Steroidal regulation of uterine edema and tissue inhibitors of metalloproteinase (TIMP)-3 messenger RNA expression is altered in TIMP-1-deficient mice

Tissue inhibitors of metalloproteinases (TIMPs) are expressed within the uteri of virtually all species where they are postulated to control extracellular matrix turnover, cellular apoptosis, and proliferation. The objective of the current study was to examine the steroidal regulation of uterine TIMP expression and to determine the potential role of the TIMP-1 gene product in this regulation. To accomplish these goals, ovariectomized female TIMP-1 wild-type and null mice were treated with estradiol, progesterone, or estradiol and progesterone and killed at various times after steroid administration. Estradiol induced a significant reduction in uterine TIMP-3 expression in wild-type mice at 8 and 24 h post-steroid administration, but the ability of this steroid to decrease TIMP-3 expression was impaired in the uteri of TIMP-1 null mice. Further, estrogen-induced uterine wet-weight gain/edema was enhanced in the TIMP-1 null mice, and the antiestrogen compound ICI 182780 or progesterone could only partially block this estrogenic effect. It is concluded from this study that steroidal modulation of uterine TIMP-3 expression and regulation of wet-weight gain/edema are altered in TIMP-1 null mice. These observations suggest that steroids induce uterine TIMP-1 expression and, in turn, that TIMP-1 influences TIMP-3 mRNA expression and uterine edema.     

GRP78 expression and immunohistochemical localization in the female reproductive tract of mice

The 78-kDa glucose-regulated protein (GRP78) is an endoplasmic reticulum chaperone, with multiple functional roles in protein processing and provision of cellular protection. However, the physiological role of GRP78 in embryo development is not clear. Localization of GRP78 and expression of its mRNA in the reproductive organs throughout the estrous cycle in mice were investigated by immunohistochemistry and real-time polymerase chain reaction, respectively. Whereas there was intense staining for GRP78 in the oviduct at estrus, the ciliated cells of isthmus had better staining than those of infundibulum and ampulla at all phases of the cycle. Furthermore, GRP78 was located in the uterine luminal and glandular epithelial cells throughout the estrous cycle, particularly during the estrus phase. However, levels of GRP78 mRNA in the oviduct and uterus varied during the cycle, with peaks at estrus. In conclusion, GRP78 expression varied with the phase of the murine estrous cycle; this might be related to gamete transport, fertilization and early development of the zygote/embryo.     

Disruption of the TIMP-1 gene product is associated with accelerated endometrial gland formation during early postnatal uterine development

Postnatal uterine development is marked by periods of tissue remodeling. The objective of the present study was to examine the role of tissue inhibitor of metalloproteinase-1 (TIMP-1), a regulator of tissue remodeling events, during postnatal uterine development and to assess the phenotypic consequences of disruption of the TIMP-1 gene product during this time period. To accomplish this goal, wild-type and TIMP-1 null mice were sacrificed at Postnatal Days (PNDs) 5, 10, 15, 20, and 25 and uterine morphology, TIMP expression and matrix metalloproteinase (MMP) activity were assessed. In wild-type mice, TIMP-1 mRNA steady-state levels were highest at PND 5, after which expression decreased. TIMP-2 and TIMP-3 expression in wild-type mice showed no significant changes from PND 5 to 25. In TIMP-1 null mice, TIMP-2 and TIMP-3 expression patterns were similar to those in wild-type counterparts with the exception that, at PND 10, TIMP-2 and TIMP-3 expression was significantly lower in the null mice. Endometrial gland number and uterine histology were similar between genotypes at PNDs 5 and 10, but at PNDs 15 and 20, endometrial glands were more abundant in TIMP-1 null mice. Associated with the increased gland density in the null mice was an increase in total MMP activity above the levels expressed in wild-type mice. In summary, disruption of the TIMP-1 gene product is associated with reduced TIMP-2 and TIMP-3 steady-state mRNA levels, elevated MMP activity, and accelerated endometrial gland formation. We conclude that, during early postnatal uterine development, TIMP-1 may be critical for proper endometrial gland development.     

