蒙药乌力吉-18对大鼠下丘脑-垂体-卵巢轴相关激素及受体表达的影响

目的:探讨蒙药乌力吉-18对大鼠下丘脑-垂体-卵巢轴相关激素及受体的影响。方法:选取40只健康雌性未孕SD大鼠,随机分为空白组、对照组、乌力吉-18高、低2个剂量组,每组10只。空白组灌胃等体积蒸馏水,对照组灌胃逍遥丸,高、低剂量组分别灌胃2.0 g·kg^-1·d^-1、1.0 g·kg^-1·d^-1乌力吉-18,连续给药31学艺术d。采用酶联免疫吸附法测定血清促性腺激素释放激素(GnRH)、促卵泡生成素(FSH)、黄体生成素(LH)、雌二醇(E₂)及孕酮(PROG)的含量;免疫组化法检测下丘脑组织促性腺激素释放激素(GnRH)、垂体组织促性腺激素释放激素受体(GnRHR)的表达;以蛋白免疫印迹技术检测卵巢组织促卵泡生成素受体(FSHR)、黄体生成素受体(LHR)蛋白表达量。以实时荧光定量PCR检测卵巢组织中FSHR、LHR基因表达量。结果:与空白组比较,乌力吉-18低剂量组可明显升高血清LH含量(P<0.05),上调下丘脑组织GnRH、垂体组织GnRHR表达及卵巢组织FSHR、LHR蛋白表达(P<0.05);乌力吉-18高剂量组可显著升高血清FSH、LH、E₂含量(P<0.05),上调下丘脑组织GnRH表达及卵巢组织FSHR表达量(P<0.05),并可显著升高卵巢组织中FSHR、LHR基因表达量(P<0.05);对照组可明显升高血清E₂含量(P<0.05)。结论:蒙药乌力吉-18可明显升高血清FSH、LH及E₂的含量,促进下丘脑组织GnRH、垂体组织GnRHR及卵巢组织中FSHR、LHR的表达,表明乌力吉-18能够对下丘脑-垂体-卵巢轴相关激素及受体表达产生影响。     

营养制剂对间歇性寒冷暴露大鼠子宫、卵巢内HPO轴功能及能量代谢的影响*

目的: 观察一种自行设计的营养制剂对间歇性寒冷暴露SD雌性大鼠下丘脑-垂体-卵巢轴(HPO轴)功能及能量代谢的影响。 方法: 将雌性SD大鼠分为对照组、寒冷暴露组、营养制剂组,每组11只。对照组、寒冷暴露组每日灌胃蒸馏水,营养制剂组每日灌胃营养制剂,灌胃后寒冷暴露组、营养制剂组每日于-10℃冷舱内暴露4 h,持续14 d后,取血清、子宫、卵巢,采用酶联免疫吸附(ELISA)法测定血清卵泡刺激素(FSH)、黄体生成素(LH)等激素指标,采用比色法等检测ATP酶等能量代谢相关指标。 结果: 与对照组相比,寒冷暴露显著上调大鼠卵巢中FSHR、LHR蛋白表达,增强子宫和卵巢Na⁺-K⁺-ATP酶、Ca²⁺-Mg²⁺-ATP酶活性(P<0.05);与寒冷暴露组相比,营养制剂能够下调低氧暴露大鼠卵巢FSHR、LHR蛋白的表达,抑制卵巢和子宫中Na⁺-K⁺-ATP酶、Ca²⁺-Mg²⁺-ATP酶的活性(P<0.05)。 结论: 营养制剂可以有效改善间歇性寒冷暴露对子宫、卵巢内HPO轴相关受体表达和能量代谢的影响。     

