: 99%

Section: )mentioning

confidence: 99%

Direct Evidence for Efficient Transport and Minimal Metabolism of L-Cephalexin by Oligopeptide Transporter 1 in Budded Baculovirus Fraction

Mitsuoka

Tamai

Morohashi

et al. 2009

Biological & Pharmaceutical Bulletin

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“…Therefore, a D-configuration in the N-terminus of a peptide substrate does still allow efficient transport. All orally active f-lactams (Amidon & Sinko, 1988; (Ganapathy et al, 1984;Kudo et al, 1989 (Thwaites et al, 1993a, b (Kramer et al, 1992 Since the rabbit small intestinal peptide transporter (PepTI) and the peptide transporter in Caco-2 cells both transport D-as well as L-isomers of aminocephalosporins, it is plausible to conclude that the lack of transport of L-cephalexin in the proteoliposomes containing the 127 kDa protein from rabbit intestine is not caused by species differences of the peptide transporters. As an alternative explanation we could assume that the 127 kDa represents a second transport pathway which, beside PepTl, is responsible for aminocephalosporin transport.…”

Section: Discussionmentioning

confidence: 99%

“…Previous studies had suggested that L-cephalexin is not transported by the purified brush border membrane peptide transporter from rabbit small intestine when reconstituted into liposomes (Kramer et al, 1992) although L-cephalexin was found to inhibit the uptake of its D-enantiomer into proteoli- Figure 5 Intracellular pH measured in dextran-SNARF-l loaded oocytes expressing the peptide transporter from rabbit small intestine (PepTl). Three days after injection of 5ng of PepTl-cRNA per oocyte, each oocyte was microinjected with the pHsensitive dye dextran-SNARF-l as described in the Methods section.…”

Section: Transport Of Loracarbef and Cephalexin Enantiomers In Pepti mentioning

confidence: 99%

“…Although an interaction of L-isomers of peptides and f-lactam antibiotics with the substrate binding site of the intestinal peptide transporter(s) has been demonstrated by competition experiments in tissue preparations (Matthews & Adibi, 1976;Matthews, 1987;Tamai et al, 1988), brush border membrane vesicles (Rajendran et al, 1985;Tsuji et al, 1986) and Caco-2 cells (Dantzig & Bergin, 1990;Thwaites et al, 1994a) direct evidence for a stereoselective transport of these compounds was absent. In addition, studies with a reconstituted putative peptide transport protein isolated from rabbit small intestine failed to detect any transport of the L-isomer of the aminocephalosporin, cephalexin (Kramer et al, 1992). For these reasons we addressed the question of the stereoselectivity of peptide and fi-lactam transport by investigating whether (a) the cloned rabbit intestinal peptide transporter (PepTl) expressed in Xenopus 1 Author for correspondence.…”

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Stereoselective uptake of β‐lactam antibiotics by the intestinal peptide transporter