LacZ expression in Fut2-LacZ reporter mice reveals estrogen-regulated endocervical glandular expression during estrous cycle, hormone replacement, and pregnancy

The secretor gene (FUT2) encodes an alpha(1,2)fucosyltransferase (E.C. 2.4.1.69) that elaborates alpha(1,2)fucose residues on mucosal epithelium and secreted mucins. Though uterine alpha(1,2)fucosylated glycans have been proposed to be involved in embryo adhesion, mice with a homozygous null mutation of Fut2 displayed normal fertility. To help develop alternative hypotheses for function, the cell type and regulation of Fut2 expression during the estrous cycle, hormone replacement, and pregnancy was examined in Fut2-LacZ reporter mice containing targeted replacement of Fut2 with bacterial lacZ. LacZ expression in the reproductive tract of Fut2-LacZ mice is most prominent in the glandular epithelium of the endocervix during estrus and pregnancy. Nuclear LacZ expression identifies cell-specific expression of Fut2 in mucus-secreting cells of the endocervix, uterine glands, foveolar pit and chief cells of the stomach, and goblet cells of the colon. In ovariectomized Fut2-LacZ mice, estradiol treatment stimulates X-gal staining in endocervix and uterus but does not affect expression in stomach and colon. Northern blot analysis in wild-type mice shows 15-fold elevations of Fut2 steady-state mRNA with estradiol treatment, whereas Fut1 varies little. Fut2 levels in the glandular stomach and distal colon remain constant, and uterine Fut2 levels vary eightfold during the estrous cycle. These data represent the first demonstration of a glycosyltransferase gene under tissue-specific hormonal regulation in a LacZ reporter mouse model. Endocervical expression of Fut2 in estrus and pregnancy may modify cervical mucus barrier properties from microbial infection analogous to the potential role of mucosal glycans in humans.     

Fluctuations of lactoferrin protein and messenger ribonucleic acid in the reproductive tract of the mouse during the estrous cycle.

The physiological role of lactoferrin (LF), the major estrogen-inducible protein in the murine uterus, is unclear; however, LF may be a useful marker for the study of estrogen action in the uterus. Thus, the expression of LF mRNA and the localization of the protein in genital tract tissues and secretions of female mice (6-8 wk old) at different stages of the estrous cycle were investigated. Uterine luminal fluid (ULF) was analyzed for LF by means of gel electrophoresis and Western blot techniques; LF mRNA and protein were identified in reproductive tract tissues through in situ hybridization and immunocytochemistry. At diestrus, the level of LF mRNA was low, and staining for the protein was very light in uterine epithelial cells; LF was undetectable in ULF. At proestrus, LF mRNA and protein increased in the uterine epithelium and LF was readily detectable in ULF. LF mRNA and protein reached the highest levels at estrus. At early metestrus as compared to estrus, LF mRNA and protein were detected in decreasing amounts in uterine epithelial cells; the protein was undetected in ULF. By late metestrus and diestrus, LF mRNA and protein returned to a low level, and the protein was undetectable in ULF. LF protein was also demonstrated by immunocytochemistry in the epithelium of the oviduct, cervix, and vagina. LF protein fluctuation similar to that observed in the uterus was seen in these tissues; however, the uterus demonstrated the most dramatic changes in the number of epithelial cells involved in LF production during the estrous cycle. In summary, LF mRNA and its expression in uterine epithelial cells of the mouse varied with the stage of the estrous cycle. These results, combined with previously reported findings that LF is a major constituent of mouse ULF under the influence of estrogen, suggest that LF may play an important role in normal reproductive processes.     

Interleukin-1, interleukin-6, and tumor necrosis factor alpha are produced in the mouse uterus during the estrous cycle and are induced by estrogen and progesterone.

