Active intestinal secretion of new quinolone antimicrobials and the partial contribution of P-glycoprotein

Transport of quinolone antimicrobials and the contribution of the secretory transporter P-glycoprotein were studied in-vivo and in-vitro. In rat intes tinal tissue (Ussing chambers method) and human Caco-2 cells (Transwell met hod), grepafloxacin showed secretory-directed transport. In both experiment al systems, the secretory-directed transport was decreased by ciclosporin A , an inhibitor of P-glycoprotein, and probenecid, an inhibitor of anion tra nsport systems. This suggested the contribution of P-glycoprotein and anion -sensitive transporter(s). The involvement of P-glycoprotein was investigat ed by using a P-glycoprotein over-expressing cell line, LLC-GA5-COL150, and P-glycoprotein-gene-deficient mice (mdr1a(-/-)/1b(-/-) mice). LLC-GA5-COL1 50 cells showed secretory-directed transport of grepafloxacin, while the pa rent cell line, LLC-PK1, did not. The secretory-directed transport of sparf loxacin and levofloxacin was also detected in LLC-GA5-COL150 cells. In the mdr1a(-/-)/1b(-/-) mice, the intestinal secretory clearance was smaller tha n that in wild-type mice after intravenous administration of grepafloxacin. Moreover, the absorption from an intestinal loop in mdr1a(-/-)/1b(-/-) mic e was larger than that in wild-type mice. Accordingly, it appears that some quinolones are transported by secretory transporters, including P-glycopro tein. The involved transporters function in-vivo not only to transport grep afloxacin from blood to intestine but also to limit its intestinal absorpti on.