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1. IL11 activates the placental inflammasome to drive preeclampsia

Author

Menkhorst, E, Santos, LL, Zhou, W, Yang, G, Winship, AL, Rainczuk, KE, Nguyen, P, Zhang, J-G, Moore, P, Williams, M, Le Cao, K-A, Mansell, A, Dimitriadis, E, Menkhorst, E, Santos, LL, Zhou, W, Yang, G, Winship, AL, Rainczuk, KE, Nguyen, P, Zhang, J-G, Moore, P, Williams, M, Le Cao, K-A, Mansell, A, and Dimitriadis, E

Abstract

INTRODUCTION: Preeclampsia is a life-threatening disorder of pregnancy unique to humans. Interleukin (IL)11 is elevated in serum from pregnancies that subsequently develop early-onset preeclampsia and pharmacological elevation of IL11 in pregnant mice causes the development of early-onset preeclampsia-like features (hypertension, proteinuria, and fetal growth restriction). However, the mechanism by which IL11 drives preeclampsia is unknown. METHOD: Pregnant mice were administered PEGylated (PEG)IL11 or control (PEG) from embryonic day (E)10-16 and the effect on inflammasome activation, systolic blood pressure (during gestation and at 50/90 days post-natal), placental development, and fetal/post-natal pup growth measured. RNAseq analysis was performed on E13 placenta. Human 1st trimester placental villi were treated with IL11 and the effect on inflammasome activation and pyroptosis identified by immunohistochemistry and ELISA. RESULT: PEGIL11 activated the placental inflammasome causing inflammation, fibrosis, and acute and chronic hypertension in wild-type mice. Global and placental-specific loss of the inflammasome adaptor protein Asc and global loss of the Nlrp3 sensor protein prevented PEGIL11-induced fibrosis and hypertension in mice but did not prevent PEGIL11-induced fetal growth restriction or stillbirths. RNA-sequencing and histology identified that PEGIL11 inhibited trophoblast differentiation towards spongiotrophoblast and syncytiotrophoblast lineages in mice and extravillous trophoblast lineages in human placental villi. DISCUSSION: Inhibition of ASC/NLRP3 inflammasome activity could prevent IL11-induced inflammation and fibrosis in various disease states including preeclampsia.

Published
2023

2. Cyclic processes in the uterine tubes, endometrium, myometrium, and cervix: pathways and perturbations

Author

Holdsworth-Carson, SJ, Menkhorst, E, Maybin, JA, King, A, Girling, JE, Holdsworth-Carson, SJ, Menkhorst, E, Maybin, JA, King, A, and Girling, JE

Abstract

This review leads the 2023 Call for Papers in MHR: 'Cyclical function of the female reproductive tract' and will outline the complex and fascinating changes that take place in the reproductive tract during the menstrual cycle. We will also explore associated reproductive tract abnormalities that impact or are impacted by the menstrual cycle. Between menarche and menopause, women and people who menstruate living in high-income countries can expect to experience ∼450 menstrual cycles. The primary function of the menstrual cycle is to prepare the reproductive system for pregnancy in the event of fertilization. In the absence of pregnancy, ovarian hormone levels fall, triggering the end of the menstrual cycle and onset of menstruation. We have chosen to exclude the ovaries and focus on the other structures that make up the reproductive tract: uterine tubes, endometrium, myometrium, and cervix, which also functionally change in response to fluctuations in ovarian hormone production across the menstrual cycle. This inaugural paper for the 2023 MHR special collection will discuss our current understanding of the normal physiological processes involved in uterine cyclicity (limited specifically to the uterine tubes, endometrium, myometrium, and cervix) in humans, and other mammals where relevant. We will emphasize where knowledge gaps exist and highlight the impact that reproductive tract and uterine cycle perturbations have on health and fertility.

Published
2023

3. Endometrial stromal cell miR-19b-3p release is reduced during decidualization implying a role in decidual-trophoblast cross-talk

Author

Menkhorst, E, So, T, Rainczuk, K, Barton, S, Zhou, W, Edgell, T, Dimitriadis, E, Menkhorst, E, So, T, Rainczuk, K, Barton, S, Zhou, W, Edgell, T, and Dimitriadis, E

Abstract

INTRODUCTION: A healthy pregnancy requires successful blastocyst implantation into an adequately prepared or 'receptive' endometrium. Decidualization of uterine endometrial stromal fibroblast cells (hESF) is critical for the establishment of a healthy pregnancy. microRNAs (miRs) are critical regulators of cellular function that can be released by a donor cell to influence the physiological state of recipient cells. We aimed to determine how decidualization affects hESF miR release and investigated the function of one decidualization regulated miR, miR-19b-3p, previously shown to be associated with recurrent pregnancy loss. METHOD: miR release by hESF was determined by miR microarray on culture media from hESF decidualized in vitro for 3 and 14 days by treatment with oestradiol and medroxyprogesterone acetate. Cellular and whole endometrial/decidual tissue miR expression was quantified by qPCR and localized by in situ hybridization. The function of miR-19b-3p in HTR8/Svneo trophoblast cells was investigated using real time cell analysis (xCELLigence) and gene expression qPCR. RESULTS: From our miR screen we found that essentially all hESF miR release was reduced following in vitro decidualization, significantly so for miR-17-5p, miR-21-3p, miR-34c-3p, miR-106b-5p, miR-138-5p, miR-296-5p, miR-323a-3p, miR-342-3p, miR-491-5p, miR-503-5p and miR-542-5p. qPCR demonstrated that miR-19b-3p, 181a-2-3p and miR-409-5p likewise showed a significant reduction in culture media following decidualization but no change was found in cellular miR expression following decidualization. In situ hybridization localized miR-19b-3p to epithelial and stromal cells in the endometrium and qPCR identified that miR-19b-3p was significantly elevated in the cycling endometrium of patients with a history of early pregnancy loss compared to normally fertile controls. Functionally, overexpression of miR-19b-3p significantly reduced HTR8/Svneo trophoblast proliferation and increased HOXA9 expression.

