Gad Y Z, Berkovitz G D, Migeon C J, Brown T R
Division of Pediatric Endocrinology, Johns Hopkins University School of Medicine, Baltimore, MD 21205.
Mol Cell Endocrinol. 1988 Jun;57(3):205-13. doi: 10.1016/0303-7207(88)90076-7.
Prolonged exposure of genital skin fibroblasts (GSF) to dihydrotestosterone (DHT) increases androgen receptor binding of steroid, a process termed 'up-regulation'. Because the extent of up-regulation appears to be quite variable, we have investigated the optimal conditions and the molecular mechanisms that control this phenomenon in seven strains of normal neonatal GSF. When GSF were incubated for 1-48 h with 3 nM methyltrienolone (R1881), maximal up-regulation was reached by 20 h and remained constant thereafter. With DHT, rapid steroid metabolism required replenishment of DHT for maximum up-regulation. Up-regulation levels following 20 h incubation with DHT (including steroid replenishment) and R1881 were 2.07-fold (range = 1.1-3.3) and 2.35-fold (range = 1.86-3.33), respectively. The greater variability observed with DHT may be related to variable rates of steroid catabolism among cell strains. Half-maximal up-regulation was attained at 0.29 nM R1881, which approximates the Kd. Maximal up-regulation was reached only with continuous exposure to R1881 for 24 h. It was completely inhibited by actinomycin D (0.5 micrograms/ml) or cycloheximide (10 micrograms/ml). Following up-regulation, removal of R1881 for 24 h resulted in a highly variable decline of androgen receptors among cell strains. Maximal up-regulation could be reinduced by exposure to R1881 again for an additional 24 h. During up-regulation, androgen receptor levels in nuclei and nuclear matrix rose with increments comparable to those obtained in whole cells. We conclude that the extent of up-regulation and its rate of decline differ greatly among normal cell strains. Hence, its study in cells of patients with androgen insensitivity may have limited value.(ABSTRACT TRUNCATED AT 250 WORDS)
生殖器皮肤成纤维细胞(GSF)长时间暴露于双氢睾酮(DHT)会增加类固醇的雄激素受体结合,这一过程称为“上调”。由于上调程度似乎差异很大,我们研究了七株正常新生儿GSF中控制这一现象的最佳条件和分子机制。当GSF与3 nM甲基三烯醇酮(R1881)孵育1 - 48小时时,20小时达到最大上调,此后保持恒定。对于DHT,快速的类固醇代谢需要补充DHT以实现最大上调。与DHT(包括类固醇补充)和R1881孵育20小时后的上调水平分别为2.07倍(范围 = 1.1 - 3.3)和2.35倍(范围 = 1.86 - 3.33)。观察到的DHT更大变异性可能与细胞株间类固醇分解代谢速率不同有关。在0.29 nM R1881时达到半数最大上调,这接近解离常数(Kd)。仅持续暴露于R1881 24小时才能达到最大上调。它被放线菌素D(0.5微克/毫升)或环己酰亚胺(10微克/毫升)完全抑制。上调后,去除R1881 24小时导致细胞株间雄激素受体高度可变的下降。再次暴露于R1881 24小时可再次诱导最大上调。上调期间,细胞核和核基质中的雄激素受体水平升高,增加幅度与全细胞中相当。我们得出结论,正常细胞株间上调程度及其下降速率差异很大。因此,在雄激素不敏感患者细胞中的研究可能价值有限。(摘要截断于250字)