高原鼠兔褪黑素受体在下丘脑-垂体-性腺轴中的表达分析

褪黑素在季节性繁殖动物的生殖细胞发育与性腺功能调控中发挥重要作用,然而褪黑素如何通过下丘脑-垂体-性腺（HPG）轴实现其调控功能目前仍不清楚。因此,本研究选取典型的长日照动物——高原鼠兔（Ochotona curzoniae）作为研究对象,使用酶联免疫吸附法测定繁殖期与非繁殖期雌雄鼠兔的血清褪黑素水平昼夜变化,利用实时荧光定量PCR分析褪黑素受体基因Mtnr1a与Mtnr1b在下丘脑、垂体与性腺中的表达水平,并通过免疫荧光染色进一步确认两种受体在性腺不同类型细胞中的定位。结果显示,非繁殖期雄性鼠兔的血清褪黑素含量始终高于繁殖期,且呈现不同的昼夜变化模式;雌性鼠兔的血清褪黑素含量远低于雄性鼠兔,且在繁殖期与非繁殖期并不存在显著差异。Mtnr1a与Mtnr1b在下丘脑、垂体与性腺中均有表达,雄性鼠兔在下丘脑与垂体中表现出繁殖期与非繁殖期基因表达的显著差异,而雌性鼠兔基因表达的差异主要出现在垂体与性腺中。两种受体蛋白在雄性性腺生殖细胞和支持细胞中均有分布,但MTNR1A更局限于精原细胞内,MTNR1B则在管腔内生殖细胞中表达。雌性性腺中MTNR1A在卵母细胞胞质内有表达,但更集中表达于颗粒细胞;MTNR1B在颗粒细胞以及卵母细胞核质内均有表达,且在生长卵泡的卵泡膜细胞中呈现高表达。以上结果表明,褪黑素调控雌雄高原鼠兔季节性繁殖的模式并不相同,其作用不仅限于通过下丘脑-垂体-性腺轴的间接调控,也可能通过性腺内靶向受体直接影响生殖细胞与体细胞命运。     

芹菜素对雌性大鼠生殖轴的影响

目的：探讨芹菜素在10-9mol/L浓度时对雌性大鼠生殖功能的影响。方法：应用侧脑室注射方法观察芹菜素对雌性大鼠生殖轴激素含量的影响。在侧脑室注射后第3天取血浆,采用放免技术测定血浆中促性腺激素释放激素（GnRH）、卵泡刺激素（FSH）、黄体生成素（LH）、雌二醇（E2）、孕酮（P）的含量。结果：在给药后第3天血浆中促性腺激素释放激素（GnRH）、卵泡刺激素（FSH）、黄体生成素（LH）的含量增加而雌二醇（E2）、孕酮（P）的含量降低,差异有显著性。结论：芹菜素抑制雌二醇（E2）合成中芳香化酶的活性实现对雌二醇（E2）、孕酮（P）分泌的抑制。芹菜素通过影响雌激素受体而使下丘脑的促性腺激素释放激素（GnRH）和腺垂体的卵泡刺激素（FSH）、黄体生成素（LH）分泌增加。     

内皮素促进下丘脑—垂体—卵巢激素的释放

最近发现,内皮素(endothelin,ET)不仅具有强烈的血管活性作用,还可能作为激素调节肽参与性激素的调节。在下丘脑-垂体-卵巢轴的器官和胎盘都有丰富的ETmRNA和ET受体存在。Kanyicska等在培养的雌性大鼠垂体前叶细胞,应用ET-3(10~(-14)～10~(-6)mol/L)明显抑制垂体前叶细胞分泌催乳素(PRL),增加促黄体生成素(LH)、促卵泡素(FSH)和促甲状腺素(TSH)的释放。ET的刺激效     

