Expression and regulation of integrin receptors in human trophoblast cells: role of estradiol and cytokines

Embryo implantation and placentation are dynamic cellular events that require not only synchrony between the maternal environment and the embryo, but also complex cell-cell communication amongst the implanting blastocyst and the receptive endometrium through integrins, a large family of proteins involved in the attachment, migration, invasion and control of cellular functions. Integrins display dynamic temporal and spatial patterns of expression by the trophoblast cells during early pregnancy in humans. However, the precise mechanism of embryo implantation and the modulation of the integrin receptors during blastocyst attachment and further implantation remain elusive in the humans. The present study elucidates the expression and hormonal modulation of fibronectin, vitronectin and laminin integrin receptors by estradiol and IL-1alpha in human trophoblast cells. Human first trimester trophoblast cells showed the induction of the classical estrogen receptor (ER)-alpha by its own ligand, estradiol. Treatment with either estradiol or IL-1alpha induced the expressions of alpha4, alpha5, alpha6 and alpha(v) integrin receptor subunits at both the mRNA and protein levels, while expression of beta1 remained unaltered. Furthermore, estradiol upregulated the expression of IL-1alpha, thereby suggesting the possibility that estrogen may either directly or via the proinflammatory cytokine induces the expression of the cell surface integrin receptors. The findings delineate the role of hormones and the cytokines in modulating the adhesiveness and attachment of the trophoblast cells. This may reflect the in vivo scenario where the implanting embryo is surrounded by a hormone-cytokine rich uterine microenvironment that may precisely regulate the expression of integrins and thereby facilitate implantation.     

降钙素对胚胎着床的影响机理

降钙素(calcitonin,CT)是甲状腺滤泡旁细胞分泌的一种含有32个氨基酸残基的肽类激素,是动物体内重要的调节钙磷代谢的内分泌因子。近年来的研究发现CT在胚胎着床过程中起着重要的作用。胚胎着床涉及到母体子宫和胚胎之间的复杂而精确的调控。在孕激素作用下,围着床期子宫内膜表达CT,CT与其膜受体结合后可激活腺苷酸环化酶(adenylate cyclase,AC)和磷脂酶(Cphospholipase C,PLC)等激酶的活性,促进细胞外Ca2 内流,从而促使子宫内膜和胚胎发生一系列的变化,有利于胚胎的植入。     

Expression of alphaV and beta3 integrin subunits during implantation in pig

Integrin are adhesion molecules involved in uterine-conceptus interactions during the perimplantation period. In this study, the expression of alphaV and beta3 integrin subunits in endometrium during implantation in pigs was investigated. The immunohistochemical location was performed on paraformaldehyde-fixed, paraffin-embedded tissue sections, and the mRNA expression of alphaV was detected in endometrium. In addition, serum levels of estradiol, progesterone, follicle-stimulating hormone, and luteinizing hormone were measured on Days 0, 12, 18, and 25 of pregnancy. The results indicate that endometrium expressed integrin alphaV and beta3 in all stages examined. The most intensive staining for integrin alphaV and beta3 was observed in endometrial stroma in porcine pregnancy on Day 18. The mRNA of alphaV integrin strongly expressed on Day 18, and moderately expressed on Days 12 and 25. The correlation between serum hormone level and the mRNA expression of alphaV integrin was not significant. The expression patterns of integrin alphaV and beta3 during implantation provide insights into the important physiological function of alphaVbeta3 integrin in pig, and the strong expression of integrin alphaV and beta3 in mid-implantation may indicate its crucial role in successful implantation and embryo survival.     