Wenzel

Thwaites

Daniel

1995

British J Pharmacology

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1 The stereoselective transport of fi-lactam antibiotics has been investigated in the human intestinal epithelial cell line, Caco-2, by use of D-and L-enantiomers of cephalexin and loracarbef as substrates. 2 The L-isomers of cephalexin, loracarbef and dipeptides displayed a higher affinity for the oligopeptide/H+-symporter in Caco-2 cells than the D-isomers. This was demonstrated by inhibition of the influx of the f0-lactam, [3H]-cefadroxil.3 By measurement of the substrate-induced intracellular acidification in Caco-2 cells loaded with the pH-sensitive fluorescent dye BCECF (2',7'-bis(2-carboxyethyl)-5-(6)-carboxy-fluorescein), it was demonstrated for the first time that L-isomers of f0-lactams not only bind to the peptide transporter with high affinity but are indeed transported.4 Efficient proton-coupled transport of L-fl-lactam antibiotics was also shown to occur in Xenopus laevis oocytes expressing the cloned peptide transporter PepTi from rabbit small intestine. 5 Both cell systems therefore express a stereoselective transport pathway for fi-lactam antibiotics with very similar characteristics and may prove useful for screening rapidly the oral availability of peptidederived drugs.Keywords: Proton-coupled transport; dipeptide; cephalosporin; Caco-2 cells; enterocytes; intracellular pH; f-lactam antibiotics Introduction f-Lactam antibiotics are bactericidal agents that act by inhibition of bacterial cell wall synthesis. They exert their effects by interrupting the transpeptidation and hence the linkage of individual peptidoglycan chains of the bacterial cell wall (Boyd, 1982;Neu, 1985). The fi-lactam group encompasses the penicillins, cephalosporins, carbapenems and monobactams (Donowitz & Mandell, 1988). The general structure of the cephalosporins resembles the backbone of a tripeptide with the second peptide bond incorporated-into a lactam ring. The excellent oral availability in particular of aminocephalosporins is explained by the fact that they serve as substrates for the intestinal peptide transporter(s). In the apical membrane of intestinal epithelial cells and the human colon carcinoma cell line, Caco-2, di-and tripeptides (Ganapathy et al., 1984;Thwaites et al., 1994b), peptide-mimetics, including selected filactam antibiotics (Tsuji et al., 1986;Dantzig et al., 1994a), immunostimulants (Saito & Inui, 1993; Takano et al., 1994) and angiotensin-converting-enzyme inhibitors (Boll et al., 1994;Thwaites et al., 1994a), are transported by a common electrogenic H+/peptide symport system. Although an interaction of L-isomers of peptides and f-lactam antibiotics with the substrate binding site of the intestinal peptide transporter(s) has been demonstrated by competition experiments in tissue preparations (Matthews & Adibi, 1976;Matthews, 1987;Tamai et al., 1988), brush border membrane vesicles (Rajendran et al., 1985;Tsuji et al., 1986) and Caco-2 cells (Dantzig & Bergin, 1990;Thwaites et al., 1994a) direct evidence for a stereoselective transport of these compounds was absent. In addition, studies wit...

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Stereoselective renal secretion of carbenicillin in rabbits: Role of the organic anion transporter at the renal brush border membrane

et al. 1998

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Stereoselectivity in the renal secretion of carbenicillin (CBPC) was studied in rabbits. Significant renal secretion of CBPC was observed in vivo, with the secretion of the S‐epimer being greater than that of the R‐epimer. Stereoselective transport of CBPC was further studied in vitro using basolateral and brush border membrane vesicles prepared from rabbit kidneys. The transport of CBPC by the organic anion transporter into the basolateral membrane vesicles (BLMV) was not stereoselective. In contrast, a distinct stereoselectivity was observed in the transport of CBPC by the organic anion transporter into the brush border membrane vesicles (BBMV), with the transport of the S‐epimer being more favorable. Significant epimer‐epimer interactions were also observed in the transport into BBMV. The stereoselectivity of the transport of CBPC was calculated from the kinetic parameters with consideration of epimer‐epimer interactions and was similar to that observed in vivo. It was concluded that the observed stereoselectivity in the renal secretion of CBPC in vivo reflected that of transport via the organic anion transporter located at the brush border membrane. Chirality 10:349–357, 1998. © 1998 Wiley‐Liss, Inc.

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Intestinal absorption of β‐lactam antibiotics and oligopeptides

Cited by 51 publications

References 32 publications

Direct Evidence for Efficient Transport and Minimal Metabolism of L-Cephalexin by Oligopeptide Transporter 1 in Budded Baculovirus Fraction

Direct Evidence for Efficient Transport and Minimal Metabolism of L-Cephalexin by Oligopeptide Transporter 1 in Budded Baculovirus Fraction

Stereoselective uptake of β‐lactam antibiotics by the intestinal peptide transporter

Stereoselective renal secretion of carbenicillin in rabbits: Role of the organic anion transporter at the renal brush border membrane

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