Rosser M, Chorich L, Howard E, Zamorano P, Mahesh V B
Department of Physiology and Endocrinology, Medical College of Georgia, Augusta 30912-3000.
Biol Reprod. 1993 Jan;48(1):89-98. doi: 10.1095/biolreprod48.1.89.
The overall objectives of this study were to determine whether the rapid decrease in estrogen receptor (ER) binding in the rat uterus after an injection of estradiol and subsequent recovery of ER levels was accompanied by similar changes in ER mRNA levels. Furthermore, the effect of progesterone administered under conditions known to decrease ER binding, in the rat uterus, on ER mRNA levels was also investigated. Ovariectomy for 14 days brought about a 3-fold increase in rat uterine ER mRNA levels, and these elevated levels were decreased by a 3-day treatment with 2 micrograms of estradiol in ethanol/saline injected i.p. In the ovariectomized rat, 1 and 5 micrograms of estradiol brought about small but significant decreases in ER mRNA levels in 1 h, which did not parallel the rapid decrease in ER binding at that time reported earlier. The 10-micrograms dose of estradiol brought about a bigger decrease in ER mRNA levels. In the ovariectomized rat primed with estradiol (2 micrograms/day in ethanol/saline), the administration of 2 micrograms of estradiol brought about no change in uterine ER mRNA levels at 6 h as compared to the 1-h time point if the values were not corrected for beta-actin, which was significantly increased at 6 h. A dramatic increase in ER mRNA levels 12 h after the estradiol injection preceded the increase in ER binding observed at 18 h. Progesterone (0.8 mg/kg body weight [BW]) in the absence of estrogen priming brought about minimal but significant inhibition of ER mRNA levels 12 and 18 h after administration, with no effects at 1 and 6 h. In the presence of estrogen priming, the 0.8-mg/kg BW dose of progesterone did not cause any changes in ER mRNA levels beyond those brought about by estrogen alone after 1 h, even though it has been shown to significantly decrease ER binding. This was also true when a larger dose of progesterone (2.0 mg/kg BW) was used, a dose that decreases ER binding to a significantly greater extent than the 0.8-mg/kg BW dose. However, the 4.0-mg/kg BW dose of progesterone decreased ER mRNA levels. Thus a single injection of estradiol appears to cause a decrease in ER binding primarily by accelerated receptor processing and degradation with small changes in ER mRNA within the first hour. A significant increase in uterine ER mRNA at 12 h precedes increased ER binding at 18 h. This indicates new synthesis of ER during the recovery period.(ABSTRACT TRUNCATED AT 400 WORDS)
本研究的总体目标是确定注射雌二醇后大鼠子宫中雌激素受体(ER)结合的快速下降以及随后ER水平的恢复是否伴随着ER mRNA水平的类似变化。此外,还研究了在已知会降低大鼠子宫中ER结合的条件下给予孕酮对ER mRNA水平的影响。切除卵巢14天导致大鼠子宫ER mRNA水平增加3倍,经腹腔注射2微克溶于乙醇/盐水中的雌二醇进行3天治疗后,这些升高的水平下降。在去卵巢大鼠中,1微克和5微克雌二醇在1小时内使ER mRNA水平出现小幅度但显著的下降,这与之前报道的此时ER结合的快速下降并不平行。10微克剂量的雌二醇使ER mRNA水平下降幅度更大。在预先用雌二醇(2微克/天溶于乙醇/盐水中)处理的去卵巢大鼠中,若不根据β-肌动蛋白进行校正,与1小时时间点相比,在6小时时给予2微克雌二醇后子宫ER mRNA水平没有变化,而β-肌动蛋白在6小时时显著增加。雌二醇注射后12小时ER mRNA水平急剧增加,先于18小时观察到的ER结合增加。在无雌激素预处理的情况下,孕酮(0.8毫克/千克体重[BW])在给药后12小时和18小时对ER mRNA水平产生最小但显著的抑制作用,在1小时和6小时时无影响。在有雌激素预处理的情况下,0.8毫克/千克BW剂量的孕酮在1小时后对ER mRNA水平没有引起超出单独雌激素所导致的任何变化,尽管已证明它能显著降低ER结合。当使用更大剂量的孕酮(2.0毫克/千克BW)时也是如此,该剂量比0.8毫克/千克BW剂量更能显著降低ER结合。然而,4.0毫克/千克BW剂量的孕酮降低了ER mRNA水平。因此,单次注射雌二醇似乎主要通过加速受体加工和降解导致ER结合下降,在最初1小时内ER mRNA有小的变化。12小时时子宫ER mRNA显著增加先于18小时时ER结合增加。这表明在恢复期有ER的新合成。(摘要截断于400字)