Regulation of gap junction connexins in the endometrium during early pregnancy

In mammalian species embryo implantation into uterine tissue is restricted to a limited time period, the receptive phase. For successful implantation appropriate differentiation of the receptive endometrium is under the control of ovarian steroid hormones. In addition, locally acting embryonic signals are needed to modulate the maternal environment before invasion of the trophoblast is permitted. The expression pattern of gap junction channel proteins, connexins (cx), is directly related to this process. In rodents as well as in rabbit and humans the receptive endometrium is characterized by a lack of such cell-to-cell communication channels. In the rat endometrium cx26 is suppressed in the epithelium and cx43 in the stromal compartment by maternal progesterone, a phenomenon that can be observed similarly in human endometrium. Experimental approaches revealed that both connexin genes react very sensitively to progesterone and estrogen treatment. In rat and rabbit connexin expression is induced locally in the endometrium in response to the implanting blastocyst. In both species this induction of connexins can be mimicked by a traumatic stimulus. In conclusion, suppression of connexin expression in the endometrium is a characteristic cell biological indication for receptivity in different species. The limited induction of direct cell-to-cell communication properties, probably due to locally acting blastocyst signals, seems to be a precondition for embryo implantation.     

Profiling of E-cadherin, beta-catenin and Ca(2+) in embryo-uterine interactions at implantation

Establishment of early pregnancy is promoted by a complex network of signalling molecules that mediate cell-to-cell and cell-to-extracellular matrix communications between the receptive endometrium and the invasive trophectoderm. In this study, we have attempted to evaluate the expression profiles of cadherin and catenin during embryo implantation in the mouse. Western blotting studies along with immunocytochemical analysis revealed that E-cadherin is expressed rather ubiquitously in the uterine epithelial cells, distinct enrichment is observed on the apical membrane in the endometrium of peri-implantation uterus specifically at the implantation sites and not at the inter-implanation sites. beta-Catenin also is upregulated and is specifically restricted to apical membrane of epithelial cells of implantation sites. Progesterone induced expression of E-cadherin and 17beta-estradiol regulated the expression of catenin in implantation-delayed uteri. Interestingly, estradiol imparted negative modulation on cadherin expression when co-administered with progesterone. On the contrary, trophoblast exhibits a striking down regulation of cadherin, catenin and Ca(2+) at peri implanting stage. These observations suggest that the trophoblasts exhibited an invasive phenotype while the endometrial epithelium displayed an adhesive phenotype during the window of implantation. Thus, embryo implantation presents an instance where two interacting surfaces showed mutually complementing interaction phenotypes.     

Steroids modulate the expression of alpha4 integrin in mouse blastocysts and uterus during implantation

Blastocyst implantation and successful establishment of pregnancy require delicate interactions between the embryo and the maternal uterine milieu, which are controlled at the embryo-maternal interface by the coordinated interplay of a variety of growth factors, cytokines, hormones, and cell adhesion molecules expressed by both the decidualized endometrium and the trophoblast cells. Proper implantation of the embryo is solely dependent on the initial endometrial receptivity and the preparation of the blastocyst to glue itself to the uterine wall. Both these events are considered to be mediated by cell adhesion molecules and integrins expressed by the blastocyst as well by as the maternal endometrium. Integrin expression by the blastocyst and the uterus is a dynamic process. However, reports on the expression and the hormonal modulation of integrins and their role in blastocyst activation and uterine receptivity during implantation are meager. The present study investigates the expression and hormonal regulation of alpha4beta1 integrin by steroid hormones in the blastocyst and the receptive uterus using an in vivo, delayed-implantation mouse model system. The dormant and activated blastocysts as well as the uteri were recovered from ovariectomized mice after progesterone-alone and progesterone-plus-estrogen therapy, respectively. Immunolocalization of protein expression of alpha4 and beta1 integrin subunits indicate that steroids modulate the expression of alpha4beta1 integrin receptor in the mouse blastocyst as well as the uterus and that a differential expression is observed with exposure to progesterone and estrogen. Intrauterine blocking of alpha4 integrin by specific antibody resulted in implantation failure in normal as well as in delayed-implantation mice. Based on our data, we propose here, to our knowledge for the first time, that alpha4beta1 integrin, which is responsible for binding to fibronectin and vascular cell adhesion molecule-1, is induced by estradiol and is down-regulated by progesterone in mice during implantation. Furthermore, the results also indicate the direct role of alpha4 integrin in the process of implantation.     

