Your search keyword '"William S. B. Yeung"' showing total 50 results

1. P300 regulates histone crotonylation and preimplantation embryo development

Author

Di Gao, Chao Li, Shao-Yuan Liu, Teng-Teng Xu, Xiao-Ting Lin, Yong-Peng Tan, Fu-Min Gao, Li-Tao Yi, Jian V. Zhang, Jun-Yu Ma, Tie-Gang Meng, William S. B. Yeung, Kui Liu, Xiang-Hong Ou, Rui-Bao Su, and Qing-Yuan Sun

Subjects

Science

Abstract

Abstract Histone lysine crotonylation, an evolutionarily conserved modification differing from acetylation, exerts pivotal control over diverse biological processes. Among these are gene transcriptional regulation, spermatogenesis, and cell cycle processes. However, the dynamic changes and functions of histone crotonylation in preimplantation embryonic development in mammals remain unclear. Here, we show that the transcription coactivator P300 functions as a writer of histone crotonylation during embryonic development. Depletion of P300 results in significant developmental defects and dysregulation of the transcriptome of embryos. Importantly, we demonstrate that P300 catalyzes the crotonylation of histone, directly stimulating transcription and regulating gene expression, thereby ensuring successful progression of embryo development up to the blastocyst stage. Moreover, the modification of histone H3 lysine 18 crotonylation (H3K18cr) is primarily localized to active promoter regions. This modification serves as a distinctive epigenetic indicator of crucial transcriptional regulators, facilitating the activation of gene transcription. Together, our results propose a model wherein P300-mediated histone crotonylation plays a crucial role in regulating the fate of embryonic development.

Published

2024

2. B cells: roles in physiology and pathology of pregnancy

Author

Jin-Chuan Liu, Qunxiong Zeng, Yong-Gang Duan, William S. B. Yeung, Raymond H. W. Li, Ernest H. Y. Ng, Ka-Wang Cheung, Qingqing Zhang, and Philip C. N. Chiu

Subjects

B cells, pregnancy, maternal-fetal interface, immune tolerance, pregnancy complications, Immunologic diseases. Allergy, RC581-607

Abstract

B cells constitute a diverse and adaptable immune cell population with functions that can vary according to the environment and circumstances. The involvement of B cells in pregnancy, as well as the associated molecular pathways, has yet to be investigated. This review consolidates current knowledge on B cell activities and regulation during pregnancy, with a particular focus on the roles of various B cell subsets and the effects of B cell-derived factors on pregnancy outcomes. Moreover, the review examines the significance of B cell-associated autoantibodies, cytokines, and signaling pathways in relation to pregnancy complications such as pregnancy loss, preeclampsia, and preterm birth.

Published

2024

3. Interleukin 6 at menstruation promotes the proliferation and self-renewal of endometrial mesenchymal stromal/stem cells through the WNT/β-catenin signaling pathway

Author

Tianqi Li, Raymond H. W. Li, Ernest H. Y. Ng, William S. B. Yeung, Philip C. N. Chiu, and Rachel W. S. Chan

Subjects

endometrial stem cells, stem cell niche, endometrial regeneration, WNT/β-catenin signaling, interleukin 6, Immunologic diseases. Allergy, RC581-607

Abstract

BackgroundAt menstruation, the functional layer of the human endometrium sheds off due to the trigger of the release of inflammatory factors, including interleukin 6 (IL-6), as a result of a sharp decline in progesterone levels, leading to tissue breakdown and bleeding. The endometrial mesenchymal stem-like cells (CD140b+CD146+ eMSC) located in the basalis are responsible for the cyclical regeneration of the endometrium after menstruation. Endometrial cells from the menstruation phase have been proven to secrete a higher amount of IL-6 and further enhance the self-renewal and clonogenic activity of eMSC. However, the IL-6-responsive mechanism remains unknown. Thus, we hypothesized that IL-6 secreted from niche cells during menstruation regulates the proliferation and self-renewal of eMSC through the WNT/β-catenin signaling pathway.MethodsIn this study, the content of IL-6 across the menstrual phases was first evaluated. Coexpression of stem cell markers (CD140b and CD146) with interleukin 6 receptor (IL-6R) was confirmed by immunofluorescent staining. In vitro functional assays were conducted to investigate the effect of IL-6 on the cell activities of eMSC, and the therapeutic role of these IL-6- and WNT5A-pretreated eMSC on the repair of injured endometrium was observed using an established mouse model.ResultsThe endometrial cells secrete a high amount of IL-6 under hypoxic conditions, which mimic the physiological microenvironment in the menstruation phase. Also, the expression of IL-6 receptors was confirmed in our eMSC, indicating their capacity to respond to IL-6 in the microenvironment. Exogenous IL-6 can significantly enhance the self-renewal, proliferation, and migrating capacity of eMSC. Activation of the WNT/β-catenin signaling pathway was observed upon IL-6 treatment, while suppression of the WNT/β-catenin signaling impaired the stimulatory role of IL-6 on eMSC activities. IL-6- and WNT5A-pretreated eMSC showed better performance during the regeneration of the injured mouse endometrium.ConclusionWe demonstrate that the high level of IL-6 produced by endometrial cells at menstruation can induce the stem cells in the human endometrium to proliferate and migrate through the activation of the WNT/β-catenin pathway. Treatment of eMSC with IL-6 and WNT5A might enhance their therapeutic potential in the regeneration of injured endometrium.

Published

2024

4. ClpP/ClpX deficiency impairs mitochondrial functions and mTORC1 signaling during spermatogenesis

Author

Chenxi Guo, Yuan Xiao, Jingkai Gu, Peikun Zhao, Zhe Hu, Jiahuan Zheng, Renwu Hua, Zhuo Hai, Jiaping Su, Jian V. Zhang, William S. B. Yeung, and Tianren Wang

Subjects

Biology (General), QH301-705.5

Abstract

Abstract Caseinolytic protease proteolytic subunit (ClpP) and caseinolytic protease X (ClpX) are mitochondrial matrix peptidases that activate mitochondrial unfolded protein response to maintain protein homeostasis in the mitochondria. However, the role of ClpP and ClpX in spermatogenesis remains largely unknown. In this study, we demonstrated the importance of ClpP/ClpX for meiosis and spermatogenesis with two conditional knockout (cKO) mouse models. We found that ClpP/ClpX deficiency reduced mitochondrial functions and quantity in spermatocytes, affected energy supply during meiosis and attenuated zygotene-pachytene transformation of the male germ cells. The dysregulated spermatocytes finally underwent apoptosis resulting in decreased testicular size and vacuolar structures within the seminiferous tubules. We found mTORC1 pathway was over-activated after deletion of ClpP/ClpX in spermatocytes. Long-term inhibition of the mTORC1 signaling via rapamycin treatment in vivo partially rescue spermatogenesis. The data reveal the critical roles of ClpP and ClpX in regulating meiosis and spermatogenesis.

Published

2023

5. The role of Notch signaling in endometrial mesenchymal stromal/stem-like cells maintenance

Author

Sisi Zhang, Rachel W. S. Chan, Ernest H. Y. Ng, and William S. B. Yeung

Subjects

Biology (General), QH301-705.5

Abstract

Notch signaling promotes the quiescent state of endometrial mesenchymal stromal/stem cells (eMSC), whose re-rentry into the cell cycle is in turn influenced by Notch and Wnt signaling from the microenvironment.

Published

2022

6. Three-dimensional culture models of human endometrium for studying trophoblast-endometrium interaction during implantation

Author

Xintong Li, Suranga P. Kodithuwakku, Rachel W. S. Chan, William S. B. Yeung, Yuanqing Yao, Ernest H. Y. Ng, Philip C. N. Chiu, and Cheuk-Lun Lee

Subjects

Endometrium, Implantation, Placentation, 3D models, Organoid, Gynecology and obstetrics, RG1-991, Reproduction, QH471-489

Abstract

Abstract During implantation, a symphony of interaction between the trophoblast originated from the trophectoderm of the implanting blastocyst and the endometrium leads to a successful pregnancy. Defective interaction between the trophoblast and endometrium often results in implantation failure, pregnancy loss, and a number of pregnancy complications. Owing to ethical concerns of using in vivo approaches to study human embryo implantation, various in vitro culture models of endometrium were established in the past decade ranging from two-dimensional cell-based to three-dimensional extracellular matrix (ECM)/tissue-based culture systems. Advanced organoid systems have also been established for recapitulation of different cellular components of the maternal–fetal interface, including the endometrial glandular organoids, trophoblast organoids and blastoids. However, there is no single ideal model to study the whole implantation process leaving more research to be done pursuing the establishment of a comprehensive in vitro model that can recapitulate the biology of trophoblast-endometrium interaction during early pregnancy. This would allow us to have better understanding of the physiological and pathological process of trophoblast-endometrium interaction during implantation.

Published

2022

7. Human placental exosomes induce maternal systemic immune tolerance by reprogramming circulating monocytes

Author

Kunfeng Bai, Cheuk-Lun Lee, Xiaofeng Liu, Jianlin Li, Dandan Cao, Li Zhang, Duanlin Hu, Hong Li, Yanqing Hou, Yue Xu, Anita S. Y. Kan, Ka-Wang Cheung, Ernest H. Y. Ng, William S. B. Yeung, and Philip C. N. Chiu

Subjects

Maternal immune tolerance, Placental exosome, Monocyte, T cell, PD-L1, PTEN, Biotechnology, TP248.13-248.65, Medical technology, R855-855.5

Abstract

Abstract Background The maternal immune system needs to tolerate the semi-allogeneic fetus in pregnancy. The adaptation occurs locally at the maternal–fetal interface as well as systemically through the maternal circulation. Failure to tolerate the paternal antigens may result in pregnancy complications, such as pregnancy loss and pre-eclampsia. However, the mechanism that regulates maternal immune tolerance, especially at the systemic level, is still an enigma. Here we report that the first-trimester placenta-derived exosomes (pEXOs) contribute to maternal immune tolerance by reprogramming the circulating monocytes. Results pEXOs predominantly target monocytes and pEXO-educated monocytes exhibit an immunosuppressive phenotype as demonstrated by reduced expression of marker genes for monocyte activation, T-cell activation and antigen-process/presentation at the transcriptomic level. They also have a greater propensity towards M2 polarization when compared to the monocytes without pEXO treatment. The inclusion of pEXOs in a monocyte-T-cell coculture model significantly reduces proliferation of the T helper cells and cytotoxic T cells and elevates the expansion of regulatory T cells. By integrating the microRNAome of pEXO and the transcriptomes of pEXO-educated monocytes as well as various immune cell functional assays, we demonstrate that the pEXO-derived microRNA miR-29a-3p promotes the expression of programmed cell death ligand-1, a well-known surface receptor that suppresses the adaptive immune system, by down-regulation of phosphatase and tensin homolog in monocytes. Conclusions This is the first report to show how human pEXO directly regulates monocyte functions and its molecular mechanism during early pregnancy. The results uncover the importance of pEXO in regulating the maternal systemic immune response during early pregnancy by reprogramming circulating monocytes. The study provides the basis for understanding the regulation of maternal immune tolerance to the fetal allograft. Graphical Abstract

