TY - JOUR T1 - Biotransformation of Cerivastatin in Mice, Rats, and Dogs<em>in vivo</em> JF - Drug Metabolism and Disposition JO - Drug Metab Dispos SP - 640 LP - 652 VL - 26 IS - 7 AU - Michael Boberg AU - Rolf Angerbauer AU - Wolfgang K. Kanhai AU - Wolfgang Karl AU - Armin Kern AU - Martin Radtke AU - Wolfram Steinke Y1 - 1998/07/01 UR - http://dmd.aspetjournals.org/content/26/7/640.abstract N2 - Biotransformation of cerivastatin was investigated in mice, rats, and dogs in vivo using the 14C-labeled drug. Marked species differences exist, both in pathways and extent of cerivastatin metabolism. Unchanged drug, together with its lactone, predominates in dog plasma and represents 40% of the dose in the excreta, whereas in rat bile they account for approximately 10% of the dose. In mice, the drug is metabolized rapidly and almost completely. Biotransformation of cerivastatin occurs by three distinct phase I routes and by phase II conjugation with sugar-type moieties and taurine. Phase I routes are demethylation of the pyridinyl methyl ether, β-oxidation of the 3,5-dihydroxy acid side chain, and reductive removal of the side chain 3-hydroxy group. In dogs, demethylation is the dominating phase I biotransformation. Phase II conjugation is equally important. In dog bile, different regioisomeric drug glucuronides and the benzylic glucuronide and glucoside conjugate of the demethylated drug were found. In rats, besides demethylation, β-oxidation of the dihydroxy acid side chain—followed by reductive removal of the 5-hydroxy group—is the major reaction. The resulting pentenoic acid derivatives are observed in plasma and liver homogenate. These metabolites are subsequently conjugated with taurine and excreted in the bile. This metabolic sequence is also important in mice. Furthermore, only in mice, cerivastatin is subject to reductive removal of the 3-hydroxy group, together with demethylation. The 5-hydroxyheptenoic acids formed predominate in plasma and liver homogenate, whereas the corresponding taurine conjugates are excreted in the bile. The American Society for Pharmacology and Experimental Therapeutics ER -