PURPOSE: To characterize the transport mechanism of monocarboxylic acids across intestinal epithelial cells by examining the stereoselectivity of the transcellular transport of several chiral monocarboxylic acids. METHODS: The transport of monocarboxylic acids was examined using monolayers of human adenocarcinoma cell line, Caco-2 cells. RESULTS: The permeability of L-[14C]lactic acid at a tracer concentration (1 microM) exhibited pH- and concentration-dependencies and was significantly greater than that of the D-isomer. The permeabilities of both L-/D-[14C]lactic acids involve saturable and nonsaturable processes; the saturable process showed a higher affinity and a lower capacity for L-lactic acid compared with the D-isomer, while no difference between the isomers was seen for the nonsaturable process. The transport of L-lactic acid was inhibited by chiral monocarboxylic acids such as (R)/ (S)-mandelic acids and (R)/(S)-ibuprofen in a stereoselective manner. Mutually competitive inhibition was observed between L-lactic acid and (S)-mandelic acid. CONCLUSIONS: Some chiral monocarboxylic acids are transported across the intestinal epithelial cells in a stereoselective manner by the specific carrier-mediated transport mechanism.
PURPOSE: To characterize the transport mechanism of monocarboxylic acids across intestinal epithelial cells by examining the stereoselectivity of the transcellular transport of several chiral monocarboxylic acids. METHODS: The transport of monocarboxylic acids was examined using monolayers of humanadenocarcinoma cell line, Caco-2 cells. RESULTS: The permeability of L-[14C]lactic acid at a tracer concentration (1 microM) exhibited pH- and concentration-dependencies and was significantly greater than that of the D-isomer. The permeabilities of both L-/D-[14C]lactic acids involve saturable and nonsaturable processes; the saturable process showed a higher affinity and a lower capacity for L-lactic acid compared with the D-isomer, while no difference between the isomers was seen for the nonsaturable process. The transport of L-lactic acid was inhibited by chiral monocarboxylic acids such as (R)/ (S)-mandelic acids and (R)/(S)-ibuprofen in a stereoselective manner. Mutually competitive inhibition was observed between L-lactic acid and (S)-mandelic acid. CONCLUSIONS: Some chiral monocarboxylic acids are transported across the intestinal epithelial cells in a stereoselective manner by the specific carrier-mediated transport mechanism.
Authors: H Takanaga; I Tamai; S Inaba; Y Sai; H Higashida; H Yamamoto; A Tsuji Journal: Biochem Biophys Res Commun Date: 1995-12-05 Impact factor: 3.575
Authors: Leena Laitinen; Heli Kangas; Ann Marie Kaukonen; Kati Hakala; Tapio Kotiaho; Risto Kostiainen; Jouni Hirvonen Journal: Pharm Res Date: 2003-02 Impact factor: 4.200