应激性高血压犬鼠脑干及下丘脑-垂体-肾上腺轴中肾上腺髓质素及其受体mRNA表达的改变

采用逆转录- 聚合酶链式反应检测了慢性足底电击结合噪声应激致高血压大鼠下丘脑、延髓、中脑、垂体和肾上腺等组织中编码肾上腺髓质素的肾上腺髓质素前肽原(preproadrenomedullin, ppADM) 基因以及ADM 的特异性受体组件降钙素受体样受体(calcitonin-receptor-like receptor,CRLR)和受体活性调节蛋白2 和3(receptor-activity-modifying proteins, RAMP2 和RAMP3)表达的变化。我们观察到:与对照组相比,以 3- 磷酸甘油醛脱氢酶作为内参照,15 d 足底电击结合噪声应激引起下丘脑、垂体和肾上腺中ppADM mRNA表达上调,而在延髓和中脑表达明显下调(P<0.01 或 P<0.05); CRLR基因表达量正常时在下丘脑相对较高,应激15 d 后CRLR 表达在延髓、中脑和下丘脑下调(P<0.01 或 P<0.05), 而在垂体和肾上腺的表达无明显变化;应激后RAMP2 基因在延髓和下丘脑表达上调,而在肾上腺表达显著下调(P <0.01), 其他部位无明显变化;RAMP3 基因在对照组大鼠的中脑和下丘脑表达较高,在应激性高血压大鼠的下丘脑和垂体表达上调(P<0.01 或P<0.05), 而在中脑和肾上腺表达下调(P<0.05), 在延髓中的表达变化无统计学差异。上述结果提示:慢性足底电击结合噪声应激引起明显的中枢和下丘脑- 垂体-肾上腺轴ADM 及其受体组件CRLR/RAMP2 或CRLR/R     

应激性高血压大鼠脑干及下丘脑-垂体-肾上腺轴中肾上腺髓质素及其受体mRNA表达的改变

采用逆转录-聚合酶链式反应检测了慢性足底电击结合噪声应激致高血压大鼠下丘脑、延髓、中脑、垂体和肾上腺等组织中编码肾上腺髓质素的肾上腺髓质素前肽原(preproadrenomedullin,ppADM)基因以及ADM的特异性受体组件降钙素受体样受体(calcitonin-receptor-like receptor,CRLR)和受体活性调节蛋白2和3(receptor-activty-modifying proteins,RAMP2和RAMP3)表达的变化.我们观察到:与对照组相比,以3-磷酸甘油醛脱氢酶作为内参照,15 d足底电击结合噪声应激引起下丘脑、垂体和肾上腺中ppADM mRNA表达上调,而在延髓和中脑表达明显下调(P＜0.01或P＜0.05);CRLR基因表达量正常时在下丘脑相对较高,应激15 d后CRLR表达在延髓、中脑和下丘脑下调(P＜0.01或P＜0.05),而在垂体和肾上腺的表达无明显变化;应激后RAMP2基因在延髓和下丘脑表达上调,而在肾上腺表达显著下调(P＜0.01),其他部位无明显变化;RAMP3基因在对照组大鼠的中脑和下丘脑表达较高,在应激性高血压大鼠的下丘脑和垂体表达上调(P＜0.01或P＜0.05),而在中脑和肾上腺表达下调(P＜0.05),在延髓中的表达变化无统计学差异.上述结果提示:慢性足底电击结合噪声应激引起明显的中枢和下丘脑-垂体-肾上腺轴ADM及其受体组件CRLR/RAMP2或CRLR/RAMP3基因的表达变化.但慢性应激后中枢源性ADM及其受体的表达变化对应激和血压的调节以及在应激致高血压中的确切作用及机制尚待进一步研究.     

人卵泡液中有卵泡促性腺激素释放肽

过去曾经多次报道,卵泡液和精液能促进脑垂体促性腺激素分泌,但对其中活性物质的化学结构尚未了解。美国李卓浩等报道,从人卵泡液中分离到一个14肽,即人卵泡促性腺激素释放肽(hF-GRP)。在离体条件下,hF-GRP 具有促进垂体促性腺激素分泌的活性。用小鼠垂体培养法测定,其促进卵泡刺激素(FSH)或黄体生成素(LH)释放的 ED_(50)值分别为每管2.0μg/ml(1.2nmol/L)和2.6μg/ml(1.6nmol/L),活性比下丘脑黄体生成素释放激素(LHRH)低。初步资料表明,hF-GRP 在大鼠完整垂体培养系统及垂体     

促性腺激素抑制激素与生殖轴的关系

下丘脑的促性腺激素释放激素((GnRH)对调控促性腺激素释放十分重要.10年前在鸟类中首先发现了促性腺激素抑制激素(GnIH),它的鉴定提示GnRH不是唯一能直接影响垂体促性腺激素释放的下丘脑神经肤.GnIH及其同系肽广泛存在于鸟类及哺乳动物体内,GnIH在脑部与GnRH神经接触,GnIH可以直接抑制垂体促性腺激素的合成和释放,GnIH及其受体在鸟类和哺乳动物的生殖腺存在.因此GnIH可以在多个水平直接影响生殖轴:脑部、垂体、生殖腺.     