Published
2023

7. IFPA Meeting 2010 Workshops Report II: Placental pathology; Trophoblast invasion; Fetal sex; Parasites and the placenta; Decidua and embryonic or fetal loss; Trophoblast differentiation and syncytialisation

Author

Al-Khan, A., Aye, I.L., Barsoum, I., Borbely, A., Cebral, E., Cerchi, G., Clifton, V.L., Collins, S., Cotechini, T., Davey, A., Flores-Martin, J., Fournier, T., Franchi, A.M., Fretes, R.E., Graham, C.H., Godbole, G., Hansson, S.R., Headley, P.L., Ibarra, C., Jawerbaum, A., Kemmerling, U., Kudo, Y., Lala, P.K., Lassance, L., Lewis, R.M., Menkhorst, E., Morris, C., Nobuzane, T., Ramos, G., Rote, N., Saffery, R., Salafia, C., Sarr, D., Schneider, H., Sibley, C., Singh, A.T., Sivasubramaniyam, T.S., Soares, M.J., Vaughan, O., Zamudio, S., and Lash, G.E.

Published
2011
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10. Jagged1 regulates endometrial receptivity in both humans and mice

Author

Zhou, W, Menkhorst, E, Dimitriadis, E, Zhou, W, Menkhorst, E, and Dimitriadis, E

Abstract

The human endometrium undergoes cycle-dependent changes and is only receptive to an implanting blastocyst within a narrow window of 2-4 days in the mid-secretory phase. Such functional changes require delicate interplay between a diversity of factors including cytokines and signaling pathways. The Notch signaling pathway members are expressed in human endometrium. We have previously demonstrated that Notch ligand Jagged1 (JAG1) localizes in the endometrial luminal epithelium (LE) and is abnormally reduced in infertile women during receptivity. However, the functional consequences of reduced JAG1 production on endometrial receptivity to implantation of the blastocyst are unknown. This study aimed to determine the role of JAG1 in regulating endometrial receptivity in humans and mice. Knockdown of JAG1 in both primary human endometrial epithelial cells and Ishikawa cells significantly reduced their adhesive capacity to HTR8/SVneo (trophoblast cell line) spheroids. We confirmed that in human endometrial epithelial cells, JAG1 interacted with Notch Receptor 3 (NOTCH3) and knockdown of JAG1 significantly reduced the expression of Notch signaling downstream target HEY1 and classical receptivity markers. Knockdown of Jag1 in mouse LE significantly impaired blastocyst implantation. We identified ten genes (related to tight junction, infertility, and cell adhesion) that were differentially expressed by Jag1 knockdown in LE in mice. Further analysis of the tight junction family members in both species revealed that JAG1 altered the expression of tight junction components only in mice. Together, our data demonstrated that JAG1 altered endometrial epithelial cell adhesive capacity and regulated endometrial receptivity in both humans and mice likely via different mechanisms.

Published
2021

11. MAML1: a coregulator that alters endometrial epithelial cell adhesive capacity.

Author

Zafir, S, Zhou, W, Menkhorst, E, Santos, L, Dimitriadis, E, Zafir, S, Zhou, W, Menkhorst, E, Santos, L, and Dimitriadis, E

Abstract

BACKGROUND: Abnormalities in endometrial receptivity has been identified as a major barrier to successful embryo implantation. Endometrial receptivity refers to the conformational and biochemical changes occurring in the endometrial epithelial layer which make it adhesive and receptive to blastocyst attachment. This takes place during the mid-secretory phase of woman's menstrual cycle and is a result of a delicate interplay between numerous hormones, cytokines and other factors. Outside of this window, the endometrium is refractory to an implanting blastocyst. It has been shown that Notch ligands and receptors are dysregulated in the endometrium of infertile women. Mastermind Like Transcriptional Coactivator 1 (MAML1) is a known coactivator of the Notch signaling pathway. This study aimed to determine the role of MAML1 in regulating endometrial receptivity. METHODS: The expression and localization of MAML1 in the fertile human endometrium (non-receptive proliferative phase versus receptive mid-secretory phase) were determined by immunohistochemistry. Ishikawa cells were used as an endometrial epithelial model to investigate the functional consequences of MAML1 knockdown on endometrial adhesive capacity to HTR8/SVneo (trophoblast cell line) spheroids. After MAML1 knockdown in Ishikawa cells, the expression of endometrial receptivity markers and Notch dependent and independent pathway members were assessed by qPCR. Two-tailed unpaired or paired student's t-test were used for statistical analysis with a significance threshold of P < 0.05. RESULTS: MAML1 was localized in the luminal epithelium, glandular epithelium and stroma of human endometrium and the increased expression identified in the mid-secretory phase was restricted only to the luminal epithelium (P < 0.05). Functional analysis using Ishikawa cells demonstrated that knockdown of MAML1 significantly reduced epithelial adhesive capacity (P < 0.01) to HTR8/SVneo (trophoblast cell line) spheroids compared to cont

Published
2021

12. Medawar's PostEra: Galectins Emerged as Key Players During Fetal-Maternal Glycoimmune Adaptation

Author

Menkhorst, E, Than, NG, Jeschke, U, Barrientos, G, Szereday, L, Dveksler, G, Blois, SM, Menkhorst, E, Than, NG, Jeschke, U, Barrientos, G, Szereday, L, Dveksler, G, and Blois, SM

Abstract

Lectin-glycan interactions, in particular those mediated by the galectin family, regulate many processes required for a successful pregnancy. Over the past decades, increasing evidence gathered from in vitro and in vivo experiments indicate that members of the galectin family specifically bind to both intracellular and membrane bound carbohydrate ligands regulating angiogenesis, immune-cell adaptations required to tolerate the fetal semi-allograft and mammalian embryogenesis. Therefore, galectins play important roles in fetal development and placentation contributing to maternal and fetal health. This review discusses the expression and role of galectins during the course of pregnancy, with an emphasis on maternal immune adaptions and galectin-glycan interactions uncovered in the recent years. In addition, we summarize the galectin fingerprints associated with pathological gestation with particular focus on preeclampsia.

Published
2021

13. Prednisolone Alters Endometrial Decidual Cells and Affects Decidual-Trophoblast Interactions

Author

Grbac, E, So, T, Varshney, S, Williamson, N, Dimitriadis, E, Menkhorst, E, Grbac, E, So, T, Varshney, S, Williamson, N, Dimitriadis, E, and Menkhorst, E

Abstract

Poor pregnancy outcomes such as recurrent pregnancy loss (RPL) and preeclampsia are associated with impaired decidualization and abnormal trophoblast invasion. Emerging evidence suggests that use of corticosteroids, including prednisolone affects fertility by altering uterine function and may be associated with preeclampsia incidence. In this study, using primary and gestational-age appropriate tissue, we aimed to define the effect of prednisolone on human endometrial stromal fibroblast (hESF) decidualization and determine whether hESF decidualization in the presence of prednisolone would alter hESF regulation of trophoblast function. We found that prednisolone treatment reduced hESF cytokine expression (IL6, IL11, IL18, LIF, and LIFR) but had no effect on hESF expression or secretion of the classic markers of decidualization [prolactin (PRL) and IGFBP1]. Using proteomics we determined that prednisolone altered decidualized hESF protein production, enriching hESF proteins associated with acetylation and mitrochondria. Conditioned media from hESF decidualized in the presence of prednisolone significantly enhanced trophoblast outgrowth and trophoblast mRNA expression of cell motility gene PLCG1 and reduced trophoblast production of PGF. Prednisolone treatment during the menstrual cycle and 1st trimester of pregnancy might alter decidual interactions with other cells, including invasive trophoblast.

