Hora J, Gosse B, Rasmussen K, Spelsberg T C
Endocrinology. 1986 Sep;119(3):1118-25. doi: 10.1210/endo-119-3-1118.
During primary estrogen stimulation of chick oviduct development, estrogen withdrawal, or secondary estrogen treatment, changes in the oviduct progesterone receptor (PR) occur. The presence of estrogen appears to regulate not only PR concentration but also its biochemical activity, i.e. its capacity to bind to nuclear acceptor sites and alter RNA synthesis. This study reports that estrogen regulates the nuclear binding capacity of the PR even more rapidly than previously reported in fully developed oviducts of chicks that have been injected daily for 4 weeks with diethylstilbestrol (DES). Further, the nuclear binding capacity of the PR correlates with the ability of progesterone (P) to induce avidin protein concentrations in the oviducts in vivo. The PR concentration in the oviducts increases 2-fold within 8 h of the last injection and the decreases to a minimal value by 24 h. Injection of [3H]P into the chicks shows that the in vivo nuclear localization of the steroid increases almost 4-fold at 8 h, followed by a similar decrease to minimal values by 24 h. Cell-free nuclear binding assays, using PR isolated at various times after the last DES injection and oviduct nucleoprotein complexes, indicate that the capacity of the receptors to bind to nuclear acceptor sites is regulated by the estrogen. The enhanced nuclear binding capacity of the isolated PR increases to maximal values by 12-14 h after the last estrogen treatment and then begins to decrease to minimal values by 24 h. Similarly, the ability of P to induce in vivo avidin protein concentrations and to alter general RNA synthesis in the oviducts is reduced by 70% (of the estrogen non-withdrawn chick levels) by 24 h after the last estrogen injection. These changes over the 24-h period after the last DES treatment are not due to changes in the serum DES concentrations. The following 10-day period of estrogen withdrawal reveals a cyclic decaying pattern in the capacity of the PR for nuclear binding. The P induction of avidin and alteration of RNA polymerase II activity, using nuclear run-off experiments, also show a similar cyclic decaying pattern. By 6 days of estrogen withdrawal, the PR is incapable of any nuclear binding, and P cannot induce avidin protein concentrations in the oviducts. Serum DES concentrations over this 10-day period display only a gradual decay.(ABSTRACT TRUNCATED AT 400 WORDS)
在雏鸡输卵管发育的初级雌激素刺激过程中、雌激素撤去时或次级雌激素处理时,输卵管孕酮受体(PR)会发生变化。雌激素的存在似乎不仅调节PR的浓度,还调节其生化活性,即其与核受体位点结合并改变RNA合成的能力。本研究报告称,雌激素对PR核结合能力的调节比之前在每天注射4周己烯雌酚(DES)的雏鸡完全发育的输卵管中所报道的速度更快。此外,PR的核结合能力与孕酮(P)在体内诱导输卵管中抗生物素蛋白浓度的能力相关。在最后一次注射后8小时内,输卵管中的PR浓度增加2倍,然后在24小时时降至最小值。向雏鸡注射[3H]P表明,该类固醇在体内的核定位在8小时时增加近4倍,随后在24小时时同样降至最小值。使用在最后一次DES注射后不同时间分离的PR和输卵管核蛋白复合物进行无细胞核结合试验,表明受体与核受体位点结合的能力受雌激素调节。分离的PR增强的核结合能力在最后一次雌激素处理后12 - 14小时增加到最大值,然后在24小时时开始降至最小值。同样,在最后一次雌激素注射后24小时,P在体内诱导抗生物素蛋白浓度和改变输卵管中一般RNA合成的能力降低了70%(与未撤去雌激素的雏鸡水平相比)。最后一次DES处理后24小时内的这些变化并非由于血清DES浓度的改变。接下来10天的雌激素撤去期显示PR核结合能力呈周期性衰减模式。使用核延伸实验,P对抗生物素蛋白的诱导以及RNA聚合酶II活性的改变也显示出类似的周期性衰减模式。到雌激素撤去6天时,PR无法进行任何核结合,P也不能在输卵管中诱导抗生物素蛋白浓度。在这10天期间血清DES浓度仅呈逐渐衰减。(摘要截断于400字)
