Haendler B, Habenicht U F, Schwidetzky U, Schüttke I, Schleuning W D
Research Laboratories of Schering AG, Berlin, Germany.
Eur J Biochem. 1997 Dec 1;250(2):440-6. doi: 10.1111/j.1432-1033.1997.0440a.x.
The androgen dependency of the genes coding for the cysteine-rich secretory proteins (CRISP) was analysed in their main sites of expression. Male mice were treated with the gonadotropin-releasing hormone antagonist Ac-DNapAla-DClPhAla-DPyrAla-Ser-Tyr-DCtl-Leu-Lys (Mor)-Pro-DAla-NH2 [DNapAla, D-2-naphthyl-Ala; DClPhAla, D-4-chlorphenyl-Ala; DPyrAla, D-pyridyn-3-yl-Ala; DCtl, D-citrulline; Lys(Mor), L-2-amino-6-(morpholin-4-yl)-hexanoic acid], and CRISP RNA levels were assessed by northern blot and competitive reverse transcriptase-mediated (RT)-PCR. In the salivary gland, CRISP-1 and to a lesser extent CRISP-3 expression was markedly reduced, in spite of an up-regulation of androgen receptor transcript levels. A down-regulation of CRISP-1 expression was also observed in the epididymis. Conversely, the levels of the testicular CRISP-2 transcripts were hardly affected at all. Female mice were ovariectomised and treated with testosterone propionate, and their salivary gland RNAs analysed. CRISP-1 and CRISP-3 RNA levels were significantly increased, and these effects were prevented by a concomitant treatment with the antiandrogen flutamide. Androgen receptor transcript levels were not affected by androgen administration but increased following antiandrogen treatment. CRISP expression during postnatal development was monitored by northern blot analysis. CRISP-1 and CRISP-2 transcripts were detected as early as 22 days after birth in the epididymis and testis, respectively, whereas CRISP-3 mRNA was visible only from day 30 in the salivary gland. A sharp increase of all CRISP levels was noted on day 40, coincident with the onset of sexual maturity. Altogether these results indicate that despite their high similarity, the CRISP genes are differentially regulated by androgens.
对编码富含半胱氨酸分泌蛋白(CRISP)的基因在其主要表达部位的雄激素依赖性进行了分析。用促性腺激素释放激素拮抗剂Ac-DNapAla-DClPhAla-DPyrAla-Ser-Tyr-DCtl-Leu-Lys(Mor)-Pro-DAla-NH2 [DNapAla,D-2-萘基丙氨酸;DClPhAla,D-4-氯苯基丙氨酸;DPyrAla,D-吡啶-3-基丙氨酸;DCtl,D-瓜氨酸;Lys(Mor),L-2-氨基-6-(吗啉-4-基)己酸] 处理雄性小鼠,通过Northern印迹和竞争性逆转录酶介导的(RT)-PCR评估CRISP RNA水平。在唾液腺中,尽管雄激素受体转录水平上调,但CRISP-1以及程度较轻的CRISP-3表达明显降低。在附睾中也观察到CRISP-1表达下调。相反,睾丸CRISP-2转录本水平几乎没有受到影响。对雌性小鼠进行卵巢切除并用丙酸睾酮处理,然后分析其唾液腺RNA。CRISP-1和CRISP-3 RNA水平显著增加,而这些作用可通过同时给予抗雄激素氟他胺来阻止。雄激素给药不影响雄激素受体转录水平,但抗雄激素治疗后其水平升高。通过Northern印迹分析监测出生后发育过程中的CRISP表达。分别在附睾和睾丸中最早在出生后22天检测到CRISP-1和CRISP-2转录本,而CRISP-3 mRNA仅在唾液腺中从第30天开始可见。在第40天注意到所有CRISP水平急剧增加,这与性成熟的开始一致。总之,这些结果表明,尽管CRISP基因具有高度相似性,但它们受雄激素的调控存在差异。