Published
2021

14. Recurrent pregnancy loss

Author

Dimitriadis, E, Menkhorst, E, Saito, S, Kutteh, WH, Brosens, JJ, Dimitriadis, E, Menkhorst, E, Saito, S, Kutteh, WH, and Brosens, JJ

Abstract

Recurrent pregnancy loss is a distressing pregnancy disorder experienced by ~2.5% of women trying to conceive. Recurrent pregnancy loss is defined as the failure of two or more clinically recognized pregnancies before 20-24 weeks of gestation and includes embryonic and fetal losses. The diagnosis of an early pregnancy loss is relatively straightforward, although progress in predicting and preventing recurrent pregnancy loss has been hampered by a lack of standardized definitions, the uncertainties surrounding the pathogenesis and the highly variable clinical presentation. The prognosis for couples with recurrent pregnancy loss is generally good, although the likelihood of a successful pregnancy depends on maternal age and the number of previous losses. Recurrent pregnancy loss can be caused by chromosomal errors, anatomical uterine defects, autoimmune disorders and endometrial dysfunction. Available treatments target the putative risk factors of pregnancy loss, although the effectiveness of many medical interventions is controversial. Regardless of the underlying aetiology, couples require accurate information on their chances of having a baby and appropriate support should be offered to reduce the psychological burden associated with multiple miscarriages. Future research must investigate the pathogenesis of recurrent pregnancy loss and evaluate novel diagnostic tests and treatments in adequately powered clinical trials.

Published
2020

15. Galectin-7: A Novel Placental-released Driver of Preeclampsia.

Author

Menkhorst, E, Zhou, W, So, T, Santos, L, Zhang, J-G, Syngelaki, A, Nicolaides, K, St-Pierre, Y, Dimitriadis, E, Menkhorst, E, Zhou, W, So, T, Santos, L, Zhang, J-G, Syngelaki, A, Nicolaides, K, St-Pierre, Y, and Dimitriadis, E

Published
2020

16. Involving stakeholders in informing the development of a Knowledge Translation (KT) intervention to improve the vaccination experience at school

Author

Freedman, Tamlyn, Taddio, Anna, Mcmurtry, C. Meghan, Wong, Horace, Macdonald, Noni, Mcdowall, Tori, Devlaming-Kot, Christene, Alderman, Leslie, Cotechini, Davey, A., Flores-Martin, J., Fournier, T., Franchi, A. M., Fretes, R. E., Graham, C. H., Godbole, G., Hansson, S. R., Headley, P. L., Ibarra, C., Jawerbaum, A., Kemmerling, U., Kudo, Y., Lala, P. K., Lassance, L., Lewis, R. M., and Menkhorst, E.

Subjects
Medical education, education, Vaccination, Social environment, Supplement Articles, Focus group, Knowledge translation, Pain management, 3. Good health, 03 medical and health sciences, 0302 clinical medicine, Documentation, 030225 pediatrics, Distraction, Intervention (counseling), Pediatrics, Perinatology and Child Health, 030212 general & internal medicine, Implementation research, Psychology
Abstract

OBJECTIVE: Pain, fear, and fainting management during school-based vaccinations is suboptimal. The objective was to examine stakeholder perceptions of barriers and facilitators to better practices. Method: Six semi-structured focus groups were conducted in Niagara Region, Ontario: two parent groups (n=7); one grade 7 to 8 student group (n=9); two nurse groups (n=12); and one school staff group (n=6). Participants shared perceptions about school vaccination clinics and the implementation of specific strategies and tools. Focus groups were audio recorded and transcribed. The Consolidated Framework for Implementation Research (CFIR) was used as the framework for analysis. RESULTS: Feedback from stakeholders was categorized into four domains of CFIR: intervention characteristics, inner setting, outer setting, and characteristics of individuals. Intervention characteristics included: vaccine educational materials, vaccination accommodations, distraction techniques, topical anaesthetics, and food. Inner setting factors included: school vaccination procedures, relationships between school staff and nurses, assessment and documentation of student fear, and factors that contribute to a chaotic vaccination clinic. Outer setting factors were: the social environment and addressing parent and student needs. Stakeholder roles were discussed in characteristics of individuals. CONCLUSION: This study identified elements that can facilitate and challenge pain and fear mitigation tools and strategies; these elements should be considered in the development of a Knowledge Translation (KT) intervention to improve the school vaccination experience.

Published
2019

17. An electrical impedance-based assay to examine functions of various placental cell types in vitro.

Author

Menkhorst E., Narula S., Sanderson J.T., Murthi P., Vaillancourt C., Chollangi T., Clabault H., Thibeault A.-A.H., Yong H.E.J., Menkhorst E., Narula S., Sanderson J.T., Murthi P., Vaillancourt C., Chollangi T., Clabault H., Thibeault A.-A.H., and Yong H.E.J.

Abstract

In vitro functional analyses of cells are widely used to investigate the molecular mechanisms involved in preeclampsia. Common cellular functions studied include adhesion, apoptosis, proliferation, migration, and invasion. At present, most researchers will use endpoint experimental assays that only allow the determination of cell function at a single time point, with the need to repeat the experiment for an alternate time point. Here, we describe an electrical impedance-based tool that allows real-time monitoring of cells, which enables the efficient assessment of multiple time points over the duration of a single experiment.Copyright © 2018, Springer Science+Business Media LLC.