Published

2022

8. The role of spermatozoa-zona pellucida interaction in selecting fertilization-competent spermatozoa in humans

Author

Erica T. Y. Leung, Brayden K. M. Lee, Cheuk-Lun Lee, Xinyi Tian, Kevin K. W. Lam, Raymond H. W. Li, Ernest H. Y. Ng, William S. B. Yeung, Jian-Ping Ou, and Philip C. N. Chiu

Subjects

zona pellucida, human spermatozoa, sperm selection, DNA integrity, methylation, protamination, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

Human fertilization begins when a capacitated spermatozoon binds to the zona pellucida (ZP) surrounding a mature oocyte. Defective spermatozoa-ZP interaction contributes to male infertility and is a leading cause of reduced fertilization rates in assisted reproduction treatments (ARTs). Human ejaculate contains millions of spermatozoa with varying degrees of fertilization potential and genetic quality, of which only thousands of motile spermatozoa can bind to the ZP at the fertilization site. This observation suggests that human ZP selectively interacts with competitively superior spermatozoa characterized by high fertilizing capability and genetic integrity. However, direct evidence for ZP-mediated sperm selection process is lacking. This study aims to demonstrate that spermatozoa-ZP interaction represents a crucial step in selecting fertilization-competent spermatozoa in humans. ZP-bound and unbound spermatozoa were respectively collected by a spermatozoa-ZP coincubation assay. The time-course data demonstrated that ZP interacted with a small proportion of motile spermatozoa. Heat shock 70 kDa protein 2 (HSPA2) and sperm acrosome associated 3 (SPACA 3) are two protein markers associated with the sperm ZP-binding ability. Immunofluorescent staining indicated that the ZP-bound spermatozoa had significantly higher expression levels of HSPA2 and SPACA3 than the unbound spermatozoa. ZP-bound spermatozoa had a significantly higher level of normal morphology, DNA integrity, chromatin integrity, protamination and global methylation when compared to the unbound spermatozoa. The results validated the possibility of applying spermatozoa-ZP interaction to select fertilization-competent spermatozoa in ART. This highly selective interaction might also provide diagnostic information regarding the fertilization potential and genetic qualities of spermatozoa independent of those derived from the standard semen analysis.

Published

2023

9. Application of a JEG-3 organoid model to study HLA-G function in the trophoblast

Author

Bai-Mei Zhuang, Dan-Dan Cao, Xiao-Feng Liu, Li Wang, Xiao-Li Lin, Yong-Gang Duan, Cheuk-Lun Lee, Philip C. N. Chiu, William S. B. Yeung, and Yuan-Qing Yao

Subjects

trophoblast organoid, human leucocyte antigen G, trophoblast differentiation, placentation, pregnancy, Immunologic diseases. Allergy, RC581-607

Abstract

The human placenta is a unique temporary organ with a mysterious immune tolerance. The formation of trophoblast organoids has advanced the study of placental development. HLA-G is uniquely expressed in the extravillous trophoblast (EVT) and has been linked to placental disorders. With older experimental methodologies, the role of HLA-G in trophoblast function beyond immunomodulation is still contested, as is its role during trophoblast differentiation. Organoid models incorporating CRISPR/Cas9 technology were used to examine the role of HLA-G in trophoblast function and differentiation. JEG-3 trophoblast organoids (JEG-3-ORGs) were established that highly expressed trophoblast representative markers and had the capacity to differentiate into EVT. CRISPR/Cas9 based on HLA-G knockout (KO) significantly altered the trophoblast immunomodulatory effect on the cytotoxicity of natural killer cells, as well as the trophoblast regulatory effect on HUVEC angiogenesis, but had no effect on the proliferation and invasion of JEG-3 cells and the formation of TB-ORGs. RNA-sequencing analysis further demonstrated that JEG-3 KO cells followed similar biological pathways as their wild-type counterparts during the formation of TB-ORGs. In addition, neither HLA-G KO nor the exogenous addition of HLA-G protein during EVT differentiation from JEG-3-ORGs altered the temporal expression of the known EVT marker genes. Based on the JEG-3 KO (disruption of exons 2 and 3) cell line and the TB-ORGs model, it was determined that HLA-G has a negligible effect on trophoblast invasion and differentiation. Despite this, JEG-3-ORG remains a valuable model for studying trophoblast differentiation.

Published

2023

10. Resolving the gene expression maps of human first-trimester chorionic villi with spatial transcriptome

Author

Zhongzhen Liu, Man Zhai, Qingqing Zhang, Tingyu Yang, Zunmin Wan, Jianlin Li, Xiaofeng Liu, Bo Xu, Libei Du, Rachel W. S. Chan, Li Zhang, William S. B. Yeung, Ka Wang Cheung, Philip C. N. Chiu, Wen-Jing Wang, Cheuk-Lun Lee, and Ya Gao

Subjects

spatial transcriptomics, Stereo-seq, placenta, chorionic villi, spatial regulatory activity, virus receptors, Biology (General), QH301-705.5

Abstract

The placenta is important for fetal development in mammals, and spatial transcriptomic profiling of placenta helps to resolve its structure and function. In this study, we described the landscape of spatial transcriptome of human placental villi obtained from two pregnant women at the first trimester using the modified Stereo-seq method applied for paraformaldehyde (PFA) fixation samples. The PFA fixation of human placenta villi was better than fresh villi embedded in optimum cutting temperature (OCT) compound, since it greatly improved tissue morphology and the specificity of RNA signals. The main cell types in chorionic villi such as syncytiotrophoblasts (SCT), villous cytotrophoblasts (VCT), fibroblasts (FB), and extravillous trophoblasts (EVT) were identified with the spatial transcriptome data, whereas the minor cell types of Hofbauer cells (HB) and endothelial cells (Endo) were spatially located by deconvolution of scRNA-seq data. We demonstrated that the Stereo-seq data of human villi could be used for sophisticated analyses such as spatial cell-communication and regulatory activity. We found that the SCT and VCT exhibited the most ligand-receptor pairs that could increase differentiation of the SCT, and that the spatial localization of specific regulons in different cell types was associated with the pathways related to hormones transport and secretion, regulation of mitotic cell cycle, and nutrient transport pathway in SCT. In EVT, regulatory pathways such as the epithelial to mesenchyme transition, epithelial development and differentiation, and extracellular matrix organization were identified. Finally, viral receptors and drug transporters were identified in villi according to the pathway analysis, which could help to explain the vertical transmission of several infectious diseases and drug metabolism efficacy. Our study provides a valuable resource for further investigation of the placenta development, physiology and pathology in a spatial context.

Published

2022

11. Computational approaches for predicting variant impact: An overview from resources, principles to applications

Author

Ye Liu, William S. B. Yeung, Philip C. N. Chiu, and Dandan Cao

Subjects

in silico prediction, human genetics, genotype-phenotype relationship, nonsynonymous variants, variant impact, Genetics, QH426-470

Abstract

One objective of human genetics is to unveil the variants that contribute to human diseases. With the rapid development and wide use of next-generation sequencing (NGS), massive genomic sequence data have been created, making personal genetic information available. Conventional experimental evidence is critical in establishing the relationship between sequence variants and phenotype but with low efficiency. Due to the lack of comprehensive databases and resources which present clinical and experimental evidence on genotype-phenotype relationship, as well as accumulating variants found from NGS, different computational tools that can predict the impact of the variants on phenotype have been greatly developed to bridge the gap. In this review, we present a brief introduction and discussion about the computational approaches for variant impact prediction. Following an innovative manner, we mainly focus on approaches for non-synonymous variants (nsSNVs) impact prediction and categorize them into six classes. Their underlying rationale and constraints, together with the concerns and remedies raised from comparative studies are discussed. We also present how the predictive approaches employed in different research. Although diverse constraints exist, the computational predictive approaches are indispensable in exploring genotype-phenotype relationship.

Published

2022

12. Single-cell RNA sequencing of cultured human endometrial CD140b+CD146+ perivascular cells highlights the importance of in vivo microenvironment

Author

Dandan Cao, Rachel W. S. Chan, Ernest H. Y. Ng, Kristina Gemzell-Danielsson, and William S. B. Yeung

Subjects

Endometrial perivascular cells, Single-cell RNA sequencing, Heterogeneity, Microenvironment, Medicine (General), R5-920, Biochemistry, QD415-436

Abstract

Abstract Background Endometrial mesenchymal-like stromal/stem cells (eMSCs) have been proposed as adult stem cells contributing to endometrial regeneration. One set of perivascular markers (CD140b&CD146) has been widely used to enrich eMSCs. Although eMSCs are easily accessible for regenerative medicine and have long been studied, their cellular heterogeneity, relationship to primary counterpart, remains largely unclear. Methods In this study, we applied 10X genomics single-cell RNA sequencing (scRNA-seq) to cultured human CD140b+CD146+ endometrial perivascular cells (ePCs) from menstrual and secretory endometrium. We also analyzed publicly available scRNA-seq data of primary endometrium and performed transcriptome comparison between cultured ePCs and primary ePCs at single-cell level. Results Transcriptomic expression-based clustering revealed limited heterogeneity within cultured menstrual and secretory ePCs. A main subpopulation and a small stress-induced subpopulation were identified in secretory and menstrual ePCs. Cell identity analysis demonstrated the similar cellular composition in secretory and menstrual ePCs. Marker gene expression analysis showed that the main subpopulations identified from cultured secretory and menstrual ePCs simultaneously expressed genes marking mesenchymal stem cell (MSC), perivascular cell, smooth muscle cell, and stromal fibroblast. GO enrichment analysis revealed that genes upregulated in the main subpopulation enriched in actin filament organization, cellular division, etc., while genes upregulated in the small subpopulation enriched in extracellular matrix disassembly, stress response, etc. By comparing subpopulations of cultured ePCs to the publicly available primary endometrial cells, it was found that the main subpopulation identified from cultured ePCs was culture-unique which was unlike primary ePCs or primary endometrial stromal fibroblast cells. Conclusion In summary, these data for the first time provides a single-cell atlas of the cultured human CD140b+CD146+ ePCs. The identification of culture-unique relatively homogenous cell population of CD140b+CD146+ ePCs underscores the importance of in vivo microenvironment in maintaining cellular identity.