梅山猪胚胎附植期EphB2的组织表达及RNA-seq分析

猪产仔数是一个重要的经济和繁殖性状, 而胚胎附植是影响猪产仔数的重要因素。为了研究促红细胞生成素产生肝细胞受体B2 (EphB2)对猪胚胎附植过程中子宫内膜迁移和粘附活动的影响, 文章以太湖流域梅山猪为研究对象, 利用实时荧光定量PCR (qRT-PCR)和蛋白免疫印迹(Western blot)方法, 检测EphB2基因在梅山猪胚胎附植前、中、后期子宫内膜附植点/非附植点和卵巢组织的mRNA和蛋白表达谱, 并用转录组测序(RNA-seq)方法分析了不同附植时期子宫内膜附植点和卵巢组织的差异表达基因。qRT-PCR和Western blot结果表明, EphB2在胚胎附植前、中、后期子宫内膜附植点和非附植点的mRNA和蛋白均呈现先升高后降低的表达趋势, 且附植中期的表达量显著高于前期和后期(P<0.01);EphB2在附植前、中、后期卵巢中的mRNA和蛋白表达趋势则相反, 为先降低后升高, 且不同时期间表达差异显著(P<0.05)。RNA-seq结果表明, EphB2在子宫内膜附植点的mRNA表达, 附植中期极显著高于附植前期(P<0.01);EphB2在卵巢的mRNA表达, 附植中期显著高于附植后期(P<0.05)。综上所述, EphB2很可能在猪胚胎附植过程中发挥着重要的调控作用, 为潜在的猪产仔数性状候选基因。     

Uterine RGS2 expression is regulated by exogenous estrogen and progesterone in ovariectomized mice,and downregulation of RGS2 expression in artificial decidualized ESCs inhibits trophoblast spreading in vitro

Embryo implantation is a complicated event that relies on two critical factors: the competent blastocyst and the receptive uterus. Successful implantation results from tight coordination of these two factors. The maternal hormone environment of the uterus and molecular cross‐talk between the embryo and uterine tissue play pivotal roles in implantation. Here we showed that regulator of G‐protein signaling 2 (RGS2), a member of ubiquitous family of proteins that regulate G‐protein activation, plays an important role in embryo implantation by interfering in the cross‐talk between the embryo and uterine tissue. RGS2 expression increased during the implantation process, and was higher in the implant site than at the nonimplantation site. Meanwhile, ovariectomized (OVX) mice exhibited higher expression of RGS2 in the uterus. Exogenous 17β‐estradiol and progesterone in OVX mice downregulated the expression of RGS2. Treatment with exogenous 17β‐estradiol alone caused uterine RGS2 messenger RNA levels of OVX mice to return to those of normal female mice; when these mice were treated with progesterone or 17β‐estradiol plus progesterone, RGS2 levels rose. Downregulation of Rgs2 by small interfering RNA in an in vitro coculture system of decidualized endometrial stromal cells and blastocysts inhibited blastocyst outgrowth by restricting trophoblast spreading, suggesting a mechanism by which RGS2 regulates embryo implantation.     