Published
2018

23. Corin, an enzyme with a putative role in spiral artery remodeling, is up-regulated in late secretory endometrium and first trimester decidua

Author

Kaitu'u-Lino, TJ, Ye, L, Tuohey, L, Dimitriadis, E, Bulmer, J, Rogers, P, Menkhorst, E, Van Sinderen, M, Girling, JE, Hannan, N, Tong, S, Kaitu'u-Lino, TJ, Ye, L, Tuohey, L, Dimitriadis, E, Bulmer, J, Rogers, P, Menkhorst, E, Van Sinderen, M, Girling, JE, Hannan, N, and Tong, S

Abstract

STUDY QUESTION: What is the nature of cellular Corin expression in human gestational tissues? SUMMARY ANSWER: CORIN is expressed in non-pregnant late secretory phase endometrium, first trimester human implantation sites and is up-regulated with decidualization ex vivo. WHAT IS KNOWN ALREADY: Adequate trophoblast invasion and spiral artery remodeling/transformation is critical for successful implantation. CORIN, best known for its role in activating atrial natruietic peptide (ANP) to regulate blood pressure, has recently been proposed to be centrally involved in trophoblast invasion and spiral artery remodeling. It is postulated that ANP, activated by CORIN, promotes trophoblast invasion and that a deficiency causes pre-eclampsia. Mice deficient in either Corin or ANP displayed poor trophoblast invasion, impaired spiral artery remodeling and phenocopied human pre-eclampsia. However, the precise cellular localization of CORIN within human gestational tissues has not been well characterized. STUDY DESIGN, SIZE, DURATION: We measured CORIN protein localization in a number of human gestational tissues relevant to early embryo/placental implantation: non-pregnant (NP) endometrial biopsies (n = 5 per phase of the menstrual cycle), first trimester placental bed biopsies (n = 12) and pre-term control (n = 10) and severe early onset preeclamptic placentas (n = 15). Endometrial stromal cells were isolated from human endometrial biopsies (n = 5) and induced to decidualize ex vivo. Finally, CORIN concentrations were measured in serum obtained from pregnant women during the first trimester of whom, 56 subsequently ended up with a healthy term delivery (controls), 18 developed fetal growth restriction (FGR) and 21 had a miscarriage. PARTICIPANTS/MATERIALS, SETTING, METHODS: We performed immunohistochemistry to assess CORIN localization. Changes in Corin mRNA expression in human endometrial stromal cells decidualized ex vivo were measured by quantitative RT-PCR, and levels of CORIN

Published
2013

24. Vaginally Administered PEGylated LIF Antagonist Blocked Embryo Implantation and Eliminated Non-Target Effects on Bone in Mice

Author

Ng Fong Poh, L, Menkhorst, E, Zhang, J-G, Sims, NA, Morgan, PO, Soo, P, Poulton, IJ, Metcalf, D, Alexandrou, E, Gresle, M, Salamonsen, LA, Butzkueven, H, Nicola, NA, Dimitriadis, E, Ng Fong Poh, L, Menkhorst, E, Zhang, J-G, Sims, NA, Morgan, PO, Soo, P, Poulton, IJ, Metcalf, D, Alexandrou, E, Gresle, M, Salamonsen, LA, Butzkueven, H, Nicola, NA, and Dimitriadis, E

Abstract

Female-controlled contraception/HIV prevention is critical to address health issues associated with gender inequality. Therefore, a contraceptive which can be administered in tandem with a microbicide to inhibit sexually transmitted infections, is desirable. Uterine leukemia inhibitory factor (LIF) is obligatory for blastocyst implantation in mice and associated with infertility in women. We aimed to determine whether a PEGylated LIF inhibitor (PEGLA) was an effective contraceptive following vaginal delivery and to identify non-uterine targets of PEGLA in mice.Vaginally-applied (125)I-PEGLA accumulated in blood more slowly (30 min vs 10 min) and showed reduced tissue and blood retention (24 h vs 96 h) compared to intraperitoneal injection in mice. Vaginally-applied PEGLA blocked implantation. PEGLA administered by intraperitoneal injection inhibited bone remodelling whereas vaginally-applied PEGLA had no effect on bone. Further, PEGLA had no effect in an animal model of multiple sclerosis, experimental auto-immune encephalomyelitis, suggesting PEGLA cannot target the central nervous system.Vaginally-administered PEGLA is a promising non-hormonal contraceptive, one which could be delivered alone, or in tandem with a microbicide. Vaginal application reduced the total dose of PEGLA required to block implantation and eliminated the systemic effect on bone, showing the vagina is a promising site of administration for larger drugs which target organs within the reproductive tract.

Published
2011

37. Dysregulated miR-124-3p in endometrial epithelial cells reduces endometrial receptivity by altering polarity and adhesion.

Author

Zhou W, Van Sinderen M, Rainczuk K, Menkhorst E, Sorby K, Osianlis T, Pangestu M, Santos L, Rombauts L, Rosello-Diez A, and Dimitriadis E

Subjects
Female, Humans, Animals, Mice, Infertility, Female metabolism, Infertility, Female genetics, MicroRNAs genetics, MicroRNAs metabolism, Endometrium metabolism, Endometrium cytology, Cell Adhesion, Embryo Implantation physiology, Epithelial Cells metabolism, Cell Polarity
Abstract

The endometrium undergoes substantial remodeling in each menstrual cycle to become receptive to an implanting embryo. Abnormal endometrial receptivity is one of the major causes of embryo implantation failure and infertility. MicroRNA-124-3p is elevated in both the serum and endometrial tissue of women with chronic endometritis, a condition associated with infertility. MicroRNA-124-3p also has a role in cell adhesion, a key function during receptivity to allow blastocysts to adhere and implant. In this study, we aimed to determine the function of microRNA-124-3p on endometrial epithelial adhesive capacity during receptivity and effect on embryo implantation. Using a unique inducible, uterine epithelial-specific microRNA overexpression mouse model, we demonstrated that elevated uterine epithelial microRNA-124-3p impaired endometrial receptivity by altering genes associated with cell adhesion and polarity. This resulted in embryo implantation failure. Similarly in a second mouse model, increasing microRNA-124-3p expression only in mouse uterine surface (luminal) epithelium impaired receptivity and led to implantation failure. In humans, we demonstrated that microRNA-124-3p was abnormally increased in the endometrial epithelium of women with unexplained infertility during the receptive window. MicroRNA-124-3p overexpression in primary human endometrial epithelial cells (HEECs) impaired primary human embryo trophectoderm attachment in a 3-dimensional culture model of endometrium. Reduction of microRNA-124-3p in HEECs from infertile women normalized HEEC adhesive capacity. Overexpression of microRNA-124-3p or knockdown of its direct target IQGAP1 reduced fertile HEEC adhesion and its ability to lose polarity. Collectively, our data highlight that microRNA-124-3p and its protein targets contribute to endometrial receptivity by altering cell polarity and adhesion., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published
2024
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39. IL11 activates the placental inflammasome to drive preeclampsia.

