1,25-二羟基维生素D3的代谢:侧链氧化的证据。
Metabolism of 1,25-dihydroxyvitamin D3: evidence for side-chain oxidation.
作者信息
Kumar R, Harnden D, DeLuca H F
出版信息
Biochemistry. 1976 Jun 1;15(11):2420-3. doi: 10.1021/bi00656a027.
Approximately 7% of a 650-pmol dose of 25-hydroxyl[26,27-14C]vitamin D3 and 25% of a 325-pmol dose of 1,25-dihydroxyl[26,27-14C]vitamin D3 are metabolized to 14CO2 by vitamin D deficient rats. Nephrectomy prevents the metabolism of 25-hydroxy[26,27-14C]vitamin D3 to 14CO2 but not that of 1,25-dihydroxy[26,27-14C]vitamin D3. Less than 5% of the 14C from 24,25-dihydroxy[26,27-14C]vitamin D3 is metabolized to 14CO2. Feeding diets high in calcium and supplemented with vitamin D3 markedly diminishes the amount of 14CO2 formed from 25-hydroxy[26,27-14C]vitamin D3 but not that from 1,25-dihydroxyl[26,27-14C]vitamin D3. These results provide strong evidence that only 1-hydroxylated vitamin D compounds and especially 1,25-dihydroxyvitamin D3 undergo side-chain oxidation and cleavage to yield an unknown metabolite and CO2.
维生素D缺乏的大鼠可将650皮摩尔剂量的25-羟基[26,27-¹⁴C]维生素D3中的约7%以及325皮摩尔剂量的1,25-二羟基[26,27-¹⁴C]维生素D3中的25%代谢为¹⁴CO₂。肾切除术可阻止25-羟基[26,27-¹⁴C]维生素D3代谢为¹⁴CO₂,但不能阻止1,25-二羟基[26,27-¹⁴C]维生素D3的代谢。24,25-二羟基[26,27-¹⁴C]维生素D3中¹⁴C的不到5%会代谢为¹⁴CO₂。喂食高钙并补充维生素D3的饮食可显著减少由25-羟基[26,27-¹⁴C]维生素D3生成的¹⁴CO₂量,但不会减少由1,25-二羟基[26,27-¹⁴C]维生素D3生成的¹⁴CO₂量。这些结果提供了强有力的证据,表明只有1-羟化的维生素D化合物,尤其是1,25-二羟基维生素D3会发生侧链氧化和裂解,生成一种未知代谢产物和CO₂。
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