Published

2021

13. The Regulatory Roles of Chemerin-Chemokine-Like Receptor 1 Axis in Placental Development and Vascular Remodeling During Early Pregnancy

Author

Qingqing Zhang, Zhonglin Xiao, Cheuk-Lun Lee, Yong-Gang Duan, Xiujun Fan, William S. B. Yeung, Philip C. N. Chiu, and Jian V. Zhang

Subjects

chemerin, CMKLR1, placental development, trophoblast invasion, spiral artery remodeling, Biology (General), QH301-705.5

Abstract

Chemerin is an adipokine that regulates metabolism in pregnancy. An elevation of serum chemerin level is associated with pregnancy complications. Consistently, we demonstrated that the chemerin expression was increased in placenta of preeclamptic patients at deliveries. The G protein-coupled receptor chemokine-like receptor 1 (CMKLR1) mediates the actions of chemerin. The functions of the chemerin-CMKLR1 axis in maintaining pregnancy are still unknown. In this study, we demonstrated that CMKLR1 was expressed in the decidual natural killer (dNK) cells and chorionic villi of human. Chemerin suppressed the proliferation of the dNK cells in vitro. Specific antagonist of CMKLR1, α-Neta abolished the suppressive effect of spent medium from chemerin-treated dNK cells culture on extravillous trophoblast invasion. Activation of the chemerin-CMKLR1 axis promoted fusion and differentiation of human cytotrophoblast to syncytiotrophoblast in vitro. We generated Cmklr1 knockout mice and showed that the Cmklr1 deficiency negatively affected pregnancy outcome in terms of number of implantation sites, litter size and fetal weight at birth. Histologically, the Cmklr1 deficiency impaired formation of the syncytiotrophoblast layer II, induced enlargement of the maternal lacunae in the labyrinth, increased the diameter of the spiral arteries and increased trophoblast invasion in the decidua. The Cmklr1 deficient placenta also displayed an increased number of dNK cells and serum IL-15 level. In summary, the chemerin-CMKLR1 axis regulated placental development and spiral artery remodeling in early pregnancy.

Published

2022

14. MFN2 Deficiency Impairs Mitochondrial Functions and PPAR Pathway During Spermatogenesis and Meiosis in Mice

Author

Tianren Wang, Yuan Xiao, Zhe Hu, Jingkai Gu, Renwu Hua, Zhuo Hai, Xueli Chen, Jian V. Zhang, Zhiying Yu, Ting Wu, William S. B. Yeung, Kui Liu, and Chenxi Guo

Subjects

spermatogenesis, meiosis, mitofusin 2, lipid metabolism, mitochondrial dynamics, Biology (General), QH301-705.5

Abstract

Mitochondria are highly dynamic organelles and their activity is known to be regulated by changes in morphology via fusion and fission events. However, the role of mitochondrial dynamics on cellular differentiation remains largely unknown. Here, we explored the molecular mechanism of mitochondrial fusion during spermatogenesis by generating an Mfn2 (mitofusin 2) conditional knock-out (cKO) mouse model. We found that depletion of MFN2 in male germ cells led to disrupted spermatogenesis and meiosis during which the majority of Mfn2 cKO spermatocytes did not develop to the pachytene stage. We showed that in these Mfn2 cKO spermatocytes, oxidative phosphorylation in the mitochondria was affected. In addition, RNA-Seq analysis showed that there was a significantly altered transcriptome profile in the Mfn2 deficient pachytene (or pachytene-like) spermatocytes, with a total of 262 genes up-regulated and 728 genes down-regulated, compared with wild-type (control) mice. Pathway enrichment analysis indicated that the peroxisome proliferator-activated receptor (PPAR) pathway was altered, and subsequent more detailed analysis showed that the expression of PPAR α and PPAR γ was up-regulated and down-regulated, respectively, in the MFN2 deficient pachytene (or pachytene-like) spermatocytes. We also demonstrated that there were more lipid droplets in the Mfn2 cKO cells than in the control cells. In conclusion, our study demonstrates a novel finding that MFN2 deficiency negatively affects mitochondrial functions and alters PPAR pathway together with lipid metabolism during spermatogenesis and meiosis.

Published

2022

15. Understanding the regulatory mechanisms of endometrial cells on activities of endometrial mesenchymal stem-like cells during menstruation

Author

Shan Xu, Rachel W. S. Chan, Tianqi Li, Ernest H. Y. Ng, and William S. B. Yeung

Subjects

Endometrium, Cytokines, Stem cells, Menstruation, WNT signalling, RSPO1, Medicine (General), R5-920, Biochemistry, QD415-436

Abstract

Abstract Background The identification of endometrial stem/progenitor cells in a high turnover rate tissue suggests that a well-orchestrated underlying network controls the behaviour of these stem cells. The thickness of the endometrium can grow from 0.5–1 mm to 5–7 mm within a week indicating the need of stem cells for self-renewal and differentiation during this period. The cyclical regeneration of the endometrium suggests specific signals can activate the stem cells during or shortly after menstruation. Methods Endometrial mesenchymal stem-like cells (eMSCs) were cocultured with endometrial epithelial or stromal cells from different phases of the menstrual cycle; the clonogenicity and the phenotypic expression of eMSC markers (CD140b and CD146) were assessed. The functional role of WNT/β-catenin signalling on eMSC was determined by western blot analysis, immunofluorescent staining, flow cytometry, quantitative real-time PCR and small interfering RNA. The cytokine levels in the conditioned medium of epithelial or stromal cells cocultured with eMSCs were evaluated by enzyme-linked immunosorbent assays. Results Coculture of endometrial cells (epithelial or stromal) from the menstrual phase enhanced the clonogenicity and self-renewal activities of eMSCs. Such phenomenon was not observed in niche cells from the proliferative phase. Coculture with endometrial cells from the menstrual phase confirmed an increase in expression of active β-catenin in the eMSCs. Treatment with IWP-2, a WNT inhibitor, suppressed the observed effects. Anti-R-spondin-1 antibody reduced the stimulatory action of endometrial niche cells on WNT/β-catenin activation in the T cell factor/lymphoid enhancer-binding factor luciferase reporter assay. Moreover, the mRNA level and protein immunoreactivities of leucine-rich repeat-containing G-protein coupled receptor 5 were higher in eMSCs than unfractionated stromal cells. Conditioned media of endometrial niche cells cocultured with eMSCs contained increased levels of C-X-C motif ligand 1 (CXCL1), CXCL5 and interleukin 6. Treatment with these cytokines increased the clonogenic activity and phenotypic expression of eMSCs. Conclusions Our findings indicate a role of WNT/β-catenin signalling in regulating activities of endometrial stem/progenitor cells during menstruation. Certain cytokines at menstruation can stimulate the proliferation and self-renewal activities of eMSCs. Understanding the mechanism in the regulation of eMSCs may contribute to treatments of endometrial proliferative disorders such as Asherman’s syndrome.

Published

2020

16. Identification of Sialyl-Lewis(x)-Interacting Protein on Human Spermatozoa

Author

Ying Wang, Weie Zhao, Si Mei, Panyu Chen, Tsz-Ying Leung, Cheuk-Lun Lee, William S. B. Yeung, Jian-Ping Ou, Xiaoyan Liang, and Philip C. N. Chiu

Subjects

zona pellucida, human spermatozoa, sialyl-Lewis(x), C1orf56, fertilization rate, Biology (General), QH301-705.5

Abstract

Capacitated spermatozoa initiate fertilization by binding to the zona pellucida (ZP). Defective spermatozoa-ZP binding causes infertility. The sialyl-Lewis(x) (SLeX) sequence is the most abundant terminal sequence on the glycans of human ZP glycoproteins involving in spermatozoa-ZP binding. This study aimed to identify and characterize the SLeX-binding proteins on human spermatozoa. By using affinity chromatography followed by mass spectrometric analysis, chromosome 1 open reading frame 56 (C1orf56) was identified to be a SLeX-binding protein of capacitated spermatozoa. The acrosomal region of spermatozoa possessed C1orf56 immunoreactive signals with intensities that increased after capacitation indicating translocation of C1orf56 to the cell surface during capacitation. Treatment with antibody against C1orf56 inhibited spermatozoa-ZP binding and ZP-induced acrosome reaction. Purified C1orf56 from capacitated spermatozoa bound to human ZP. A pilot clinical study was conducted and found no association between the percentage of capacitated spermatozoa with C1orf56 expression and in vitro fertilization (IVF) rate in assisted reproduction treatment. However, the percentage of C1orf56 positive spermatozoa in the acrosome-reacted population was significantly (P < 0.05) lower in cycles with a fertilization rate < 60% when compared to those with a higher fertilization rate, suggesting that C1orf56 may have functions after ZP-binding and acrosome reaction. A larger clinical trial is needed to determine the possible use of sperm C1orf56 content for the prediction of fertilization potential of sperm samples.

Published

2021

17. Correction: Single-cell RNA sequencing of cultured human endometrial CD140b+CD146+ perivascular cells highlights the importance of in vivo microenvironment

Author

Dandan Cao, Rachel W. S. Chan, Ernest H. Y. Ng, Kristina Gemzell-Danielsson, and William S. B. Yeung

Subjects

Medicine (General), R5-920, Biochemistry, QD415-436

Published

2022

18. Correction to: Understanding the regulatory mechanisms of endometrial cells on activities of endometrial mesenchymal stem-like cells during menstruation

Author

Shan Xu, Rachel W. S. Chan, Tianqi Li, Ernest H. Y. Ng, and William S. B. Yeung

Subjects

Medicine (General), R5-920, Biochemistry, QD415-436

Published

2022

19. Bisphenol A Analogues Suppress Spheroid Attachment on Human Endometrial Epithelial Cells through Modulation of Steroid Hormone Receptors Signaling Pathway

Author

Hongjie Fan, Sudini R. Fernando, Luhan Jiang, Ziyi Wang, Suranga P. Kodithuwakku, Chris K. C. Wong, Ernest H. Y. Ng, William S. B. Yeung, and Kai-Fai Lee

Subjects

bisphenols, co-culture, spheroid attachment, steroid hormones, endometrium, microarray, Cytology, QH573-671

Abstract

Bisphenol A (BPA) is a well-known endocrine disruptor, widely used in various consumer products and ubiquitously found in air, water, food, dust, and sewage leachates. Recently, several countries have restricted the use of BPA and replaced them with bisphenol S (BPS) and bisphenol F (BPF), which have a similar chemical structure to BPA. Compared to BPA, both BPS and BPF have weaker estrogenic effects, but their effects on human reproductive function including endometrial receptivity and embryo implantation still remain largely unknown. We used an in vitro spheroid (blastocyst surrogate) co-culture assay to investigate the effects of BPA, BPS, and BPF on spheroid attachment on human endometrial epithelial cells, and further delineated their role on steroid hormone receptor expression. We also used transcriptomics to investigate the effects of BPA, BPS, and BPF on the transcriptome of human endometrial cells. We found that bisphenol treatment in human endometrial Ishikawa cells altered estrogen receptor alpha (ERα) signaling and upregulated progesterone receptors (PR). Bisphenols suppressed spheroid attachment onto Ishikawa cells, which was reversed by the downregulation of PR through PR siRNA. Overall, we found that bisphenol compounds can affect human endometrial epithelial cell receptivity through the modulation of steroid hormone receptor function leading to impaired embryo implantation.