The ovarian steroids, estrogen and progesterone, regulate cellular and molecular changes which occur in the uterus during the estrous cycle. Cycles of protein synthesis, cell proliferation and differentiation, and cell death are the direct results of changes in hormone concentration. To explore the possibility that cytokines, which stimulate proliferation and differentiation of numerous types of cells, might be associated with those cyclic changes, the production of IL-1, IL-6, and TNF alpha was examined in the mouse uterus. Cytokine mRNA expression, bioactivity, and immunoreactivity were quantitated during the estrous cycle, following ovariectomy and exposure of ovariectomized mice to estrogen and progesterone. IL-1, IL-6, and TNF alpha mRNA was detected, and mRNA levels for each of the cytokines varied with the stage of the cycle. Cytokine bioactivity was expressed throughout the cycle, but levels of each cytokine were highest during proestrus and/or estrus. Immunoreactivity paralleled bioactivity. Uterus from ovariectomized mice contained little or no cytokine activity, and systemic administration of estrogen or progesterone resulted in the induction of IL-1 alpha and IL-1 beta mRNA expression. Significant amounts of IL-6 and TNF alpha mRNA appeared only following the exposure of ovariectomized mice to estrogen plus progesterone. Cytokine bioactivity and immunoreactivity also appeared following the administration of estrogen and/or progesterone. The highest activity levels for each cytokine were observed following the injection of estrogen plus progesterone. Cyclic expression of IL-1, IL-6, and TNF alpha in the uterus and their apparent regulation by estrogen and progesterone raise the possibility that cytokines and factors which are induced by cytokines are part of the regulatory process which is induced by ovarian hormones in the uterus of reproductive age females.     

Changes in the levels of protein and steroid hormones in the plasma and steroid hormone receptors in the uterus of normal cycling guinea pigs

This study deals with the estrous cycle of guinea pigs in relation to sexual behavior, uterine weight, levels of gonadotropins, steroid hormones, and steroid hormone receptors in the uterus. The guinea pigs in this study showed cyclic changes in various reproductive functions broadly similar to other laboratory species studied. The increase in the uterine weight coincided with high concentration of steroid hormones (estradiol and progesterone) secreted during proestrus and estrus. The elevated levels of steroid hormone receptor concentrations in the uterus during these periods also confirm the role of these hormones. The rise in progesterone level from day 14 of the cycle was associated with lordosis and its related behavior. It was noted that the "estrus behavior" is the most accurate external marker for ovulation and sexual receptivity to males. It was also observed that there is an association between follicle-stimulating hormone and luteinizing hormone during the preovulatory period that was not demonstrated in previous studies.     

Shifts in gonadotropin and steroid levels that precede anestrus in female golden hamsters exposed to a short photoperiod

Female golden hamsters exposed to short photoperiods become anestrous and exhibit daily surges of gonadotropins and progesterone. Since little is known about the transition between the cycling and anovulatory states, the following experiments were done to determine whether there are hormonal changes that precede cessation of estrous cyclicity. Females killed on the morning of estrus, up to the tenth estrous cycle in short days, showed no hormonal or ovarian morphologic evidence of changes in reproductive function. When assessed on the afternoon of estrus, however, serum levels of luteinizing hormone and progesterone increased significantly before vaginal and ovarian cyclicity ceased. Females sampled in both the morning and afternoon at increasing durations since their last vaginal estrus revealed that maximal daily surges of both gonadotropins and progesterone were not consistently manifested until the vaginal cycle had been absent for 2 weeks. By then, estrogen levels and uterine weights were low and ovaries showed hypertrophied interstitia and arrested follicular growth. We have demonstrated that there are hormonal changes in females before the loss of the vaginal cycle and onset of major daily hormonal surges. Our results suggest that alterations in feedback relationships between steroid hormones and gonadotropins may precede photoperiod-induced anestrus.     