GnRH及其受体在性成熟前后鲇、黄颡鱼脑、垂体和卵巢中的免疫细胞化学定位

用链霉亲和素 -生物素化过氧化物酶复合物 (StreptAvidinBiotin peroxidaseComplex ,SABC)免疫细胞化学方法 ,使用促性腺激素释放激素 (Gonadotropin releasinghormone ,GnRH)以及促性腺激素释放激素受体 (GnRHR) 2种抗血清对性成熟前后的黄颡鱼 (Pelteobagrusfulvidraco)和鲇鱼 (Silurusasotus)的脑、垂体、卵巢中的免疫活性内分泌细胞进行了免疫细胞化学定位。结果表明GnRH和GnRHR免疫活性在两种鱼的各脑区、垂体、卵巢中均有分布 ;两种鱼在性成熟时它们的下丘脑、垂体和卵巢中的GnRH和GnRHR免疫反应细胞数目和免疫反应强度明显高于性成熟前。本文讨论了GnRH、GnRHR直接或间接参与黄颡鱼和鲇鱼性腺发育成熟调节的可能性及形态学证据。可为下丘脑 垂体 性腺轴、神经 内分泌、GnRH功能的多样性等研究领域提供新的形态学依据。     

寒冷对雌性C57BL/6小鼠动情周期的影响*

目的:研究寒冷对雌性C57BL/6小鼠动情周期的影响。方法:12只雌性小鼠随机分为对照组、低温组,每组6只;低温组每天4℃暴露4 h,每天阴道涂片法观察小鼠动情状况,对照组饲养于常温动物房;每2 d称量体重,2周后心脏取血、子宫和卵巢,检测小鼠血清E2、FSH、LH、Prl、P水平,进行子宫、卵巢的组织病理学检查。结果:与对照组比较,低温组小鼠体重无显著性差异(P＞0.05),小鼠子宫脏器系数明显较低、动情间期明显延长(P＜0.01),血清FSH显著升高、Prl显著降低(P＜0.01),小鼠子宫腺管扩张,卵巢卵泡数量明显减少。结论:寒冷可使雌性C57BL/6小鼠动情周期延长,进而可能影响生殖功能。     

Pituitary adenylate cyclase activating polypeptide messenger RNA in the paraventricular nucleus and anterior pituitary during the rat estrous cycle

The neuropeptide pituitary adenylate cyclase activating polypeptide (ADCYAP 1, or PACAP) has been demonstrated to enhance gonadotropin-releasing hormone (GnRH)-induced gonadotropin secretion and regulate gonadotropin subunit gene expression in cultures of anterior pituitary cells. In the present study, we used in situ hybridization and real-time polymerase chain reaction to examine the expression of Pacap mRNA within the paraventricular nucleus (PVN) and anterior pituitary throughout the estrous cycle of the rat. Levels of luteinizing hormone in serum and pituitary gonadotropin subunit mRNAs were evaluated and displayed cyclic fluctuations similar to those reported previously. Pacap mRNA expression in the PVN and pituitary varied significantly during the estrous cycle, with the greatest changes occurring on the day of proestrus. Pacap mRNA levels in the PVN declined significantly on the morning of diestrus. During proestrus, PVN Pacap mRNA levels significantly increased 3 h before the gonadotropin surge and then declined. Pituitary expression of Pacap mRNA also varied on the afternoon of proestrus with a moderate decline at the time of the gonadotropin surge and a significant increase later in the evening. Expression of the mRNA species encoding the 288 amino acid form of follistatin increased significantly following the rise in pituitary Pacap mRNA, at the termination of the secondary surge in follicle-stimulating hormone beta (Fshb) gene expression. These results suggest that PACAP is involved in events before and following the gonadotropin surge, perhaps through increased gonadotroph sensitivity to GnRH and suppression of Fshb subunit expression through increased follistatin, as previously observed in vitro.     