Author

Menkhorst E, Santos LL, Zhou W, Yang G, Winship AL, Rainczuk KE, Nguyen P, Zhang JG, Moore P, Williams M, Lê Cao KA, Mansell A, and Dimitriadis E

Subjects
Pregnancy, Female, Humans, Mice, Animals, Placenta metabolism, Inflammasomes metabolism, Interleukin-11 metabolism, NLR Family, Pyrin Domain-Containing 3 Protein metabolism, Fetal Growth Retardation metabolism, Placentation, Inflammation metabolism, Fibrosis, Pre-Eclampsia metabolism, Hypertension
Abstract

Introduction: Preeclampsia is a life-threatening disorder of pregnancy unique to humans. Interleukin (IL)11 is elevated in serum from pregnancies that subsequently develop early-onset preeclampsia and pharmacological elevation of IL11 in pregnant mice causes the development of early-onset preeclampsia-like features (hypertension, proteinuria, and fetal growth restriction). However, the mechanism by which IL11 drives preeclampsia is unknown., Method: Pregnant mice were administered PEGylated (PEG)IL11 or control (PEG) from embryonic day (E)10-16 and the effect on inflammasome activation, systolic blood pressure (during gestation and at 50/90 days post-natal), placental development, and fetal/post-natal pup growth measured. RNAseq analysis was performed on E13 placenta. Human 1 st trimester placental villi were treated with IL11 and the effect on inflammasome activation and pyroptosis identified by immunohistochemistry and ELISA., Result: PEGIL11 activated the placental inflammasome causing inflammation, fibrosis, and acute and chronic hypertension in wild-type mice. Global and placental-specific loss of the inflammasome adaptor protein Asc and global loss of the Nlrp3 sensor protein prevented PEGIL11-induced fibrosis and hypertension in mice but did not prevent PEGIL11-induced fetal growth restriction or stillbirths. RNA-sequencing and histology identified that PEGIL11 inhibited trophoblast differentiation towards spongiotrophoblast and syncytiotrophoblast lineages in mice and extravillous trophoblast lineages in human placental villi., Discussion: Inhibition of ASC/NLRP3 inflammasome activity could prevent IL11-induced inflammation and fibrosis in various disease states including preeclampsia., Competing Interests: AM is an employee of and holds shares in Adiso Therapeutics. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Menkhorst, Santos, Zhou, Yang, Winship, Rainczuk, Nguyen, Zhang, Moore, Williams, Lê Cao, Mansell and Dimitriadis.)

Published
2023
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40. Cyclic processes in the uterine tubes, endometrium, myometrium, and cervix: pathways and perturbations.

Author

Holdsworth-Carson SJ, Menkhorst E, Maybin JA, King A, and Girling JE

Subjects
Animals, Pregnancy, Humans, Female, Fallopian Tubes, Endometrium, Hormones, Mammals, Cervix Uteri, Myometrium
Abstract

This review leads the 2023 Call for Papers in MHR: 'Cyclical function of the female reproductive tract' and will outline the complex and fascinating changes that take place in the reproductive tract during the menstrual cycle. We will also explore associated reproductive tract abnormalities that impact or are impacted by the menstrual cycle. Between menarche and menopause, women and people who menstruate living in high-income countries can expect to experience ∼450 menstrual cycles. The primary function of the menstrual cycle is to prepare the reproductive system for pregnancy in the event of fertilization. In the absence of pregnancy, ovarian hormone levels fall, triggering the end of the menstrual cycle and onset of menstruation. We have chosen to exclude the ovaries and focus on the other structures that make up the reproductive tract: uterine tubes, endometrium, myometrium, and cervix, which also functionally change in response to fluctuations in ovarian hormone production across the menstrual cycle. This inaugural paper for the 2023 MHR special collection will discuss our current understanding of the normal physiological processes involved in uterine cyclicity (limited specifically to the uterine tubes, endometrium, myometrium, and cervix) in humans, and other mammals where relevant. We will emphasize where knowledge gaps exist and highlight the impact that reproductive tract and uterine cycle perturbations have on health and fertility., (© The Author(s) 2023. Published by Oxford University Press on behalf of European Society of Human Reproduction and Embryology. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published
2023
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41. Radiotherapy exposure directly damages the uterus and causes pregnancy loss.

Author

Griffiths MJ, Marshall SA, Cousins FL, Alesi LR, Higgins J, Giridharan S, Sarma UC, Menkhorst E, Zhou W, Care AS, Donoghue JF, Holdsworth-Carson SJ, Rogers PA, Dimitriadis E, Gargett CE, Robertson SA, Winship AL, and Hutt KJ

Subjects
Pregnancy, Female, Humans, Mice, Animals, Adolescent, Uterus metabolism, Embryo Implantation physiology, Placentation, Apoptosis Regulatory Proteins metabolism, Placenta
Abstract

Female cancer survivors are significantly more likely to experience infertility than the general population. It is well established that chemotherapy and radiotherapy can damage the ovary and compromise fertility, yet the ability of cancer treatments to induce uterine damage, and the underlying mechanisms, have been understudied. Here, we show that in mice total-body γ-irradiation (TBI) induced extensive DNA damage and apoptosis in uterine cells. We then transferred healthy donor embryos into ovariectomized adolescent female mice that were previously exposed to TBI to study the impacts of radiotherapy on the uterus independent from effects to ovarian endocrine function. Following TBI, embryo attachment and implantation were unaffected, but fetal resorption was evident at midgestation in 100% of dams, suggesting failed placental development. Consistent with this hypothesis, TBI impaired the decidual response in mice and primary human endometrial stromal cells. TBI also caused uterine artery endothelial dysfunction, likely preventing adequate blood vessel remodeling in early pregnancy. Notably, when pro-apoptotic protein Puma-deficient (Puma-/-) mice were exposed to TBI, apoptosis within the uterus was prevented, and decidualization, vascular function, and pregnancy were restored, identifying PUMA-mediated apoptosis as a key mechanism. Collectively, these data show that TBI damages the uterus and compromises pregnancy success, suggesting that optimal fertility preservation during radiotherapy may require protection of both the ovaries and uterus. In this regard, inhibition of PUMA may represent a potential fertility preservation strategy.

Published
2023
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42. Endometrial stromal cell miR-19b-3p release is reduced during decidualization implying a role in decidual-trophoblast cross-talk.