Estrogen-induced uterine abnormalities in TIMP-1 deficient mice are associated with elevated plasmin activity and reduced expression of the novel uterine plasmin protease inhibitor serpinb7

Tissue inhibitor of metalloproteinase-1 (TIMP-1) is a multifunctional protein capable of regulating a variety of biological processes in a wide array of tissue and cell types. We have previously demonstrated that TIMP-1 deficient mice exhibit alterations in normal uterine morphology and physiology. Most notably, absence of TIMP-1 is associated with an altered uterine phenotype characterized by profound branching of the uterine lumen and altered adenogenesis. To begin to assess the mechanism by which TIMP-1 may control these uterine events, we utilized steroid-treated ovariectomized wild-type and TIMP-1 null mice exposed to estrogen for 72 hr. Administration of estrogen to TIMP-1 deficient mice resulted in development of an abnormal uterine histo-architecture characterized by increased endometrial gland density, luminal epithelial cell height, and abnormal lumen structure. To determine the mediators which may contribute to the abnormal uterine morphology in the TIMP-1 deficient mice, cDNA microarray analysis was performed. Analysis revealed that expression of two plasmin inhibitors (serpbinb2 and serbinb7) was significantly reduced in the TIMP-1 null mice. Associated with the reduction in expression of these inhibitors was a significant increase in plasmin activity. Localization of the novel uterine serpinb7 revealed that expression was confined to the luminal and glandular epithelial cells. Further, expression of uterine serpinb7 was decreased by estrogen and showed an inverse relationship with plasmin activity. We conclude from these studies that in addition to controlling MMP activity, TIMP-1 may also control activity of serine proteases through modulation of serine protease inhibitors such as serpinb7.     

间情期与发情期比格犬子宫与卵巢组织形态学的比较

目的比较比格犬的子宫、卵巢在间情期与发情期的组织形态学的差异,为后期研究奠定基础。方法用化学发光法测定了23只经产比格母犬的血清性激素水平,选取经血清学鉴定处于发情期的比格犬2只,间情期的比格犬4只的卵巢和子宫标本,中性多聚甲醛固定,石蜡包埋,常规HE染色镜检,拍照。结果间情期犬子宫及其内膜较薄,间质纤维增生,黄体中以初级卵泡为主,可见1～2个次级卵泡,未见成熟卵泡,卵泡和黄体细胞间纤维较多、血管少。发情期犬子宫及其内膜增厚,内膜腺体腔较大,部分腺体呈分枝状弯曲,腺上皮肿大,胞浆淡染,少数可见核下空泡。卵巢中卵泡数量较多,有初级、次级和1～2个成熟卵泡。黄体细胞数量多,排列规则,境界清楚,间质纤维比较疏松,血管多,未见空泡变性。间情期和发情期犬卵巢中未见明显白体。结论间情期比格犬的性激素维持在一比较低的水平,在发情前期雌激素水平迅速增高,而在排卵后比格犬的孕酮水平较高。随发情周期的变化,卵巢和子宫在形态学上发生相应的变化。     

Steroidal control mechanism of cell proliferation in mouse uterine epithelium

The percentage of labeled cells in the uterine luminal epithelium of cycling mice showed the different zonal distributions at each stage of estrous cycle after cumulative labeling with 3H-thymidine for 36 hr. It was estimated that the proliferating fraction in the epithelium at proestrus, estrus, metestrus, and diestrus was 100%, 100%, 40% and 5%, respectively. The percentage of labeled cells in the uterine luminal epithelium of cycling mice treated with progesterone remained below 10% level for at least 20 hr after injections of progesterone. Total labeling was attained in the uterine epithelium of castrated mice by the administration of estradiol-17beta. On the other hand, the cell proliferation in the uterine epithelium of castrated mice treated with estradiol and progesterone was markedly suppressed and the percentage of labeled cells remained approximately at 35%. The remaining cell population, however, still showed the mitotic potency when mice received estradiol. It is suggested from this study that the effect of progesterone is to suppress the epithelial cell proliferation and transfer cells into resting cell fraction which is still evoked to proliferate as the effect of estradiol and that a key factor controlling epithelial proliferation in mouse uterus during the estrous cycle is proliferating fraction rather than cell cycle time.     

