Chiraseveenuprapund P, Buergi U, Goswami A, Rosenberg I N
Endocrinology. 1978 Feb;102(2):612-22. doi: 10.1210/endo-102-2-612.
Rat kidney homogenates, in phosphate-EDTA buffer, consistently catalyzed the formation of T3 from added L-thyroxine (T4). The formation of T3 was assessed by both paper chromatography and RIA of T3. Conversion of T4 to T3 appeared to be enzymatic, showing pH and temperature optima (pH 7.0 and 37 C, respectively) and tissue and time dependence. Formation of T3 was unaffected by azide, cyanide, or catalase, nor was it dependent upon oxygen; indeed, under anaerobic conditions conversion of T4 to T3 was enhanced. Dialyzed homogenate retained full activity, and no cofactor requirement was demonstrated. A role of iron and thiol groups in the enzymatic formation of T3 from T4 was suggested by the inhibitory action of iron chelators and thiol-blocking reagents. The capacity of kidney for T3 formation was considerable and increased with increasing T4 concentrations, being approximately 2 nmol/g tissue/h at very high T4 levels. The apparent Km was estimated to be 3 x 10(-6) M. The conversion of T4 to T3 was inhibited by propylthiouracil at micromolar concentrations whereas methimazole, iodide, and lithium salts were without effect. The enzymatic activity of the homogenates was associated with its particulate components, the readily sedimenting fractions corresponding to plasma membranes and mitochondria being most active, and was absent from nuclei and cytosol.
在磷酸盐 - EDTA缓冲液中的大鼠肾脏匀浆能够持续催化从添加的L - 甲状腺素(T4)形成T3。通过纸层析法和T3的放射免疫分析法评估T3的形成。T4向T3的转化似乎是酶促反应,表现出最适pH值和温度(分别为pH 7.0和37℃)以及组织和时间依赖性。T3的形成不受叠氮化物、氰化物或过氧化氢酶的影响,也不依赖于氧气;实际上,在厌氧条件下T4向T3的转化增强。透析后的匀浆保留了全部活性,并且未证明有辅助因子需求。铁螯合剂和硫醇阻断剂的抑制作用表明了铁和硫醇基团在T4酶促形成T3中的作用。肾脏形成T3的能力相当可观,并且随着T4浓度的增加而增加,在非常高的T4水平下约为2 nmol/g组织/小时。表观Km估计为3×10^(-6) M。微摩尔浓度的丙硫氧嘧啶可抑制T4向T3的转化,而甲巯咪唑、碘化物和锂盐则无作用。匀浆的酶活性与其颗粒成分相关,对应于质膜和线粒体的易沉淀部分活性最高,而细胞核和胞质溶胶中则没有活性。
