PREPARATION OF 1-ACYLOXYETHYL FSTERS OF 7[2-(2-AMINOTHIAZOL-4-YL)ACETAMIDO]3-[[ [1-(2-DIMETHYLAMINOETHYL)-1H-TETRAZOL5-YL]THIO]- METHYL]CEPH-3-EM-4-CARBOXYLIC ACID(CEFOTIAM) AND THEIR ORAL ABSORPTION IN MICE

Abstract

In a separate study on the orally active acyloxymethyl esters (1) of 7[2-(2-aminothiazol-4-yl)acetamido]3-[[[1-(2-dimethylaminoethyl)-1H-tetrazol-5-yl]thio]methyl]ceph-3-em-4-carboxylic acid (cefotiam, CTM), we have shown, by quantitative structure-oral bioavailability (BA) relation analysis, that the R₂ group in the acyl group R₂CO must have both an adequate lipophilicity (HANSCH's lipophilic parameter, π) and steric hindrance (TAFT's Es value). However, to satisfy these requirements, a complex alkyl group R₂ must be employed, the ester of which is difficult to synthesize and has unique metabolic fate. In this study, we selected and prepared the 1-acyloxyethyl esters (2) of CTM instead of 1 to avoid R₂ groups that are too complicated. We found that the esters (2) gave improved oral BAs over 1: the 1-(3-methylvaleryloxy) ethyl ester (2h) showed the highest peak plasma CTM level(C_max) comparable to that obtained after subcutaneous injection of CTM. The 1-(cyclohexylacetoxy)ethyl ester (2t), the 1-(2-ethylbutyryloxy)ethyl ester(2j), and 2h showed BAs near 100%. For these esters (2), good correlations were also observed among the π, the Es values of R₂, and the
log C_max and log BA in the analysis of the quantitative structure-oral bioavailability relation: an ester having an alkyl group as R₂ with a π value of 3.07 or 3.08 and a Es value of-1.04 or -1.29 gave the highest C_max or BA, respectively. As expected, the optimalπvalues are almost the same as those obtained with 1 but the optimal Es values are larger (Es=-2.07). Thus, it has been confirmed by preparing 1-acyloxyethyl esters (2) of CTM that the oral bioavailability of CTM can further be improved without preparing acyloxymethyl esters (1) with a complicated acyl group.