Author

Menkhorst E, So T, Rainczuk K, Barton S, Zhou W, Edgell T, and Dimitriadis E

Subjects
Pregnancy, Female, Humans, Trophoblasts metabolism, Stromal Cells metabolism, Culture Media metabolism, Abortion, Spontaneous metabolism, MicroRNAs genetics, MicroRNAs metabolism
Abstract

Introduction: A healthy pregnancy requires successful blastocyst implantation into an adequately prepared or 'receptive' endometrium. Decidualization of uterine endometrial stromal fibroblast cells (hESF) is critical for the establishment of a healthy pregnancy. microRNAs (miRs) are critical regulators of cellular function that can be released by a donor cell to influence the physiological state of recipient cells. We aimed to determine how decidualization affects hESF miR release and investigated the function of one decidualization regulated miR, miR-19b-3p, previously shown to be associated with recurrent pregnancy loss., Method: miR release by hESF was determined by miR microarray on culture media from hESF decidualized in vitro for 3 and 14 days by treatment with oestradiol and medroxyprogesterone acetate. Cellular and whole endometrial/decidual tissue miR expression was quantified by qPCR and localized by in situ hybridization. The function of miR-19b-3p in HTR8/Svneo trophoblast cells was investigated using real time cell analysis (xCELLigence) and gene expression qPCR., Results: From our miR screen we found that essentially all hESF miR release was reduced following in vitro decidualization, significantly so for miR-17-5p, miR-21-3p, miR-34c-3p, miR-106b-5p, miR-138-5p, miR-296-5p, miR-323a-3p, miR-342-3p, miR-491-5p, miR-503-5p and miR-542-5p. qPCR demonstrated that miR-19b-3p, 181a-2-3p and miR-409-5p likewise showed a significant reduction in culture media following decidualization but no change was found in cellular miR expression following decidualization. In situ hybridization localized miR-19b-3p to epithelial and stromal cells in the endometrium and qPCR identified that miR-19b-3p was significantly elevated in the cycling endometrium of patients with a history of early pregnancy loss compared to normally fertile controls. Functionally, overexpression of miR-19b-3p significantly reduced HTR8/Svneo trophoblast proliferation and increased HOXA9 expression., Discussion: Our data demonstrates that decidualization represses miR release by hESFs and overexpression of miR-19b-3p was found in endometrial tissue from patients with a history of early pregnancy loss. miR-19b-3p impaired HTR8/Svneo proliferation implying a role in trophoblast function. Overall we speculate that miR release by hESF may regulate other cell types within the decidua and that appropriate release of miRs by decidualized hESF is essential for healthy implantation and placentation., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Menkhorst, So, Rainczuk, Barton, Zhou, Edgell and Dimitriadis.)

Published
2023
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43. miR-23b-3p regulates human endometrial epithelial cell adhesion implying a role in implantation.

Author

Barton S, Zhou W, Santos LL, Menkhorst E, Yang G, Tinn Teh W, Ang C, Lucky T, and Dimitriadis E

Subjects
Female, Humans, Endometrium metabolism, Epithelial Cells metabolism, Menstrual Cycle genetics, Menstrual Cycle metabolism, Cell Adhesion, Embryo Implantation genetics, MicroRNAs genetics, MicroRNAs metabolism
Abstract

In Brief: miR-23b-3p expression is increased in fertile endometrium during receptivity. This study investigates the function of miR-23b-3p on endometrial adhesion and its downstream targets., Abstract: The human endometrium undergoes dramatic remodeling throughout the menstrual cycle that is essential for successful blastocyst attachment and implantation in the mid-secretory (receptive) phase. microRNA (miR) plays a role in the preparation of endometrial receptivity. miR-23b-3p expression is increased in fertile endometrium during receptivity. Here, we aimed to investigate miR-23b-3p function during receptivity. qPCR and in situ hybridization were used to investigate the expression and localization of miR-23b-3p in human endometrium, respectively. Ishikawa cells (endometrial epithelial cell line) and endometrial organoid-derived epithelial cells were transfected with miR-23b-3p mimic, and trophoblast progenitor spheroid (blastocyst surrogate) adhesion assay was used to determine effects on blastocyst adhesion to endometrial cells. We demonstrated that miR-23b-3p was significantly upregulated in the fertile endometrium of the receptive phase compared to the non-receptive, proliferative phase. No difference was identified for the expression of miR-23b-3p between fertile and infertile mid-secretory phase endometrium. miR-23b-3p localized to the epithelium and stroma in the mid-secretory phase but was undetectable in the proliferative phase of fertile endometrium. Functionally, miR-23-3p overexpression in Ishikawa cells and fertile endometrial organoid-derived epithelial cells significantly improved their adhesive capacity to trophoblast progenitor spheroids. miR-23b-3p overexpression in infertile endometrial organoid-derived epithelial cells did not improve adhesion. Among 10 miR-predicted gene targets examined, miR-23b-3p overexpression in Ishikawa cells significantly reduced the expression of MET, secreted frizzled-related protein 4 (SFRP4) and acyl-CoA dehydrogenase short/branched chain (ACADSB) compared to control. The reduction of SFRP4 after miR23b-3p overexpression was confirmed by immunoblotting in fertile organoid-derived epithelial cells. SFRP4 expression in fertile endometrium exhibited an inverse expression pattern compared to miR-23b-3p and was higher in the proliferative phase compared to the mid-secretory phase. Overall, miR-23b-3p is likely a critical regulator of endometrial epithelial adhesion and receptivity.

Published
2023
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44. Pre-eclampsia.

Author

Dimitriadis E, Rolnik DL, Zhou W, Estrada-Gutierrez G, Koga K, Francisco RPV, Whitehead C, Hyett J, da Silva Costa F, Nicolaides K, and Menkhorst E

Subjects
Pregnancy, Infant, Newborn, Female, Humans, Aspirin, Pre-Eclampsia epidemiology, Pre-Eclampsia etiology, Pre-Eclampsia diagnosis, Premature Birth epidemiology, Premature Birth etiology, Hypertension, Perinatal Death
Abstract