Expression of Eph A molecules during swine embryo implantation

Eph–Ephrin system can induce repulsive forces in cell migration and adhesion during embryonic development in various mammals. In this study, the attachment sites of swine endometrium during pregnancy were used and the physiological role of this system in the step of mammalian embryo implantation was estimated to investigate the involvement of the Eph–Ephrin system in swine embryo implantation. Real-time quantitative PCR indicated that mRNA expression of Eph A1 on endometrium increased extremely significantly around the implantation period (P < 0.01), while expression of Eph A2 and A4 decreased significantly during this period (P < 0.05). Immunostaining showed that protein expression of Eph A1, A2 and A4 in the endometrial stroma underlying the luminal epithelium was higher during mid-implantation compared with early or post-implantation. Western blotting examination demonstrated that protein expression of Eph A1, A2 and A4 at the attachment sites of swine endometrium increased from pregnancy day 13 to 18 (P < 0.01), and then decreased from pregnancy day 18 to 24 (P < 0.01). These findings suggest that the Eph–Ephrin A system might play an important role in regulating the swine contact between blastocysts and endometrium during embryo implantation.     

胚泡表面Le^Y寡糖对小鼠胚泡表皮生长因子及其受体表达和分泌的影响

在胚胎与子宫内膜间识别、粘附及胚胎植入过程中 ,阶段特异表达的寡糖抗原LeY 起重要作用。经与特异性单克隆抗体AH6预保温 ,中和胚泡表面LeY 寡糖后 ,通过RT PCR和免疫印迹方法 ,观察了LeY 寡糖对着床前小鼠胚泡表皮生长因子及其受体的表达和分泌的影响。结果显示 ,在体外培养中 ,经AH6封闭胚泡表面的LeY寡糖后 1.5h ,胚泡EGF的转录及分泌明显受到抑制 (P <0 .0 1) ,并且这种抑制作用持续到 6h以上 ;而EGF R表达及分泌仅有轻微降低的趋势。结果提示 ,EGF表达和分泌的降低可能是胚泡表面LeY 寡糖调节胚泡自身发育及随后的着床过程的多种途径之一     

Role of progesterone on peri-implantation stage endometrium-embryo interaction in the primate

Progesterone secretion during the luteal phase influences oviductal and endometrial functions which are essential for embryo viability and implantation in a number of species including primates. Luteal phase estrogen is not essential for progesterone-dependent endometrial receptivity towards implantation and pregnancy in the rhesus monkey and in the human. However, synchronous development of embryo and endometrium is an essential prerequisite for evolutive implantation. Progesterone helps to maintain synchronous development of preimplantation embryo through its action on maternal uterus. The anti-nidatory action of mifepristone, a potent progesterone receptor modulator (PRM) with pronounced antiprogestagenic activity, is known to be associated with desynchronization of endometrium along with repression of glandular secretory differentiation and vascular maturation. Thus, it is likely that early luteal phase administration of mifepristone affects paracrine action of the secretory stage endometrium on the preimplantation stage embryo, and thereby inhibits embryonic development and viability. We shall examine this hypothesis using the rhesus monkey as a primate model.     

A proteomic atlas of ligand–receptor interactions at the ovine maternal–fetal interface reveals the role of histone lactylation in uterine remodeling

Well-orchestrated maternal–fetal cross talk occurs via secreted ligands, interacting receptors, and coupled intracellular pathways between the conceptus and endometrium and is essential for successful embryo implantation. However, previous studies mostly focus on either the conceptus or the endometrium in isolation. The lack of integrated analysis impedes our understanding of early maternal–fetal cross talk. Herein, focusing on ligand–receptor complexes and coupled pathways at the maternal–fetal interface in sheep, we provide the first comprehensive proteomic map of ligand–receptor pathway cascades essential for embryo implantation. We demonstrate that these cascades are associated with cell adhesion and invasion, redox homeostasis, and the immune response. Candidate interactions and their physiological roles were further validated by functional experiments. We reveal the physical interaction of albumin and claudin 4 and their roles in facilitating embryo attachment to endometrium. We also demonstrate a novel function of enhanced conceptus glycolysis in remodeling uterine receptivity by inducing endometrial histone lactylation, a newly identified histone modification. Results from in vitro and in vivo models supported the essential role of lactate in inducing endometrial H3K18 lactylation and in regulating redox homeostasis and apoptotic balance to ensure successful implantation. By reconstructing a map of potential ligand–receptor pathway cascades at the maternal–fetal interface, our study presents new concepts for understanding molecular and cellular mechanisms that fine-tune conceptus–endometrium cross talk during implantation. This provides more direct and accurate insights for developing potential clinical intervention strategies to improve pregnancy outcomes following both natural and assisted conception.     