Published

2021

20. Current Understandings of Core Pathways for the Activation of Mammalian Primordial Follicles

Author

Yu Zhao, Haiwei Feng, Yihui Zhang, Jian V. Zhang, Xiaohui Wang, Dongteng Liu, Tianren Wang, Raymond H. W. Li, Ernest H. Y. Ng, William S. B. Yeung, Kenny A. Rodriguez-Wallberg, and Kui Liu

Subjects

primordial follicles, PI3K/PTEN signaling, in vitro activation, oocyte, granulosa cells, fertilization, Cytology, QH573-671

Abstract

The mammalian ovary has two main functions—producing mature oocytes for fertilization and secreting hormones for maintaining the ovarian endocrine functions. Both functions are vital for female reproduction. Primordial follicles are composed of flattened pre-granulosa cells and a primary oocyte, and activation of primordial follicles is the first step in follicular development and is the key factor in determining the reproductive capacity of females. The recent identification of the phosphatidylinositol 3 kinase (PI3K)/phosphatase and tensin homolog deleted on chromosome 10 (PTEN) signaling pathway as the key controller for follicular activation has made the study of primordial follicle activation a hot research topic in the field of reproduction. This review systematically summarizes the roles of the PI3K/PTEN signaling pathway in primordial follicle activation and discusses how the pathway interacts with various other molecular networks to control follicular activation. Studies on the activation of primordial follicles have led to the development of methods for the in vitro activation of primordial follicles as a treatment for infertility in women with premature ovarian insufficiency or poor ovarian response, and these are also discussed along with some practical applications of our current knowledge of follicular activation.

Published

2021

21. Placenta exosomal miRNA-30d-5p facilitates decidual macrophage polarization by targeting HDAC9

Author

Kunfeng Bai, Jianlin Li, Leqian Lin, Qingqing Zhang, Jiangming Zhong, Xiaofeng Liu, Dandan Cao, Yong-Gang Duan, Yuanqing Yao, Raymond H W Li, Ka-Wang Cheung, William S B Yeung, Philip C N Chiu, and Cheuk-Lun Lee

Subjects

Immunology, Immunology and Allergy, Cell Biology

Abstract

Pregnancy involves a wide range of adaptations in the maternal body. Maternal immune tolerance toward the foreign fetus is critical for a successful pregnancy. Decidual macrophages are the primary antigen-presenting and phagocytic cells responsible for antigen presentation and apoptotic cell removal. Their phenotype changes dynamically during pregnancy. Placenta-derived exosomes are small vesicles carrying active biological molecules such as microRNAs, proteins, and lipids. The placenta-derived exosomes have been implicated in endothelial cell activation, smooth muscle cell migration, and T-cell apoptosis, but it is unknown whether placenta-derived exosomes would affect the development and functions of decidual macrophages. In this study, we reported that placenta-derived exosomes stimulated macrophage polarization into alternatively activated (M2) macrophages. Mechanistically, miRNA-30d-5p from the placenta-derived exosomes induced macrophage polarization to the M2 phenotype by targeting histone deacetylase 9. Furthermore, the conditioned medium of placenta-derived exosome–treated macrophages promoted trophoblast migration and invasion. By contrast, the conditioned medium impaired the ability of endothelial cell tube formation and migration. Placenta-derived exosome–treated macrophages had no impact on T-cell proliferation. Together, we demonstrated that placenta-derived exosomes polarize macrophages to acquire a decidua-like macrophage phenotype to modulate trophoblast and endothelial cell functions.

Published

2023

22. Effect of serum vitamin D level before ovarian stimulation on the cumulative live birth rate of women undergoing in vitro fertilization: a retrospective analysis

Author

Jennifer K Y Ko, Jinghua Shi, Raymond H W Li, William S B Yeung, and Ernest H Y Ng

Subjects

vitamin d, frozen embryo transfer, cumulative live birth rate, RC648-665, in vitro fertilization, Diseases of the endocrine glands. Clinical endocrinology

Abstract

Objective: Vitamin D receptors are present in the female reproductive tract. Studies on the association between serum vitamin D level and pregnancy rate of in vitro fertilization (IVF) showed inconsistent results and focused on a single fresh or frozen embryo transfer cycle. The objective of our study was to evaluate if serum vitamin D level before ovarian stimulation was associated with the cumulative live bir th rate (CLBR) of the first IVF cycle. Design: Retrospective cohort study. Methods: Women who underwent the first IVF cycle from 2012 to 2016 at a university-affiliated reproductive medicine center were included. Archived s erum samples taken before ovarian stimulation were analyzed for 25(OH)D levels using liquid chromatography-mass spectrometry. Results: In total, 1113 had pregnancy outcome from the completed IVF cycle. The median age (25th–75th percentile) of the women was 36 (34–38) years an d serum 25(OH)D level was 53.4 (41.9–66.6) nmol/L. The prevalence of vitamin D deficie ncy (less than 50 nmol/L) was 42.2%. The CLBR in the vitamin D-deficient group was signific antly lower compared to the non-deficient group (43.9%, 208/474 vs 50.9%, 325/639, P = 0.021, unadjusted), and after controlling for women’s age, BMI, antral follicle count, type and duration of infertility. There were no differences in the clinical/ongoing p regnancy rate, live birth rate and miscarriage rate in the fresh cycle between the vitamin D d eficient and non-deficient groups. Conclusions: Vitamin D deficiency was prevalent in infertile women in subtro pical Hong Kong. The CLBR of the first IVF cycle in the vitamin D-deficient group was significantly lower compared to the non-deficient group.

Published

2022

23. Transcriptomic analysis of mid‐secretory endometrium reveals essential immune factors associated with pregnancy after single euploid blastocyst transfer

Author

Yanfei Cheng, Hui Wang, Jin Shang, Jue Wang, Jingwen Yin, Jinning Zhang, Xinmeng Guo, Sidong Wang, Yong‐Gang Duan, Cheuk‐Lun Lee, Philip C. N. Chiu, Jian Zhang, William S. B. Yeung, Dandan Cao, and Yuanqing Yao

Subjects

Reproductive Medicine, Immunology, Obstetrics and Gynecology, Immunology and Allergy

Abstract

Implantation is a limiting factor for treatment success in assisted reproduction. Both embryonic and endometrial factors contribute to implantation. Embryonic factors have often been ignored in previous studies about the role of endometrium in implantation. In this study, we sought to identify the endometrial genes associated with negative pregnancy outcomes following the transfer of a single euploid blastocyst.Computational analyses of the transcriptomes of mid-secretory endometria from nine pregnant and seven non-pregnant patients in a cycle preceding the transfer of a single euploid blastocyst in a vitrified-warmed cycle were performed.Principal component analysis of two reported endometrial receptivity gene sets showed close clustering of the pregnant and non-pregnant samples. Differential gene expression analysis and co-expression module analysis identified 131 genes associated with the pregnancy status. The endometrial signatures identified highlight the importance of immune and metabolic regulation in pregnancy outcome. Network analysis identified 20 hub genes that could predict pregnancy outcomes with 88.9% sensitivity and 85.7% specificity. Single-cell gene expression analysis highlighted the regulation of endometrial natural killer cells, T cells, and macrophages during embryo implantation. Immune cell abundance analysis supported the dysregulation of cytotoxic immune cells in the endometria of non-pregnant women.We reported the first endometrial gene signature associated with pregnancy after elimination of embryo aneuploidy and highlighted the importance of the endometrial immune microenvironment and metabolic status in pregnancy outcomes. This article is protected by copyright. All rights reserved.

Published

2022

24. Preimplantation genetic testing for aneuploidy helps to achieve a live birth with fewer transfer cycles for the blastocyst FET patients with unexplained recurrent implantation failure

Author

Sidong Wang, Luochuan Liu, Minyue Ma, Hui Wang, Yibing Han, Xinmeng Guo, William S. B. Yeung, Yanfei Cheng, Huiting Zhang, Fengming Dong, Bolun Zhang, Ye Tian, Jiangnan Song, Hongmei Peng, and Yuanqing Yao

Subjects

Obstetrics and Gynecology, General Medicine

Abstract

Purpose: This retrospective cohort study aimed to investigate the value of preimplantation genetic testing for aneuploidy (PGT-A) as a screening test for patients suffered from unexplained recurrent implantation failure (RIF). Methods: After screening patients in one reproductive medicine center, twenty-nine, eighty-seven and thirty-eight women (Results: The live birth rate per transfer was significantly higher in the RIF+PGT-A group than that in the RIF+NO PGT-A group (47.4% vs 31.6%) after adjusting the confounder (the maternal age). After 3 cycles of FET, RIF+PGT-A group had a significantly higher conservative cumulative live birth rate (CLBR) compared to the RIF+PGT-A group (69.0% vs 42.5%, odds ratio [OR] 3.777, p=0.005), but had similar CLBR compared to the NO RIF+PGT-A group (69.0% vs 81.6%). The optimal CLBR in the RIF+PGT-A patients was similar to those in the other 2 groups. The miscarriage rate per clinical pregnancy was not different between the RIF+PGT-A and RIF+NO PGT-A, RIF+PGT-A and NO RIF+PGT-A groups. Conclusion: Although PGT-A could land on the non-beneficial side after three blastocyst FETs, it did be superior in reducing the number of transfer cycles required to achieve a similar live birth rate. Further studies to identify the RIF patients who would benefit most from PGT-A are necessary.