Pre-eclampsia is a life-threatening disease of pregnancy unique to humans and a leading cause of maternal and neonatal morbidity and mortality. Women who survive pre-eclampsia have reduced life expectancy, with increased risks of stroke, cardiovascular disease and diabetes, while babies from a pre-eclamptic pregnancy have increased risks of preterm birth, perinatal death and neurodevelopmental disability and cardiovascular and metabolic disease later in life. Pre-eclampsia is a complex multisystem disease, diagnosed by sudden-onset hypertension (>20 weeks of gestation) and at least one other associated complication, including proteinuria, maternal organ dysfunction or uteroplacental dysfunction. Pre-eclampsia is found only when a placenta is or was recently present and is classified as preterm (delivery <37 weeks of gestation), term (delivery ≥37 weeks of gestation) and postpartum pre-eclampsia. The maternal syndrome of pre-eclampsia is driven by a dysfunctional placenta, which releases factors into maternal blood causing systemic inflammation and widespread maternal endothelial dysfunction. Available treatments target maternal hypertension and seizures, but the only 'cure' for pre-eclampsia is delivery of the dysfunctional placenta and baby, often prematurely. Despite decades of research, the aetiology of pre-eclampsia, particularly of term and postpartum pre-eclampsia, remains poorly defined. Significant advances have been made in the prediction and prevention of preterm pre-eclampsia, which is predicted in early pregnancy through combined screening and is prevented with daily low-dose aspirin, starting before 16 weeks of gestation. By contrast, the prediction of term and postpartum pre-eclampsia is limited and there are no preventive treatments. Future research must investigate the pathogenesis of pre-eclampsia, in particular of term and postpartum pre-eclampsia, and evaluate new prognostic tests and treatments in adequately powered clinical trials., (© 2023. Springer Nature Limited.)

Published
2023
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45. Galectin-7 dysregulates renin-angiotensin-aldosterone and NADPH oxide synthase pathways in preeclampsia.

Author

Menkhorst E, Zhou W, Santos L, Zhang JG, St-Pierre Y, Young MJ, and Dimitriadis E

Subjects
Female, Pregnancy, Humans, Mice, Animals, Placenta metabolism, Angiotensins metabolism, Renin, NADP metabolism, Aldosterone, Oxides metabolism, Reactive Oxygen Species metabolism, Galectins, RNA, Messenger metabolism, NADPH Oxidases metabolism, Pre-Eclampsia, Hypertension metabolism
Abstract

Objectives: Preeclampsia is a life-threatening disorder of pregnancy unique to humans. Poor placentation in the first trimester of pregnancy is widely accepted to be an underlying cause of preeclampsia. Galectin-7 is abnormally elevated in chorionic villous samples and serum from women that subsequently develop pre-term preeclampsia. Administration of exogenous galectin-7 to pregnant mice causes preeclampsia-like features (hypertension, proteinuria), associated with dysregulation of the renin-angiotensin system (RAS). In this study investigated the mechanism by which galectin-7 induces alterations to tissue RAS homeostasis and ROS production. We hypothesized that galectin-7 induces alterations in the production of either placental RAS or NADPH oxidases (or both) to drive the dysregulated RAS and ROS production seen in preeclampsia., Study Design: Mated female mice (n = 5-6/group) received single (embryonic day [E]12/13) or multiple (E8-12) subcutaneous injections of 400 μg/kg/day galectin-7 or vehicle control and killed on E13 or E18. Human first trimester placental villous and decidual tissue (n = 11) was cultured under 8 % oxygen with 1 µg/mL galectin-7 or vehicle control for 16 h., Results: Galectin-7 administration to pregnant mice impaired placental labyrinth formation, suppressed circulating aldosterone and altered placental RAS (Agt, Renin) and NADPH oxidase (Cyba, Cybb and Icam1) mRNA expression. In vitro, galectin-7 regulated human placental villous RAS (AGT) and NADPH oxidase (CYBA, ICAM1 and VCAM1) mRNA expression., Conclusions: Overall, galectin-7 likely drives hypertension in preeclampsia via its direct regulation of multiple pathways associated with preeclampsia in the placenta. Galectin-7 may therefore be a therapeutic target to improve placental function and prevent preeclampsia., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Crown Copyright © 2022. Published by Elsevier B.V. All rights reserved.)

Published
2022
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46. Characterization of chloride intracellular channel 4 in the regulation of human trophoblast function.

Author

Zhou W, Menkhorst E, and Dimitriadis E

Subjects
Antigens, CD metabolism, Cadherins metabolism, Cell Adhesion, Cell Line, Cell Movement, Decidua metabolism, Female, Humans, Membrane Proteins metabolism, Chloride Channels metabolism, Trophoblasts physiology
Abstract

Introduction: Proper placentation requires well controlled extravillous trophoblast cell (EVT) migration and invasion. Transforming growth factor β (TGFβ) signaling has been well characterized as negatively regulating EVT migration and invasion. CLIC4 is an enhancer of TGFβ signaling, however CLIC4's function in placentation and its association to placental TGFβ signaling is unknown. Here we aimed to investigate the role of CLIC4 on trophoblast cell function and its relationship to TGFβ signaling., Methods: CLIC4 was immunolocalized in human placenta throughout gestation and the first trimester decidua. siRNA was used to knockdown CLIC4 in a human trophoblast cell line (HTR8/SVneo) to reveal functional consequences of CLIC4 loss on cell adhesion, proliferation, migration and invasion via xCELLigence. qPCR was used to identify downstream targets of CLIC4 in HTR8/SVNeo cells., Results: CLIC4 was widely expressed in the syncytiotrophoblast, cytotrophoblast and decidual cells across all trimesters of pregnancy with no significant difference in staining intensity in the different cellular compartments both across gestation and between compartments. Using immunofluorescent co-localization of CLIC4 and EVT marker HLA-G, we confirmed that CLIC4 localized to the cytoplasm of cell column EVTs in the first trimester decidua and nuclei of some EVTs that invaded in the decidua. Knockdown of CLIC4 in HTR8/SVneo cells significantly elevated cell adhesion, migration and invasion. Analysis of TGFβ signaling downstream targets identified that CDH2 and BAMBI expression were significantly increased after CLIC4 knockdown in HTR8/SVneo cells., Discussion: Our data support an inhibitory role for CLIC4 in regulating trophoblast migration and invasion, likely acting in part via BAMBI and CDH2., (Copyright © 2022. Published by Elsevier Ltd.)

Published
2022
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47. Medawar's PostEra: Galectins Emerged as Key Players During Fetal-Maternal Glycoimmune Adaptation.

Author

Menkhorst E, Than NG, Jeschke U, Barrientos G, Szereday L, Dveksler G, and Blois SM

Subjects
Female, Galectins chemistry, Glycoproteins physiology, Humans, Pregnancy, Adaptation, Physiological, Fetal Development physiology, Galectins physiology, Placentation physiology
Abstract

Lectin-glycan interactions, in particular those mediated by the galectin family, regulate many processes required for a successful pregnancy. Over the past decades, increasing evidence gathered from in vitro and in vivo experiments indicate that members of the galectin family specifically bind to both intracellular and membrane bound carbohydrate ligands regulating angiogenesis, immune-cell adaptations required to tolerate the fetal semi-allograft and mammalian embryogenesis. Therefore, galectins play important roles in fetal development and placentation contributing to maternal and fetal health. This review discusses the expression and role of galectins during the course of pregnancy, with an emphasis on maternal immune adaptions and galectin-glycan interactions uncovered in the recent years. In addition, we summarize the galectin fingerprints associated with pathological gestation with particular focus on preeclampsia., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Menkhorst, Than, Jeschke, Barrientos, Szereday, Dveksler and Blois.)