睡眠障碍通过下丘脑-垂体-卵巢轴影响女性生育能力的临床研究

摘要 目的：探究睡眠障碍是如何通过下丘脑-垂体-卵巢轴影响女性生育能力的。方法：选择2018年10月至2021年10月于我院妇科内分泌科就诊的育龄期女性80例作为研究对象,根据匹兹堡睡眠质量指数量表（PSQI）评估结果,将所有研究对象按照是否存在睡眠障碍分为睡眠障碍组（n=34例）和非睡眠障碍组（n=46例）。对比分析两组PSQI评分,血清性激素水平,月经周期,生育能力,通过Pearson法分析睡眠障碍与女性生育能力的相关性。结果：（1）睡眠障碍组PSQI总分以及睡眠质量、入睡时间、睡眠时间、睡眠效率、睡眠障碍和日间功能障碍各方面得分均显著高于对照组（P<0.05）;（2）睡眠障碍组卵泡刺激素（FSH）、黄体生成素（LH）较非睡眠障碍组升高,而雌二醇（E₂）水平低于非睡眠障碍组（P<0.05）;（3）两组月经周期比较,睡眠障碍组月经紊乱比例显著高于对照组（P<0.05）;（4）两组生育能力比较,睡眠障碍组生育能力显著低于对照组（P<0.05）。（5）睡眠障碍与FSH和LH均存在负相关性,和E₂存在正相关（P<0.05）。结论：睡眠障碍可减弱下丘脑-垂体-卵巢轴的驱动,导致卵泡刺激素释放缓慢,延长了月经周期,并导致黄体功能下降,增加了未受孕或者再次异位妊娠的发生率。     

Changes in gonadotrophin and ovarian hormone levels during the estrous cycle of black-tailed deer (Odocoileus hemionus columbianus)

Daily blood samples over a fifteen day period were obtained from two adult female black-tailed deer and circulating levels of progesterone, estrogens, luteinizing hormone (LH), follicle stimulating hormone (FSH) and prolactin were measured by radioimmunoassay. LH levels showed an apogee at the time when there was observed estrous behaviour. The length of the estrous cycle appeared to be 7 days. Progesterone levels peaked just subsequent to the LH peak. High estrogen levels coincided with high progesterone and prolactin levels. FSH reached maximum levels prior to peak estrogen levels. LH and FSH levels reached maxima on different days. There were two steroid peaks between the LH apogees.     

Effects of systemic administration of indomethacin to cyclic ewes on endometrial concentrations of prostaglandins effects on estrous cycle length and on progesterone, luteinizing hormone and prolactin patterns

Experiments were designed to evaluate in cyclic sheep the effects of systemic administration of a prostaglandin synthetase inhibitor (Indomethacin). Indomethacin (100 mg, 3 times daily, S.C.) was administered from day 7 of the estrous cycle for 16 days to five ewes in which the cycle was synchronized as well as the cycles of five control ewes. All control ewes had cycles of approximately 17 days duration, but three of five Indomethacin treated ewes showed no estrous behavior before their slaughter at 23 days after induced ovulation. Autopsy revealed normal corpora lutea which had not undergone luteolysis, as confirmed by progesterone determination in blood. The two remaining Indomethacin treated ewes showed an estrous behavior on day 19 and 20 respectively together with a "preovulatory surge" of luteinizing hormone and prolactin which was not followed by follicular rupture. These results show that inhibition of PGF2 alpha synthesis by systemic administration of Indomethacin to the ewe is able to prevent luteolysis. When luteolysis did occur however, it was not followed by an ovulation despite a normal gonadotropin surge, indicating that inhibition of prostaglandin synthesis by systemic administration of Indomethacin interferes with the luteolysis and follicle rupture processes.     