Published

2022

25. Identification of curcumin as a novel potential drug for promoting the development of small ovarian follicles for infertility treatment

Author

Yu Zhao, Yihui Zhang, Dongteng Liu, Haiwei Feng, Xiaohui Wang, Jiajun Su, Yuanqing Yao, Ernest H Y Ng, William S B Yeung, Raymond H W Li, Kenny A Rodriguez-Wallberg, and Kui Liu

Abstract

In-vitro fertilization is an effective treatment for various causes of infertility. However, management of women with poor ovarian response or premature ovarian insufficiency remains challenging because these women have underdeveloped small ovarian follicles that do not respond to hormone treatment. In-vitro activation of small follicles has been developed but its efficiency has much room for improvement. In the current study, we provide several lines of evidence showing that curcumin, an FDA-approved traditional medicine, can specifically promote the development of mouse ovarian follicles from the primary to secondary stage, which greatly potentiates these small follicles for subsequent in-vivo development into antral follicles that can be ovulated. Mechanistically, we show that curcumin promotes the proliferation and differentiation of granulosa cells and the growth of oocytes by activating the phosphatidylinositol 3 kinase (PI3K) signaling pathway. Most importantly, we show that in-vitro treatment of human ovarian tissues with curcumin can promote the in-vivo survival and development of small human ovarian follicles, showing that curcumin can be used as a potential drug to increase the success rate of in-vitro activation of small human follicles. We thus identify curcumin as a novel potential drug for promoting the development of small human ovarian follicles for infertility treatment.

Published

2022

26. 100 YEARS OF VITAMIN D: Effect of serum vitamin D level before ovarian stimulation on the cumulative live birth rate of women undergoing in vitro fertilization: a retrospective analysis

Author

Jennifer K Y Ko, Jinghua Shi, Raymond H W Li, William S B Yeung, and Ernest H Y Ng

Subjects

Endocrinology, Endocrinology, Diabetes and Metabolism, Internal Medicine

Abstract

Objective Vitamin D receptors are present in the female reproductive tract. Studies on the association between serum vitamin D level and pregnancy rate of in vitro fertilization (IVF) showed inconsistent results and focused on a single fresh or frozen embryo transfer cycle. The objective of our study was to evaluate if serum vitamin D level before ovarian stimulation was associated with the cumulative live birth rate (CLBR) of the first IVF cycle. Design Retrospective cohort study. Methods Women who underwent the first IVF cycle from 2012 to 2016 at a university-affiliated reproductive medicine center were included. Archived serum samples taken before ovarian stimulation were analyzed for 25(OH)D levels using liquid chromatography-mass spectrometry. Results In total, 1113 had pregnancy outcome from the completed IVF cycle. The median age (25th–75th percentile) of the women was 36 (34–38) years and serum 25(OH)D level was 53.4 (41.9–66.6) nmol/L. The prevalence of vitamin D deficiency (less than 50 nmol/L) was 42.2%. The CLBR in the vitamin D-deficient group was significantly lower compared to the non-deficient group (43.9%, 208/474 vs 50.9%, 325/639, P = 0.021, unadjusted), and after controlling for women’s age, BMI, antral follicle count, type and duration of infertility. There were no differences in the clinical/ongoing pregnancy rate, live birth rate and miscarriage rate in the fresh cycle between the vitamin D deficient and non-deficient groups. Conclusions Vitamin D deficiency was prevalent in infertile women in subtropical Hong Kong. The CLBR of the first IVF cycle in the vitamin D-deficient group was significantly lower compared to the non-deficient group.

Published

2022

27. Single-Cell RNA-Sequencing Reveals Interactions between Endometrial Stromal Cells, Epithelial Cells, and Lymphocytes during Mouse Embryo Implantation

Author

Luhan Jiang, Dandan Cao, William S. B. Yeung, and Kai-Fai Lee

Subjects

Inorganic Chemistry, embryo implantation, endometrial stromal cells, single-cell RNA sequencing, endometrial epithelial cells, uterine NK cells, CD8+ T Cells, Organic Chemistry, General Medicine, Physical and Theoretical Chemistry, Molecular Biology, Spectroscopy, Catalysis, Computer Science Applications

Abstract

The decidualization of endometrial stromal cells (ESCs) is an essential process facilitating embryo implantation. However, the roles of non-decidualized and decidualized ESCs in regulating the microenvironment of a receptive endometrium remain unclear. We investigated single-cell transcriptomic changes in the uterus of a CD-1 mouse model at the post-implantation stage. The implantation and inter-implantation sites of the uteruses of pregnant mice at 4.5 and 5.5 days post-coitum were dissected for single-cell RNA sequencing. We identified eight cell types: epithelial cells, stromal cells, endothelial cells, mesothelial cells, lymphocytes, myocytes, myeloids, and pericytes. The ESC transcriptome suggests that the four ESC subtypes are involved in the extracellular remodeling during implantation. The trajectory plot of ESC subtypes indicates embryo implantation that involves a differentiation pathway from undifferentiated ESCs (ESC 1) to decidualized ESCs (DEC ESCs), with distinct signaling pathways between the ESC subtypes. Furthermore, the ligand-receptor analysis suggests that ESCs communicate with epithelial cells and immune cells through nectin and ICAM signaling. Collectively, both decidualized and non-decidualized ESCs may regulate the endometrial microenvironment for optimal endometrial receptivity and immune tolerance. This study provides insights on the molecular and cellular characteristics of mouse ESCs in modulating the epithelial and lymphocyte functions during early embryo implantation.

Published

2022

28. Simulating nature in sperm selection for assisted reproduction

Author

Erica T Y, Leung, Cheuk-Lun, Lee, Xinyi, Tian, Kevin K W, Lam, Raymond H W, Li, Ernest H Y, Ng, William S B, Yeung, and Philip C N, Chiu

Subjects

Male, Sperm Retrieval, Reproductive Techniques, Assisted, Humans, Models, Biological, Spermatozoa

Abstract

Sperm selection in the female reproductive tract (FRT) is sophisticated. Only about 1,000 sperm out of millions in an ejaculate reach the fallopian tube and thus have a chance of fertilizing an oocyte. In assisted reproduction techniques, sperm are usually selected using their density or motility, characteristics that do not reflect their fertilization competence and, therefore, might result in failure to fertilize the oocyte. Although sperm processing in in vitro fertilization (IVF) and intrauterine insemination (IUI) bypasses many of the selection processes in the FRT, selection by the cumulus mass and the zona pellucida remain intact. By contrast, the direct injection of a sperm into an oocyte in intracytoplasmic sperm injection (ICSI) bypasses all natural selection barriers and, therefore, increases the risk of transferring paternal defects such as fragmented DNA and genomic abnormalities in sperm to the resulting child. Research into surrogate markers of fertilization potential and into simulating the natural sperm selection processes has progressed. However, methods of sperm isolation - such as hyaluronic acid-based selection and microfluidic isolation based on sperm tactic responses - use only one or two parameters and are not comparable with the multistep sperm selection processes naturally occurring within the FRT. Fertilization-competent sperm require a panel of molecules, including zona pellucida-binding proteins and ion channel proteins, that enable them to progress through the FRT to achieve fertilization. The optimal artificial sperm selection method will, therefore, probably need to use a multiparameter tool that incorporates the molecular signature of sperm with high fertilization potential, and their responses to external cues, within a microfluidic system that can replicate the physiological processes of the FRT in vitro.

Published

2021

29. Decidual glycodelin-A polarizes human monocytes into a decidual macrophage-like phenotype through Siglec-7

Author

Madhavi, Vijayan, Cheuk-Lun, Lee, Vera H H, Wong, Xia, Wang, Kungfeng, Bai, Jian, Wu, Hannu, Koistinen, Markku, Seppälä, Kai-Fai, Lee, William S B, Yeung, Ernest H Y, Ng, and Philip C N, Chiu

Subjects

Sialic Acid Binding Immunoglobulin-like Lectins, Phenotype, Glycodelin, Pregnancy, Lectins, Macrophages, Placenta, Antigens, Differentiation, Myelomonocytic, Humans, Female, Monocytes

Abstract

Decidual macrophages constitute 20-30% of the total leukocytes in the uterus of pregnant women, regulating the maternal immune tolerance and placenta development. Abnormal number or activities of decidual macrophages (dMs) are associated with fetal loss and pregnancy complications, such as preeclampsia. Monocytes differentiate into dMs in a decidua-specific microenvironment. Despite their important roles in pregnancy, the exact factors that regulate the differentiation into dMs remain unclear. Glycodelin-A (PAEP, hereafter referred to as GdA) is a glycoprotein that is abundantly present in the decidua, and plays an important role in fetomaternal defense and placental development. It modulates the differentiation and activity of several immune cell types residing in the decidua. In this study, we demonstrated that GdA induces the differentiation of human monocytes into dM-like phenotypes in terms of transcriptome, cell surface marker expression, secretome, and regulation of trophoblast and endothelial cell functions. We found that Sialic acid-binding Ig-like lectin 7 (Siglec-7) mediates the binding and biological actions of GdA in a sialic acid-dependent manner. We, therefore, suggest that GdA, induces the polarization of monocytes into dMs to regulate fetomaternal tolerance and placental development.

Published

2020

30. Adrenomedullin Regulates Sperm Motility and Oviductal Ciliary Beat via Cyclic Adenosine 5′-Monophosphate/Protein Kinase A and Nitric Oxide

Author

Philip C. N. Chiu, S. Liao, Kevin K. W. Lam, F. Tang, James C. M. Ho, P. C. Ho, W. S. O, Y. Q. Yao, and William S. B. Yeung

Subjects

Male, medicine.medical_specialty, Motility, Oviducts, In Vitro Techniques, Biology, Nitric Oxide, Rats, Sprague-Dawley, Adrenomedullin, chemistry.chemical_compound, Endocrinology, Pregnancy, Internal medicine, Cyclic AMP, medicine, Animals, Humans, Nitric Oxide Donors, Cyclic adenosine monophosphate, Protein kinase A signaling, Protein kinase A, Sperm motility, Sulfonamides, urogenital system, Activator (genetics), Cilium, Isoquinolines, Cyclic AMP-Dependent Protein Kinases, Rats, NG-Nitroarginine Methyl Ester, chemistry, Sperm Motility, Calcium, Female, Nitric Oxide Synthase, Signal transduction, Protein Binding

Abstract

Cilium and flagellum beating are important in reproduction and defects in their motion are associated with ectopic pregnancy and infertility. Adrenomedullin (ADM) is a polypeptide present in the reproductive system. This report demonstrates a novel action of ADM in enhancing the flagellar/ciliary beating of human spermatozoa and rat oviductal ciliated cells. At the concentration found in the seminal plasma, it increases the progressive motility of spermatozoa. ADM binds to its classical receptor, calcitonin receptor-like receptor/receptor activity-modifying protein complex on spermatozoa. ADM treatment increases the protein kinase A activities, the cyclic adenosine monophosphate, and nitric oxide levels of spermatozoa and oviductal cells. Pharmacological activators and inhibitors confirmed that the ADM-induced flagella/ciliary beating was protein kinase A dependent. Whereas nitric oxide donors had no effect on sperm motility, they potentiated the motility-inducing action of protein kinase A activators, demonstrating for the first time the synergistic action of nitric oxide and protein kinase A signaling in flagellar/ciliary beating. The ADM-induced motility enhancement effect in spermatozoa also depended on the up-regulation of intracellular calcium, a known key regulator of sperm motility and ciliary beating. In conclusion, ADM is a common activator of flagellar/ciliary beating. The study provides a physiological basis on possible use of ADM as a fertility regulation drug.

