OBJECTIVE To determine the contribution of intestinal PepT1 on the permeability and oral absorption of the β-lactam antibiotic drug cefadroxil. METHODS The effective permeability (P eff ) of cefadroxil was evaluated in wild-type and PepT1 knockout mice following in situ single-pass intestinal perfusions. The plasma concentration-time profiles of cefadroxil were also examined after oral gavage. RESULTS The P eff (cm/s) of cefadroxil in wild-type mice was 0.49 × 10(-4) in duodenum, 0.80 × 10(-4) in jejunum, 0.88 × 10(-4) in ileum and 0.064 × 10(-4) in colon. The P eff (cm/s) in PepT1 knockout mice was significantly reduced in small intestine, but not in colon, as shown by values of 0.003 × 10(-4), 0.090 × 10(-4), 0.042 × 10(-4) and 0.032 × 10(-4), respectively. Jejunal uptake of cefadroxil was saturable (Km = 2-4 mM) and significantly attenuated by the sodium-proton exchange inhibitor 5-(N,N-dimethyl)amiloride. Jejunal permeability of cefadroxil was not affected by L-histidine, glycine, cephalothin, p-aminohippurate or N-methylnicotinamide. In contrast, cefadroxil permeability was significantly reduced by glycylproline, glycylsarcosine, or cephalexin. Finally, PepT1 ablation resulted in 23-fold reductions in peak plasma concentrations and 14-fold reductions in systemic exposure of cefadroxil after oral dosing. CONCLUSIONS The findings are definitive in demonstrating that PepT1 is the major transporter responsible for the small intestinal permeability of cefadroxil as well as its enhanced oral drug performance.