The luteotrophic effects of estradiol and prolactin in the absence of LH in the hysterectomized, pseudopregnant rat.

D R Garris
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引用次数: 4

Abstract

Abstract The ability of estradiol and prolactin to substitute for LH as luteotrophins was investigated in Day 5 (Day 1 = ovulation)-hysterectomized pseudopregnant (PSP) rats. All animals received either a sc injection of oil, 1 μg estradiol (E-1), or 150 μg prolactin (PRL) on Day 9 in combination with either a normal horse serum (NHS) or LH antiserum (LHAS) injection. The ability of oil, E-1, or PRL to maintain luteal function was assessed by monitoring serum progesterone levels through Day 12 and their direct effects on the ovary monitored by measuring luteal and extra-luteal ovarian tissue concentrations of estradiol and progesterone on Day 12. NHS treatment in combination with either oil, E-1, or PRL maintained elevated serum progesterone levels through Day 12 of PSP. LHAS/oil-treated rats underwent luteolysis while E-1 and PRL effectively maintained luteal function in LHAS-treated animals. PRL raised luteal and extraluteal ovarian estradiol concentrations compared to oil/NHS-treated controls and LHAS/oil-treated rats. E-1 induced an intraluteal rise in estradiol levels in LHAS-treated rats. While luteal progesterone concentrations fell following oil/LHAS treatment, E-1 and PRL effectively counteracted this LHAS-induced fall. The results of these studies indicate that (i) E-1 and PRL can effectively replace LH as luteotrophins during PSP in the rat and (ii) that PRL and E-1 effectively maintain luteal levels of estradiol and progesterone following LH deprivation. It is suggested that E-1 and PRL may exert their luteotrophic actions by either an E-1-induced increase in PRL which, in turn, acts on the luteal cells to increase intraluteal estradiol concentrations, or by a direct effect of E on the corpus luteum to bypass the requirement for LH.
在黄体生成素缺失的情况下,雌二醇和催乳素对子宫切除假妊娠大鼠黄体生成素的影响。
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