He Wanhong, Gauri Misra, Li Tang, Wang Ruixuan, Lin Sheng-Xiang
Shanghai Engineering Research Center of Reproductive Health Drug and Devices, Shanghai 200032, China.
Amity Institute of Biotechnology, Amity University, Noida, UP, India.
Gene. 2016 Aug 15;588(1):54-61. doi: 10.1016/j.gene.2016.04.031. Epub 2016 Apr 19.
At the late 1940s, 17β-HSD1 was discovered as the first member of the 17β-HSD family with its gene cloned. The three-dimensional structure of human 17β-HSD1 is the first example of any human steroid converting enzyme. The human enzyme's structure and biological function have thus been studied extensively in the last two decades. In humans, the enzyme is expressed in placenta, ovary, endometrium and breast. The high activity of estrogen activation provides the basis of 17β-HSD1's implication in estrogen-dependent diseases, such as breast cancer, endometriosis and non-small cell lung carcinomas. Its dual function in estrogen activation and androgen inactivation has been revealed in molecular and breast cancer cell levels, significantly stimulating the proliferation of such cells. The enzyme's overexpression in breast cancer was demonstrated by clinical samples. Inhibition of human 17β-HSD1 led to xenograft tumor shrinkage. Unfortunately, through decades of studies, there is still no drug using the enzyme's inhibitors available. This is due to the difficulty to get rid of the estrogenic activity of its inhibitors, which are mostly estrogen analogues. New non-steroid inhibitors for the enzyme provide new hope for non-estrogenic inhibitors of the enzyme.
20世纪40年代末,17β-羟类固醇脱氢酶1(17β-HSD1)作为17β-HSD家族的首个成员被发现,其基因也被克隆。人17β-HSD1的三维结构是人类任何类固醇转化酶的首个实例。因此,在过去二十年中,对该人类酶的结构和生物学功能进行了广泛研究。在人类中,该酶在胎盘、卵巢、子宫内膜和乳腺中表达。雌激素激活的高活性为17β-HSD1参与雌激素依赖性疾病(如乳腺癌、子宫内膜异位症和非小细胞肺癌)提供了基础。其在雌激素激活和雄激素失活方面的双重功能已在分子和乳腺癌细胞水平上得到揭示,可显著刺激此类细胞的增殖。临床样本证实了该酶在乳腺癌中的过度表达。抑制人17β-HSD1可导致异种移植肿瘤缩小。不幸的是,经过数十年的研究,仍然没有使用该酶抑制剂的药物。这是由于难以消除其抑制剂的雌激素活性,这些抑制剂大多是雌激素类似物。该酶的新型非甾体抑制剂为该酶的非雌激素抑制剂带来了新希望。