Light and electron microscopic radioautography of DNA synthesis in the endometria of pregnant-ovariectomized mice during activation of implantation window.

Pregnant mice were ovariectomized at pre-implantation stage and exogenous nidatory estradiol was administered to evaluate the DNA synthesis of the endometrial cells during activation of uterine receptivity for blastocyst implantation. After 0, 3, 6, 12 and 18 hrs. of estradiol treatment, the animals received 3H-thymidine injection, sacrificed 1 hr. later, and the uteri were prepared for light and electron microscopic radioautography. At time 0, no labelled stromal or epithelial cells was found in the endometrium. According to the time-lapse after estradiol induction, a gradual increase of labelled stromal and endothelial cells was seen in the endometrium. The highest labeling index was observed at the antimesometrial side of the implantation sites and the lowest value was found at the interimplantation site. The cells found at mesometrial side of the implantation site showed an intermediate labeling index. Eighteen hrs. after estradiol treatment, the labelled stromal cells found near the implantation chamber resembled the morphology of decidual cells while those labelled cells localized at the interimplantation sites were similar to the fibroblast. The uterine luminal epithelial cells showed low DNA synthesis after estradiol treatment resulting in only a few labelled cells at the interimplantation sites and no labelled cells at the implantation sites. A similar labeling pattern was seen in the glandular epithelium. The distribution of labelled cells seen among the regions of pregnant endometrium under estradiol effect suggest that DNA synthesis related to uterine activation for blastocyst implantation is a focal reaction, where the luminal epithelium does nt proliferate while the stromal and endothelial cells around the conceptus increase the DNA synthesis to prepare the endometrial decidualization.     

In vivo microscopy of the subepithelial capillary plexus of the endometrium of rats during embryo implantation.

Using in vivo microscopy we investigated endometrial microvascular events occurring on days 5 and 6 of pregnancy at the time of implantation. Blood flow through the endometrium was visualized using incident-light fluorescence microscopy and a video image was recorded for subsequent analysis. At 17:00 h on day 5 of pregnancy it was not possible to identify the impending implantation site from the in vivo appearance of the subepithelial capillary plexus. At 09:00 h on day 6 of pregnancy the embryo implantation site was recognized as an avascular area surrounded by large diameter vessels. These were highly susceptible to haemorrhage when handled. Capillaries closest to the embryo had the greatest diameters, averaging 18.5 +/- 2.5 microns, and capillary diameters decreased to 7.5 +/- 0.4 microns by 2000 microns from the embryo. It was also observed that blood flow through larger diameter vessels was sluggish with frequent reversals and stoppages. Leucocyte rolling and adhesion were also common features in these larger vessels. These data indicate that changes in capillary diameter occur in response to local signals associated with the implanting rat embryo. The embryonic or local endometrial signals that mediate these major microvascular changes remain to be elucidated.     

S100 protein family and embryo implantation

It is well known that embryo implantation is a critical process in which embryo should be able to reach and attach to endometrium. Until now, various types of factors are involved in the regulation of this process. S100 proteins are calcium-binding proteins, which have vital roles in embryo implantation and have been considered as possible candidate markers for endometrial receptivity. However, studies regarding mode of actions of these proteins are scarce and more mechanistic insights are needed to clarify exact roles of each one of the S100 protein family. Understanding of function of these proteins in different compartments, stages, and phases of endometrium, could pave the way for conducting studies regarding the therapeutic significance of these proteins in some disorders such as recurrent implantation failure. In this review, we outlined roles and possible underlying mechanisms of S100 protein family in embryo implantation.