Puberty and ovulatory release of gonadotropins in spontaneously hypertensive rats

The age at vaginal opening, estrous cyclicity, serum levels of luteinizing hormone (LH), follicle stimulating hormone (FSH) and prolactin (PRL) on the day of proestrus, and number of ova and ovarian weight as measured on the day of estrus in spontaneously hypertensive (SH) and genetically matched normotensive Wistar Kyoto (WKY) female rats were compared. In SH rats, there was a significant delay in the vaginal opening, but the regular 4-day estrous cycle followed afterwards. No significant changes were observed in the afternoon increase in serum LH, FSH and PRL on the day of proestrus in SH and WKY rats, although the basal levels of LH and PRL in the morning (11:00 h) were lower in SH rats than in WKY rats. The mean number of ova in SH rats was also less than in WKY rats, whereas the ovarian relative weight was similar in both species of rats. It can be said that SH rats undergo certain, but not critical, endocrine and/or neuroendocrine changes related to reproduction.     

Effects of quinestrol on reproductive hormone expression, secretion, and receptor levels in female Mongolian gerbils (Meriones unguiculatus)

Quinestrol, a synthetic estrogen with marked estrogenic effects and prolonged activity, has potential as a contraceptive for Mongolian gerbils. The objective of this study was to describe the effects of quinestrol on reproductive hormone expression, secretion, and receptor levels in female Mongolian gerbils. Serum and pituitary concentrations of follicle stimulating hormone (FSH) and luteinizing hormone (LH) were decreased, whereas serum concentrations of estradiol (E2) and progesterone (P4) were increased after quinestrol treatment; the effects were both time- and dose-dependent. Furthermore, quinestrol downregulated expression of FSHβ and LHβ mRNA in the pituitary gland, as well as FSH receptor (FSHR) and estrogen receptor (ER) β in the ovary. However, it up-regulated mRNA expression levels of ERα and progesterone receptor (PR) in the pituitary gland and uterus, as well as mRNA for LH receptor (LHR) and PR in the ovary (these effects were time- and dose-dependent). In contrast, quinestrol had no significant effects on the mRNA expression levels of ERα in the ovary, or the gonadotropin α (GtHα) subunit in the pituitary gland. We inferred that quinestrol impaired synthesis and secretion of FSH and LH and that the predominant ER subtype in the pituitary gland of Mongolian gerbils may be ERα. Overall, quinestrol disrupted reproductive hormone receptor expression at the mRNA level in the pituitary-gonadal axis of the Mongolian gerbil.     

A Mathematical Model for the Actions of Activin,Inhibin, and Follistatin on Pituitary Gonadotrophs

The timed secretion of the luteinizing hormone (LH) and follicle stimulating hormone (FSH) from pituitary gonadotrophs during the estrous cycle is crucial for normal reproductive functioning. The release of LH and FSH is stimulated by gonadotropin releasing hormone (GnRH) secreted by hypothalamic GnRH neurons. It is controlled by the frequency of the GnRH signal that varies during the estrous cycle. Curiously, the secretion of LH and FSH is differentially regulated by the frequency of GnRH pulses. LH secretion increases as the frequency increases within a physiological range, and FSH secretion shows a biphasic response, with a peak at a lower frequency. There is considerable experimental evidence that one key factor in these differential responses is the autocrine/paracrine actions of the pituitary polypeptides activin and follistatin. Based on these data, we develop a mathematical model that incorporates the dynamics of these polypeptides. We show that a model that incorporates the actions of activin and follistatin is sufficient to generate the differential responses of LH and FSH secretion to changes in the frequency of GnRH pulses. In addition, it shows that the actions of these polypeptides, along with the ovarian polypeptide inhibin and the estrogen-mediated variations in the frequency of GnRH pulses, are sufficient to account for the time courses of LH and FSH plasma levels during the rat estrous cycle. That is, a single peak of LH on the afternoon of proestrus and a double peak of FSH on proestrus and early estrus. We also use the model to identify which regulation pathways are indispensable for the differential regulation of LH and FSH and their time courses during the estrous cycle. We conclude that the actions of activin, inhibin, and follistatin are consistent with LH/FSH secretion patterns, and likely complement other factors in the production of the characteristic secretion patterns in female rats.