Mann V Z, Newton C J, Tait G H
Unit of Metabolic Medicine, St. Mary's Hospital Medical School, Imperial College of Science, Technology and Medicine, London.
J Mol Endocrinol. 1991 Aug;7(1):45-55. doi: 10.1677/jme.0.0070045.
17 Beta-Hydroxysteroid dehydrogenase (17 beta-HSD) is present in multiple forms in human breast tissue. One soluble form, with a molecular weight of approximately 35 kDa, was purified to near homogeneity from whole normal breast tissue. This form catalysed the oxidation of oestradiol and the reduction of oestrone, with NADP+ and NADPH as the preferred coenzymes. Three other soluble forms with higher molecular weights (in the range 50-80 kDa) were isolated. They catalysed the oxidation of oestradiol but not the reduction of oestrone, and all of them had properties very different from those of the low molecular weight enzyme. Activities of 17 beta-HSD were measured in particulate and soluble fractions from normal breast adipose and non-adipose tissues, and from breast tumours obtained from post-menopausal women, in the oxidative direction with NAD+ and NADP+ as coenzymes and in the reductive direction with NADH and NADPH as coenzymes. Particulate fractions from tumours had much higher oxidative and reductive activities than those from normal tissues. Soluble fractions from tumours had higher oxidative activities than those from the normal tissues but similar reductive activities. The major soluble form of 17 beta-HSD in adipose tissue was the 35 kDa enzyme which had both oxidative and reductive activities. In contrast, the majority of the soluble activity in non-adipose tissue was due to enzymes, with molecular weights in the range 50-80 kDa, which had oxidative activity only. The soluble fractions of tumours, like those of non-adipose tissue, contained enzymes with molecular weights in the range 50-80 kDa. In addition, they contained a 35 kDa enzyme with properties different from those of the enzyme with the same molecular weight present in adipose tissue.
17β-羟基类固醇脱氢酶(17β-HSD)在人乳腺组织中以多种形式存在。从整个正常乳腺组织中纯化出一种分子量约为35 kDa的可溶性形式,纯度接近均一。这种形式催化雌二醇的氧化和雌酮的还原,以NADP⁺和NADPH作为首选辅酶。还分离出另外三种分子量较高(在50-80 kDa范围内)的可溶性形式。它们催化雌二醇的氧化,但不催化雌酮的还原,并且它们所有的性质都与低分子量酶非常不同。在来自绝经后妇女的正常乳腺脂肪组织和非脂肪组织以及乳腺肿瘤的微粒体和可溶性部分中,以NAD⁺和NADP⁺作为辅酶测定了17β-HSD在氧化方向上的活性,以NADH和NADPH作为辅酶测定了其在还原方向上的活性。肿瘤的微粒体部分比正常组织具有更高的氧化和还原活性。肿瘤的可溶性部分比正常组织具有更高的氧化活性,但还原活性相似。脂肪组织中17β-HSD的主要可溶性形式是具有氧化和还原活性的35 kDa酶。相比之下,非脂肪组织中的大部分可溶性活性是由于分子量在50-80 kDa范围内的酶,这些酶仅具有氧化活性。肿瘤的可溶性部分与非脂肪组织的可溶性部分一样,含有分子量在50-80 kDa范围内的酶。此外,它们还含有一种35 kDa的酶,其性质与脂肪组织中存在的相同分子量的酶不同。