Messenger RNA levels of estrogen receptors alpha and beta and progesterone receptors in the cyclic and inseminated/early pregnant sow uterus

The aim of the present study was to investigate differences in the expression of mRNAs for ERalpha, ERbeta and PR in the sow uterus at different stages of the estrous cycle as well as in inseminated sows at estrus and during early pregnancy by use of solution hybridization and in relation to plasma levels of estradiol and progesterone. Uterine samples were collected at different stages of the estrous cycle and after insemination/early pregnancy. In the endometrium, the expression of ERalpha mRNA and PR mRNA was similar for cyclic and early pregnant groups. Both were highest at early diestrus/70 h after ovulation and ERalpha mRNA was lowest at late diestrus/d 19 while PR mRNA was lowest at diestrus and late diestrus/d 11 and d 19. The expression of endometrial ERbeta was constantly low during the estrous cycle but higher expression was found in inseminated/early pregnant sows at estrus and 70 h after ovulation. In the myometrium, high expression of ERalpha mRNA and PR mRNA was observed at proestrus and estrus in cyclic sows and at estrus in newly inseminated sows. Higher expression of myometrial ERbeta mRNA was found in inseminated/early pregnant sows compared with cyclic sows, although significant only at estrus. In conclusion, the expression of mRNAs for ERalpha, ERbeta and PR in the sow uterus differed between endometrium and myometrium as well as with stages of the estrous cycle and early pregnancy. In addition to plasma steroid levels, the differences between cyclic and inseminated/early pregnant sows suggest that other factors, e.g. insemination and/or the presence of embryos, influence the expression of these steroid receptor mRNAs in the sow uterus.     

基质金属蛋白酶-2、-9及其组织抑制因子(TIMPs)在动情周期大鼠子宫中的表达(英文)

基质金属蛋白酶（ＭＭＰｓ）家族的作用是降解所有细胞外基质,其活性受其特异性组织抑制因子（ＴＩＭＰｓ）的抑制。细胞外基质成分的降解与重组在动物生殖生长过程中起重要作用,其变化可以通过ＭＭＰｓ和ＴＩＭＰｓ两者表达水平的变化进行监测。大鼠虽然没有月经形成,但是在其子宫内膜也出现类似灵长类的生殖生物学变化。本文从ＭＭＰｓ和ＴＩＭＰｓ两者的表达水平,对大鼠子宫内膜的这些变化进行了研究。于大鼠动情周期的不同时期,将其处死、取子宫制备酶粗提液和组织切片,采用酶谱法（ｚｙｍｏｙｒａｎｈｎ）和原位杂交方法研究动情周期大鼠子宫中ＭＭＰ－２和－９的活性变化以及ＭＭＰ－２、－９和ＴＩＭＰ－１、－２、－３ｍＲＮＡ的表达。并通过光密度扫描方法对酶谱结果进行半定量分析。所用杂交探针见Ｔａｂｌｅ１。酶谱结果显示：在动情周期大鼠子宫中只检测到６７ｋＤａ的ＭＭＰ－２活性,而没有检测到ＭＭＰ－９的活性（Ｆｉｇ．１）。ＭＭＰ－２的活性在动情前期最高,动情期和动情后期次之,间情期最低（Ｆｉｇ．２）。原位杂交结果显示：ＭＭＰ－２、－９、ＴＩＭＰ－１、－２、－３ｍＲＮＡ主要在子宫内膜基底部的基质细胞中表达。ＭＭＰ－２和－９ｍＲＮＡ在动情前期、动情期和动