Published

2010

31. MicroRNA-212 Regulates the Expression of Olfactomedin 1 and C-Terminal Binding Protein 1 in Human Endometrial Epithelial Cells to Enhance Spheroid Attachment In Vitro

Author

Kottawattage S A, Kottawatta, Kam-Hei, So, Suranga P, Kodithuwakku, Ernest H Y, Ng, William S B, Yeung, and Kai-Fai, Lee

Subjects

Extracellular Matrix Proteins, Epithelial Cells, Chorionic Gonadotropin, DNA-Binding Proteins, Alcohol Oxidoreductases, Endometrium, MicroRNAs, Spheroids, Cellular, Humans, Female, Embryo Implantation, Fallopian Tubes, Glycoproteins, HeLa Cells

Abstract

Successful embryo implantation requires a synchronized dialogue between a competent blastocyst and the receptive endometrium, which occurs in a limited time period known as the "window of implantation." Recent studies suggested that down-regulation of olfactomedin 1 (OLFM1) in the endometrium and fallopian tube is associated with receptive endometrium and tubal ectopic pregnancy in humans. Interestingly, the human chorionic gonadotropin (hCG) induces miR-212 expression, which modulates OLFM1 and C-terminal binding protein 1 (CTBP1) expressions in mouse granulosa cells. Therefore, we hypothesized that embryo-derived hCG would increase miR-212 expression and down-regulate OLFM1 and CTBP1 expressions to favor embryo attachment onto the female reproductive tract. We found that hCG stimulated the expression of miR-212 and down-regulated OLFM1 but not CTBP1 mRNA in both human endometrial (Ishikawa) and fallopian (OE-E6/E7) epithelial cells. However, hCG suppressed the expression of OLFM1 and CTBP1 proteins in both cell lines. The 3'UTR of both OLFM1 and CTBP1 contained binding sites for miR-212. The miR-212 precursor suppressed luciferase expression, whereas the miR-212 inhibitor stimulated luciferase expression of the wild-type (WT)-OLFM1 and WT-CTBP1 reporter constructs. Furthermore, hCG (25 IU/ml) treatments stimulated trophoblastic (Jeg-3) spheroid (blastocyst surrogate) attachment onto Ishikawa and OE-E6/E7 cells. Transfection of miR-212 precursor increased Jeg-3 spheroid attachment onto Ishikawa cells and decreased OLFM1 and CTBP1 protein expressions, whereas the opposite occurred with miR-212 inhibitor. Taken together, hCG stimulated miR-212, which in turn down-regulated OLFM1 and CTBP1 expression in fallopian and endometrial epithelial cells to favor spheroid attachment.

Published

2015

32. Adrenomedullin enhances invasion of human extravillous cytotrophoblast-derived cell lines by regulation of urokinase plasminogen activator expression and s-nitrosylation

Author

Ben S T, Wong, Kevin K W, Lam, Cheuk-Lun, Lee, Vera H H, Wong, Maggie P Y, Lam, Ivan K, Chu, William S B, Yeung, and Philip C N, Chiu

Subjects

Placenta, In Vitro Techniques, Urokinase-Type Plasminogen Activator, Placentation, Cell Line, Trophoblasts, Adrenomedullin, Gene Expression Regulation, Cell Movement, Pregnancy, Humans, Female, Nitric Oxide Donors, Enzyme Inhibitors, Nitric Oxide Synthase, RNA, Small Interfering, Cell Proliferation, Signal Transduction

Abstract

Extravillous cytotrophoblast (EVCT) is responsible for trophoblast invasion, which is an important process during placentation. Dysregulation of the process is associated with a wide range of pregnancy complications. Adrenomedullin (ADM) is a polypeptide expressed most abundantly in first-trimester placentas. We hypothesized that ADM modulated the invasion of human EVCT. Our results showed that ADM enhanced invasion and migration but not proliferation in two EVCT cell lines, JEG-3 and TEV-1. Similar observation can also be obtained in primary EVCTs. JEG-3 and TEV-1 cells expressed ADM receptor components as demonstrated by immunostaining, Western blotting, and RT-PCR. The ADM antagonist ADM(22-52) (ADM C-terminal 22-52 amino acid fragment) suppressed ADM-induced invasion and migration, confirming that ADM exerted its biological effects through its classical receptors. The stimulatory effect of ADM on EVCT invasiveness was associated with induction (P0.05) of urokinase plasminogen activator (uPA) and nitric oxide synthase (NOS) expression and activity. Silencing of uPA by siRNA transfection abolished the stimulatory effect of ADM, suggesting that uPA is the key mediator for ADM-induced invasion. The involvement of NO in enhancing the invasion and biosynthesis of uPA in EVCT cell lines was confirmed by using pharmacological inhibitors of NOS and NO donors. ADM-mediated NO production also increased protein S-nitrosylation of JEG-3 cells. S-nitrosylation activated uPA in vitro and induced a higher proteinase activity. These findings provide indications that ADM and its downstream NO signaling may play an important role in modulating human EVCT functions.

Published

2012

33. Human female reproductive tract epithelial cell culture

Author

Rachel W S, Chan, Abby S C, Mak, William S B, Yeung, Kai-Fai, Lee, Annie N Y, Cheung, Hextan Y S, Ngan, and Alice S T, Wong

Subjects

Antigens, Polyomavirus Transforming, Stem Cells, Cell Culture Techniques, Humans, Epithelial Cells, Female, Cell Separation, Genitalia, Female, Stromal Cells, Telomerase, Coculture Techniques, Cell Proliferation

Abstract

The female reproductive system is a complex system. Epithelia of the female reproductive system including the ovaries, the oviduct, and the uterus are important sites for follicular development, ovulation, fertilization, implantation, and embryo development. They are also able to synthesize and secrete various hormones, growth factors, and cytokines, which are essential to women's health, sexuality, and reproduction. Conversely, their dysfunction has been implicated in disorders such as infertility, endometriosis, and many other gynecological diseases, as well as cancer. In this chapter, we describe detailed procedures for establishing and maintaining primary cultures of human ovarian surface epithelium, oviductal epithelium, and endometrium. We also provide protocols for cell immortalization, clonal isolation, and in coculture with stromal cells. These cultures can be useful models for investigating the molecular and cellular functions of these epithelia in both normal and pathological states.

Published

2012

34. Glycosylation failure extends to glycoproteins in gestational diabetes mellitus: evidence from reduced α2-6 sialylation and impaired immunomodulatory activities of pregnancy-related glycodelin-A

Author

Cheuk-Lun, Lee, Philip C N, Chiu, Poh-Choo, Pang, Ivan K, Chu, Kai-Fai, Lee, Riitta, Koistinen, Hannu, Koistinen, Markku, Seppälä, Howard R, Morris, Bérangère, Tissot, Maria, Panico, Anne, Dell, and William S B, Yeung

Subjects

Adult, Analysis of Variance, Glycosylation, endocrine system diseases, Cell Death, Interleukin-6, Pregnancy Proteins, Amniotic Fluid, Flow Cytometry, Pathophysiology, Gas Chromatography-Mass Spectrometry, N-Acetylneuraminic Acid, Diabetes, Gestational, Glycodelin, Pregnancy, Lectins, Humans, Female, Glycoproteins

Abstract

OBJECTIVE Gestational diabetes mellitus (GDM) is a common metabolic disorder of pregnancy. Patients with GDM are at risk for high fetal mortality and gestational complications associated with reduced immune tolerance and abnormal carbohydrate metabolism. Glycodelin-A (GdA) is an abundant decidual glycoprotein with glycosylation-dependent immunomodulatory activities. We hypothesized that aberrant carbohydrate metabolism in GDM was associated with changes in glycosylation of GdA, leading to defective immunomodulatory activities. RESEARCH DESIGN AND METHODS GdA in the amniotic fluid from women with normal (NGdA) and GDM (DGdA) pregnancies was purified by affinity chromatography. Structural analysis of protein glycosylation was preformed by lectin-binding assay and mass spectrometry. Cytotoxicity, cell death, cytokine secretion, and GdA binding of the GdA-treated lymphocytes and natural killer (NK) cells were determined. The sialidase activity in the placental tissue from normal and GDM patients was measured. RESULTS GDM affected the glycosylation but not the protein core of GdA. Specifically, DGdA had a lower abundance of α2-6–sialylated and high-mannose glycans and a higher abundance of glycans with Sda (NeuAcα2-3[GalNAcβ1-4]Gal) epitopes compared with NGdA. DGdA had reduced immuosuppressive activities in terms of cytotoxicity on lymphocytes, inhibitory activities on interleukin (IL)-2 secretion by lymphocytes, stimulatory activities on IL-6 secretion by NK cells, and binding to these cells. Desialylation abolished the immunomodulation and binding of NGdA. Placental sialidase activity was increased in GDM patients, which may account for the reduced sialic acid content of DGdA. CONCLUSIONS Taken together, this study provides the first direct evidence for altered enzymatic glycosylation and impaired bioactivity of GdA in GDM patients.

Published

2011

35. Frozen-thawed embryo transfer cycles

Author

William S B, Yeung, Raymond H W, Li, T M, Cheung, Ernest H Y, Ng, Estella Y L, Lau, and P C, Ho

Subjects

Adult, Cryopreservation, Blastomeres, Pregnancy Rate, Pregnancy, Humans, Female, Pregnancy, Multiple, Embryo Transfer, Maternal Age, Retrospective Studies

Abstract

To review the outcomes of frozen-thawed embryo transfer cycles. DESIGN. Retrospective review.Tertiary assisted reproduction centre, Hong Kong.Subfertile patients undergoing frozen-thawed embryo transfer between July 2005 and December 2007.Clinical and ongoing pregnancy rates.A total of 983 frozen-thawed embryo transfer cycles performed during the study period were reviewed. The clinical pregnancy and ongoing pregnancy rates were 35% and 30%, respectively. Factors associated with successful outcome included younger maternal age (=35 years) and 4 or more blastomeres at replacement, but not the method of insemination, the cause of subfertility, or the type of frozen-thawed embryo transfer cycle. The overall multiple pregnancy rate was 18%. For cycles with a single embryo replaced, embryos having 4-cell or higher stages at replacement gave an ongoing pregnancy rate of 25%, whereas those with less than 4 cells had a significantly lower ongoing pregnancy rate of 5% only. Blastomere lysis after thawing significantly reduced the clinical pregnancy and ongoing pregnancy rates of cycles with one embryo replaced.Clinical pregnancy and ongoing pregnancy rates of frozen-thawed embryo transfer cycles were 35% and 30%, respectively. Higher pregnancy rates were associated with younger maternal age (=35 years), blastomere numbers of 4 or more, and no blastomere lysis after thawing.

