Jacobsohn M K, Dobre V C, Branam C, Jacobsohn G M
Department of Biological Chemistry, Hahnemann University, Philadelphia, PA 19102.
J Steroid Biochem. 1988 Oct;31(4A):377-85. doi: 10.1016/0022-4731(88)90305-6.
The presence of catechol in a reaction mixture has been shown previously to promote oxidation of 2-hydroxyestradiol by mushroom tyrosinase. It was now found that the oxidized products of the catecholesterogen are incorporated into melanin under the influence of the enzyme. Whether the oxidation is restricted to tyrosinase or to enzymes with specific steroid oxidizing properties was examined by separating tyrosinase on agarose gel followed by hydroxylapatite. The effectiveness of separation was monitored electrophoretically. Two bands of enzyme activity of 127 kDa were found. One of these bands could be cleanly separated from the other. The fraction which contained the single band, as well as the one which contained both bands, had similar apparent Km values; i.e. 1.5 x 10(-4) and 2.1 x 10(-4) M. They both catalyzed oxidation of 2-hydroxyestradiol but only in the presence of catechol. All enzyme fractions showed the same pattern of activity towards the estrogen. HPLC analysis of reaction products of catechol indicated that not all of the substrate was consumed during the reaction. About 26% remained unreacted at an initial concentration of 100-400 microM of catechol. This remaining catechol, rather than its reaction products, appears to function as activator of the steroid reaction. The data are consistent with the presence on the enzyme of an allosteric activator site specific for catechol and an active site with a much lower structural specificity occupied by the catecholestrogen.
先前已表明反应混合物中儿茶酚的存在可促进蘑菇酪氨酸酶对2-羟基雌二醇的氧化。现在发现儿茶酚雌激素的氧化产物在该酶的影响下会掺入黑色素中。通过在琼脂糖凝胶上分离酪氨酸酶,然后用羟基磷灰石进行分离,研究了氧化作用是仅限于酪氨酸酶还是具有特定类固醇氧化特性的酶。通过电泳监测分离效果。发现了两条127 kDa的酶活性带。其中一条带可以与另一条带清晰分离。包含单条带的部分以及包含两条带的部分具有相似的表观Km值,即1.5×10⁻⁴和2.1×10⁻⁴ M。它们都催化2-羟基雌二醇的氧化,但仅在儿茶酚存在的情况下。所有酶部分对雌激素均表现出相同的活性模式。儿茶酚反应产物的HPLC分析表明,并非所有底物在反应过程中都被消耗。在儿茶酚初始浓度为100 - 400 microM时,约26%仍未反应。这种剩余的儿茶酚,而不是其反应产物,似乎作为类固醇反应的激活剂起作用。这些数据与该酶上存在对儿茶酚特异的别构激活位点以及儿茶酚雌激素占据的结构特异性低得多的活性位点一致。