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核心技术专利：CN118964589B侵权必究

核心技术专利：CN118964589B侵权必究

Boreham D R, Vose C W, Palmer R F, Slater T F, Cheeseman K

Xenobiotica. 1981 Apr;11(4):231-40. doi: 10.3109/00498258109045297.

The metabolism of [1-3H]canrenone, a primary metabolite of spironolactone and potassium canrenoate, by rat liver preparations in vitro has been investigated. 2. Canrenone was metabolized by 3-oxo-delta 4-reduction to give 3 alpha-hydroxy-5 beta-spirolactones, and also by a number of O2 and NADPH-dependent microsomal hydroxylation reactions. 3. A major metabolic route requiring the presence of a microsomal fraction, but apparently independent of oxygen and NADPH, led to the formation of a number of compounds tentatively identified as trihydroxy-spirolactones.

已对大鼠肝脏制剂体外代谢螺内酯和坎利酸钾的主要代谢产物[1-3H]坎利酮进行了研究。2. 坎利酮通过3-氧代-δ4-还原代谢生成3α-羟基-5β-螺内酯，还通过一些依赖氧气和NADPH的微粒体羟基化反应进行代谢。3. 一条主要的代谢途径需要微粒体部分的存在，但显然不依赖氧气和NADPH，导致形成了一些暂定为三羟基-螺内酯的化合物。

Boreham D R, Vose C W, Palmer R F, Slater T F, Cheeseman K

Xenobiotica. 1981 Apr;11(4):231-40. doi: 10.3109/00498258109045297.

The metabolism of [1-3H]canrenone, a primary metabolite of spironolactone and potassium canrenoate, by rat liver preparations in vitro has been investigated. 2. Canrenone was metabolized by 3-oxo-delta 4-reduction to give 3 alpha-hydroxy-5 beta-spirolactones, and also by a number of O2 and NADPH-dependent microsomal hydroxylation reactions. 3. A major metabolic route requiring the presence of a microsomal fraction, but apparently independent of oxygen and NADPH, led to the formation of a number of compounds tentatively identified as trihydroxy-spirolactones.

已对大鼠肝脏制剂体外代谢螺内酯和坎利酸钾的主要代谢产物[1-3H]坎利酮进行了研究。2. 坎利酮通过3-氧代-δ4-还原代谢生成3α-羟基-5β-螺内酯，还通过一些依赖氧气和NADPH的微粒体羟基化反应进行代谢。3. 一条主要的代谢途径需要微粒体部分的存在，但显然不依赖氧气和NADPH，导致形成了一些暂定为三羟基-螺内酯的化合物。