Published
2021
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48. Jagged1 regulates endometrial receptivity in both humans and mice.

Author

Zhou W, Menkhorst E, and Dimitriadis E

Subjects
Adult, Animals, Cell Line, Female, Humans, Jagged-1 Protein genetics, Mice, Embryo Implantation, Endometrium metabolism, Jagged-1 Protein metabolism, Signal Transduction
Abstract

The human endometrium undergoes cycle-dependent changes and is only receptive to an implanting blastocyst within a narrow window of 2-4 days in the mid-secretory phase. Such functional changes require delicate interplay between a diversity of factors including cytokines and signaling pathways. The Notch signaling pathway members are expressed in human endometrium. We have previously demonstrated that Notch ligand Jagged1 (JAG1) localizes in the endometrial luminal epithelium (LE) and is abnormally reduced in infertile women during receptivity. However, the functional consequences of reduced JAG1 production on endometrial receptivity to implantation of the blastocyst are unknown. This study aimed to determine the role of JAG1 in regulating endometrial receptivity in humans and mice. Knockdown of JAG1 in both primary human endometrial epithelial cells and Ishikawa cells significantly reduced their adhesive capacity to HTR8/SVneo (trophoblast cell line) spheroids. We confirmed that in human endometrial epithelial cells, JAG1 interacted with Notch Receptor 3 (NOTCH3) and knockdown of JAG1 significantly reduced the expression of Notch signaling downstream target HEY1 and classical receptivity markers. Knockdown of Jag1 in mouse LE significantly impaired blastocyst implantation. We identified ten genes (related to tight junction, infertility, and cell adhesion) that were differentially expressed by Jag1 knockdown in LE in mice. Further analysis of the tight junction family members in both species revealed that JAG1 altered the expression of tight junction components only in mice. Together, our data demonstrated that JAG1 altered endometrial epithelial cell adhesive capacity and regulated endometrial receptivity in both humans and mice likely via different mechanisms., (© 2021 Federation of American Societies for Experimental Biology.)

Published
2021
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49. Prednisolone Alters Endometrial Decidual Cells and Affects Decidual-Trophoblast Interactions.

Author

Grbac E, So T, Varshney S, Williamson N, Dimitriadis E, and Menkhorst E

Abstract

Poor pregnancy outcomes such as recurrent pregnancy loss (RPL) and preeclampsia are associated with impaired decidualization and abnormal trophoblast invasion. Emerging evidence suggests that use of corticosteroids, including prednisolone affects fertility by altering uterine function and may be associated with preeclampsia incidence. In this study, using primary and gestational-age appropriate tissue, we aimed to define the effect of prednisolone on human endometrial stromal fibroblast (hESF) decidualization and determine whether hESF decidualization in the presence of prednisolone would alter hESF regulation of trophoblast function. We found that prednisolone treatment reduced hESF cytokine expression ( IL6 , IL11 , IL18, LIF , and LIFR ) but had no effect on hESF expression or secretion of the classic markers of decidualization [prolactin (PRL) and IGFBP1]. Using proteomics we determined that prednisolone altered decidualized hESF protein production, enriching hESF proteins associated with acetylation and mitrochondria. Conditioned media from hESF decidualized in the presence of prednisolone significantly enhanced trophoblast outgrowth and trophoblast mRNA expression of cell motility gene PLCG1 and reduced trophoblast production of PGF . Prednisolone treatment during the menstrual cycle and 1st trimester of pregnancy might alter decidual interactions with other cells, including invasive trophoblast., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Grbac, So, Varshney, Williamson, Dimitriadis and Menkhorst.)

Published
2021
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50. MAML1: a coregulator that alters endometrial epithelial cell adhesive capacity.

Author

Zafir S, Zhou W, Menkhorst E, Santos L, and Dimitriadis E

Abstract

Background: Abnormalities in endometrial receptivity has been identified as a major barrier to successful embryo implantation. Endometrial receptivity refers to the conformational and biochemical changes occurring in the endometrial epithelial layer which make it adhesive and receptive to blastocyst attachment. This takes place during the mid-secretory phase of woman's menstrual cycle and is a result of a delicate interplay between numerous hormones, cytokines and other factors. Outside of this window, the endometrium is refractory to an implanting blastocyst. It has been shown that Notch ligands and receptors are dysregulated in the endometrium of infertile women. Mastermind Like Transcriptional Coactivator 1 (MAML1) is a known coactivator of the Notch signaling pathway. This study aimed to determine the role of MAML1 in regulating endometrial receptivity., Methods: The expression and localization of MAML1 in the fertile human endometrium (non-receptive proliferative phase versus receptive mid-secretory phase) were determined by immunohistochemistry. Ishikawa cells were used as an endometrial epithelial model to investigate the functional consequences of MAML1 knockdown on endometrial adhesive capacity to HTR8/SVneo (trophoblast cell line) spheroids. After MAML1 knockdown in Ishikawa cells, the expression of endometrial receptivity markers and Notch dependent and independent pathway members were assessed by qPCR. Two-tailed unpaired or paired student's t-test were used for statistical analysis with a significance threshold of P < 0.05., Results: MAML1 was localized in the luminal epithelium, glandular epithelium and stroma of human endometrium and the increased expression identified in the mid-secretory phase was restricted only to the luminal epithelium (P < 0.05). Functional analysis using Ishikawa cells demonstrated that knockdown of MAML1 significantly reduced epithelial adhesive capacity (P < 0.01) to HTR8/SVneo (trophoblast cell line) spheroids compared to control. MAML1 knockdown significantly affected the expression of classical receptivity markers (SPP1, DPP4) and this response was not directly via hormone receptors. The expression level of Hippo pathway target Ankyrin repeat domain-containing protein 1 (ANKRD1) was also affected after MAML1 knockdown in Ishikawa cells., Conclusion: Our data strongly suggest that MAML1 is involved in regulating the endometrial adhesive capacity and may facilitate embryo attachment, either directly or indirectly through the Notch signaling pathway.

Published
2021
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