Published

2009

36. N-linked glycoprotein analysis using dual-extraction ultrahigh-performance liquid chromatography and electrospray tandem mass spectrometry

Author

S O, Siu, Maggie P Y, Lam, Edward, Lau, William S B, Yeung, David M, Cox, and Ivan K, Chu

Subjects

Proteomics, Spectrometry, Mass, Electrospray Ionization, Proteome, Glycopeptides, Mass Spectrometry, Ribonucleases, Polysaccharides, Solvents, Animals, Cattle, Trypsin, Chromatography, High Pressure Liquid, Horseradish Peroxidase, Serum Albumin, Glycoproteins

Abstract

Although reverse-phase liquid chromatography (RP-LC) is a common technique for peptide separation in shotgun proteomics and glycoproteomics, it often provides unsatisfactory results for the analysis of glycopeptides and glycans. This bias against glycopeptides makes it difficult to study glycoproteins. By coupling mass spectrometry (MS) with a combination of RP-LC and normal-phase (NP)-LC as an integrated front-end separation system, we demonstrate that effective identification and characterization of both peptides and glycopeptides mixtures, and their constituent glycan structures, can be achieved from a single sample injection event.

Published

2009

37. Oviductal microsomal epoxide hydrolase (EPHX1) reduces reactive oxygen species (ROS) level and enhances preimplantation mouse embryo development

Author

Ana W Y, Cheong, Yin-Lau, Lee, Wei-Min, Liu, William S B, Yeung, and Kai-Fai, Lee

Subjects

Epoxide Hydrolases, Male, Mice, Inbred BALB C, Mice, Inbred ICR, Embryonic Development, Mice, Oxidative Stress, Pregnancy, Cyclohexenes, Animals, Humans, Female, Enzyme Inhibitors, RNA, Small Interfering, Reactive Oxygen Species, Cells, Cultured, Fallopian Tubes

Abstract

Somatic cell-embryo coculture enhances embryo development in vitro by producing embryotrophic factor(s) and/or removing harmful substances from the culture environment. Yet, the underlying molecular mechanisms on how somatic cells remove the toxicants from the culture medium remain largely unknown. By using suppression subtractive hybridization, we identified a number of mouse oviductal genes that were up-regulated when developing preimplantation embryos were present in the oviduct. Epoxide hydrolase 1, microsomal (Ephx1 previously known as mEH) was one of these genes. EPHX1 detoxifies genotoxic compounds and participates in the removal of reactive oxygen species (ROS). The transcript of Ephx1 increases in the oviductal epithelium at the estrus stage and in Day 3 of pregnancy as well as in the uterus of ovariectomized mice injected with estrogen or progesterone. Human oviductal epithelial cells OE-E6/E7 express EPHX1 and improve mouse embryo development in vitro. Addition of an EPHX1 inhibitor, cyclohexene oxide (CHO) or 1,1,1-trichloropropene 2,3-oxide (TCPO), to the culture medium increased intracellular and extracellular ROS levels of OE-E6/E7 cells and suppressed the beneficial effect of the cells on embryo development; CHO and TCPO at these concentrations had no adverse effect on OE-E6/E7 growth and embryo development in vitro. Taken together, EPHX1 in oviductal cells may enhance the development of cocultured embryos by protecting them from oxidative stress. Our result supports the notion that somatic cell coculture may enhance embryo development via removal of deleterious substances in the culture medium.

Published

2009

38. Chromosomal anomalies and Y-microdeletions among Chinese subfertile men in Hong Kong

Author

Paulina P Y, Ng, Mary H Y, Tang, Elizabeth T, Lau, Lucy K L, Ng, Ernest H Y, Ng, P C, Tam, William S B, Yeung, and P C, Ho

Subjects

Male, Chromosomes, Human, Y, Databases, Factual, Sperm Count, Karyotyping, Prevalence, Hong Kong, Humans, Chromosome Deletion, Ambulatory Care Facilities, Infertility, Male, Sex Chromosome Aberrations, Retrospective Studies

Abstract

To report the type and frequency of chromosomal anomalies and Y-microdeletions among Hong Kong Chinese subfertile men with sperm concentrations lower than 5 million/mL. DESIGN. Retrospective study.A reproductive centre in Hong Kong.A total of 295 Chinese subfertile men who underwent both karyotyping and Y-microdeletion studies from 2000 to 2007 were categorised as having non-obstructive azoospermia (n=71), very severe oligospermia (sperm concentration0 andor=2 million/mL, n=158), and severe oligospermia (sperm concentration2 and5 million/mL, n=66).Karyotyping and Y-microdeletion studies.The prevalence of chromosomal anomalies and Y-microdeletions in the study population were 8.5% (25/295; 95% confidence interval, 5.6-12.3%) and 6.4% (19/295; 3.9-9.9%), respectively. The total prevalence of chromosomal anomalies and Y-microdeletions was 13.2% (39/295; 95% confidence interval, 9.6-17.6%) as five cases of non-obstructive azoospermia showed both Y structural alterations and AZFbc deletion. The corresponding figures for chromosomal anomalies in the groups with non-obstructive azoospermia, very severe oligospermia, and severe oligospermia were 21.1% (15/71; 95% confidence interval, 12.3-32.4%), 5.7% (9/158; 2.6-10.5%), and 1.5% (1/66; 0.0-8.2%). While for Y-microdeletions they were 8.5% (6/71; 3.2-17.5%), 8.2% (13/158; 4.5-13.7%) and 0% (0/66; 0.0-4.4%), respectively. The respective overall prevalence rates for chromosomal anomalies and Y-microdeletions in these groups were: 22.5% (16/71; 13.5-34.0%), 13.9% (22/158; 8.9-20.3%), and 1.5% (1/66; 0.0-8.2%).Our findings strongly support the recommendation for both karyotyping and Y-microdeletion analyses in subfertile men with sperm concentrations of 2 million/mL or lower before they undergo assisted reproduction treatment.

Published

2009

39. [Not Available]

Author

Markku, Seppälä, Hannu, Koistinen, Riitta, Koistinen, Philip C N, Chiu, and William S B, Yeung

Published

2007

40. Hormonal regulation of Galphai2 and mPRalpha in immortalized human oviductal cell line OE-E6/E7

Author

Kati S, Mönkkönen, Reza, Aflatoonian, Kai-Fai, Lee, William S B, Yeung, Sai-Wah, Tsao, Jarmo T, Laitinen, and Alireza, Fazeli

Subjects

Estradiol, Gene Expression Regulation, Reverse Transcriptase Polymerase Chain Reaction, Blotting, Western, Humans, Female, GTP-Binding Protein alpha Subunit, Gi2, Receptors, Progesterone, Fallopian Tubes, Progesterone, Cell Line, Receptors, G-Protein-Coupled

Abstract

Heterotrimeric G proteins play a key role in membrane-mediated cell-signalling and hormonal regulation. Our earlier studies gave evidence of G protein subunit Galpha(i2) being under hormonal regulation in human in vivo. In this study, we used immortalized human oviduct epithelial cell line OE-E6/E7 as a model to study the hormonal regulation of Galpha(i2). We aimed at clarifying whether estradiol or progesterone could individually regulate the expression of Galpha(i2) and its potential signalling partners. Furthermore, we aimed to investigate which sex hormone receptors could potentially mediate the gene regulation in OE-E6/E7 cell line. OE-E6/E7 cells were cultured for 5 days with different concentrations of estradiol or progesterone. Quantitative real-time polymerase chain reaction (Q-PCR) was performed using cDNA of the hormone-treated cells to reveal any changes in gene expression. The presence of potential receptor targets in these cells was studied using PCR. Our data clearly showed that low concentrations of estradiol up-regulated the expression of Galpha(i2) gene and down-regulated the expression of membrane progesterone receptor mPRalpha gene in OE-E6/E7 cell line. Progesterone had no significant effect on Galpha(i2) gene expression, but it caused up-regulation of mPRalpha gene expression. In conclusion, it appears that sex hormones regulate the expression of Galpha(i2) and mPRalpha genes in a reverse manner in OE-E6/E7 cells. Our results suggest that estrogen receptor ERbeta mediates the regulatory effects of estradiol in these cells.

Published

2007

41. Glycodelin: a molecule with multi-functions on spermatozoa

Author

William S B, Yeung, Kai-Fai, Lee, Riitta, Koistinen, Hannu, Koistinen, Markku, Seppala, P C, Ho, and Philip C N, Chiu

Subjects

Male, Sperm-Ovum Interactions, Glycodelin, Semen, Humans, Protein Isoforms, Female, Pregnancy Proteins, Spermatozoa, Fallopian Tubes, Follicular Fluid, Glycoproteins

Abstract

Glycodelin is a glycoprotein with three isoforms, namely glycodelin-S, glycodelin-A and glycodelin-F. They have similar protein core but different glycan side chains. Spermatozoa are exposed to these isoforms during their passage to the fertilization site. They first encounter glycodelin-S in the seminal plasma. Data suggest that glycodelin-S suppresses albumin-induced cholesterol loss and maintains the spermatozoa in an uncapacitated state before they enter into the cervical canal where glycodelin-S is removed. This allows albumin in the uterine cavity to initiate capacitation. In the fallopian tube, the spermatozoa are exposed to glycodelin-A and -F produced by the fallopian tube. Glycodelin-A is an endogenous glycoprotein that inhibits the binding of spermatozoa to the zona pellucida. Glycodelin-A may protect the spermatozoa from maternal immune attack by its immunosuppressive activity. Glycodelin-F is the main glycodelin isoform in the follicular fluid. Similar to glycodelin-A, it inhibits spermatozoa-zona pellucida binding. The biological significance of the anti-fertilization activity of glycodelin-A and -F remains to be established. Glycodelin-F also suppresses progesterone-induced acrosome reaction. This is important to prevent premature acrosome reaction when the spermatozoa are swimming through the cumulus mass towards the oocyte and become exposed to progesterone produced by the cumulus cells. In summary, different isoforms of glycodelin act in succession to modulate different aspects of sperm function, and thereby, contribute to the success of fertilization.

Published

2007

42. Experience in preimplantation genetic diagnosis for exclusion of homozygous alpha degrees thalassemia

Author

Vivian, Chan, Ernest H Y, Ng, Irene, Yam, William S B, Yeung, P C, Ho, and T K, Chan

Subjects

Blastomeres, Reproductive Techniques, Assisted, alpha-Thalassemia, Pregnancy, Homozygote, Mutation, Pregnancy Outcome, Humans, Female, Polymerase Chain Reaction, Alleles, Preimplantation Diagnosis

Abstract

To report our experience in preimplantation genetic diagnosis (PGD) for the exclusion of homozygous alpha degrees thalassemia.PGD was performed on nine couples with alpha degrees thalassemia genotype undergoing assisted reproduction. Oocytes were aspirated after ovarian stimulation and fertilized by intracytoplasmic sperm injection. One or two blastomeres were biopsied from the six- to eight-cell embryo. Single cell multiplex PCR of the normal and alpha degrees thalassemia alleles was performed for first round, followed by semi-nested PCR of the respective alleles using 5'-end labelled fluorescent primers. Only those embryos with a blastomere diagnosed as having at least one normal allele were selected for transfer.One hundred and twenty-six blastomeres from 82 embryos were analyzed. The rates of allele dropout was 10.2% and PCR failure 12.7%. Fifty-eight embryos (70.7%) had at least one normal allele, of which 31 were transferred to 13 prepared cycles and one triplet pregnancy achieved. The triplets showed no ultrasound features of homozygous alpha degrees thalassemia at 18 weeks and were delivered in healthy condition by caesarean section at 34 weeks. Their genotypes were confirmed by cord blood analysis.PGD for alpha degrees thalassemia is possible by single cell PCR. The transfer and successful implantation of unaffected embryos ensure birth of disease-free babies.

Published

2006

43. Different testicular gene expression patterns in the first spermatogenic cycle of postnatal and vitamin A-deficient rat testis

Author

Kai-Fai, Lee, William S B, Yeung, Judy F C, Chow, Cathy K, Shum, and John M, Luk

Subjects

Male, Reverse Transcriptase Polymerase Chain Reaction, Vitamin A Deficiency, Gene Expression Profiling, Gene Expression, Rats, Rats, Sprague-Dawley, Animals, Newborn, Testis, Animals, RNA, Messenger, Spermatogenesis, Vitamin A, Oligonucleotide Array Sequence Analysis

Abstract

Spermatogenesis is a complicated process of germ cell differentiation, involving programmatic expression of diverse cell type- and developmental stage-specific genes. To date, the vitamin-A-deficiency (VAD) rats and postnatal rats are two models commonly used to study spermatogenesis. In the present study, we studied the expression of 1185 known genes in the vitamin-A-deficient and retinol-reinitiated spermatogenesis of rat testis using Clontech Atlas rat cDNA expression arrays. The mRNA expression patterns of post-vitamin-A (PVA) testis on Days 15 and 35 were compared with those of the spermatogenic arrested rat testis on Day 0. About 9% (110/1185) of the genes studied were highly expressed. When compared with VAD rat testis on Day 0, 20 and 31 genes were differentially expressed by a factor of twofold or greater on Days 15 and 35, respectively. Four genes (cytochrome P450 17, sulfated glycoprotein 2, protein kinase inhibitor, and cathepsin L) that play important roles in spermatogenesis were selected and their gene expression patterns were confirmed by semiquantitative reverse transcription-polymerase chain reaction. Comparison of the expression patterns of these genes between PVA-VAD and postnatal rat testis in developmentally matched stages revealed substantial differences during the early stages of spermatogenesis. This discrepancy could be caused by either the presence of arrested but mature somatic cells in the PVA-VAD testis that may contribute to a unique gene expression pattern in this model or the direct effect of retinol on spermatogenesis. Therefore, caution is needed in interpreting the gene expression data using the PVA-VAD and postnatal rat models in studying spermatogenesis in rat testes.

Published

2003

44. Differences in glycosylation and sperm-egg binding inhibition of pregnancy-related glycodelin

Author

Hannu, Koistinen, Richard L, Easton, Philip C N, Chiu, Sara, Chalabi, Mervi, Halttunen, Anne, Dell, Howard R, Morris, William S B, Yeung, Markku, Seppala, and Riitta, Koistinen

Subjects

Adult, Immunoassay, Sperm-Ovum Interactions, Silver Staining, Glycosylation, Blotting, Western, Pregnancy Proteins, Spectrometry, Mass, Fast Atom Bombardment, Glycodelin, Polysaccharides, Pregnancy, Lectins, Humans, Electrophoresis, Polyacrylamide Gel, Female, Isoelectric Focusing, Glycoproteins

Abstract

Glycodelin is a glycoprotein produced in many glands, particularly those of reproductive tissues. It appears as different glycoforms in amniotic fluid (glycodelin-A) and seminal plasma (glycodelin-S), but only glycodelin-A inhibits gamete adhesion. In the present study, glycodelin from secretory-phase endometrium, first-trimester pregnancy decidua, and midtrimester amniotic fluid was studied with respect to physicochemical properties, including glycosylation patterns and inhibitory activity of sperm-egg binding. Purified glycodelins from all these sources were similar in isoelectric focusing and in lectin immunoassays using lectins from Wisteria floribunda and Sambucus nigra. Likewise, the glycodelins inhibited sperm-egg binding in a dose-dependent manner, as measured by hemizona-binding assay. However, subtle quantitative physicochemical and biological differences were found between glycodelins from different sources as well as within the same tissue/fluid between different individuals. Differences were most pronounced between endometrial glycodelins from nonpregnancy and first-trimester pregnancy. The glycan structures studied by fast-atom bombardment mass spectrometry of individual amniotic fluid glycodelin-A samples also showed interindividual quantitative differences. In conclusion, glycodelins from different female reproductive tract tissues and amniotic fluid share substantial similarity, allowing all of them to be called glycodelin-A. However, these glycodelins exhibit quantitative physicochemical and functional differences between different sources and individuals.

Published

2003

45. Polymer-based precipitation preserves biological activities of extracellular vesicles from an endometrial cell line.

Author

Ziru Niu, Ronald T K Pang, Weimin Liu, Qian Li, Ranran Cheng, and William S B Yeung

Subjects

Medicine, Science

Abstract

Extracellular vesicles (EVs) are membrane-bound vesicles released by cells and act as media for transfer of proteins, small RNAs and mRNAs to distant sites. They can be isolated by different methods. However, the biological activities of the purified EVs have seldom been studied. In this study, we compared the use of ultracentrifugation (UC), ultra-filtration (UF), polymer-based precipitation (PBP), and PBP with size-based purification (PBP+SP) for isolation of EVs from human endometrial cells and mouse uterine luminal fluid (ULF). Electron microscopy revealed that the diameters of the isolated EVs were similar among the tested methods. UF recovered the highest number of EVs followed by PBP, while UC and PBP+SP were significantly less efficient (P

Published

2017

46. Annexin A2 Acts as an Adhesion Molecule on the Endometrial Epithelium during Implantation in Mice.

Author

Bing Wang, Tian-Min Ye, Kai-Fai Lee, Philip C N Chiu, Ronald T K Pang, Ernest H Y Ng, and William S B Yeung

Subjects

Medicine, Science

Abstract

To determine the function of Annexin A2 (Axna2) in mouse embryo implantation in vivo, experimental manipulation of Axna2 activities was performed in mouse endometrial tissue in vivo and in vitro. Histological examination of endometrial tissues was performed throughout the reproduction cycle and after steroid treatment. Embryo implantation was determined after blockage of the Axna2 activities by siRNA or anti-Axna2 antibody. The expression of Axna2 immunoreactivies in the endometrial luminal epithelium changed cyclically in the estrus cycle and was upregulated by estrogen. After nidatory estrogen surge, there was a concentration of Axna2 immunoreactivities at the interface between the implanting embryo and the luminal epithelium. The phenomenon was likely to be induced by the implanting embryos as no such concentration of signal was observed in the inter-implantation sites and in pseudopregnancy. Knockdown of Axna2 by siRNA reduced attachment of mouse blastocysts onto endometrial tissues in vitro. Consistently, the number of implantation sites was significantly reduced after infusion of anti-Axna2 antibody into the uterine cavity. Steroids and embryos modulate the expression of Axna2 in the endometrial epithelium. Axna2 may function as an adhesion molecule during embryo implantation in mice.

Published

2015

47. Soluble human leukocyte antigen-g5 activates extracellular signal-regulated protein kinase signaling and stimulates trophoblast invasion.

Author

YiFan Guo, Cheuk-Lun Lee, Kam-Hei So, Jing Gao, William S B Yeung, YuanQing Yao, and Kai-Fai Lee

Subjects

Medicine, Science

Abstract

Soluble human leukocyte antigen-G (HLA-G) is a non-classical class Ib HLA molecule that is secreted from blastocysts. Soluble HLA-G modulates the immune tolerance of the mother and can be used as a prognostic factor for the clinical pregnancy rate. However, the underlying mechanism of how soluble HLA-G5 affects pregnancy remains largely unknown. We hypothesized that soluble HLA-G5 promotes successful implantation and pregnancy by modulating trophoblast invasion through receptor binding and activation of extracellular signal-regulated protein kinase (ERK) signaling pathway. Recombinant HLA-G5 protein over-expressed in E. coli BL21 was purified to near homogeneity. We studied the expression of HLA-G5 and its receptors, the leukocyte immunoglobulin-like receptor subfamily B1 (LILRB1) and killer cell immunoglobulin-like receptor 2DL4 (KIR2DL4), in primary trophoblasts and trophoblastic (JAr and JEG-3) cell lines by florescence-labeled HLA-G5. HLA-G5 was detected in the primary trophoblasts and JEG-3 cells. The LILRB1 and KIR2DL4 receptors were expressed in both primary trophoblasts and trophoblastic cell lines. HLA-G5 stimulated cell invasion (p

Published

2013

48. Involvement of microRNA lethal-7a in the regulation of embryo implantation in mice.

Author

Wei-Min Liu, Ronald T K Pang, Ana W Y Cheong, Ernest H Y Ng, Kaiqin Lao, Kai-Fai Lee, and William S B Yeung

Subjects

Medicine, Science

Abstract

MicroRNAs interact with multiple mRNAs resulting in their degradation and/or translational repression. This report used the delayed implantation model to determine the role of miRNAs in blastocysts. Dormant blastocysts in delayed implanting mice were activated by estradiol. Differential expression of 45 out of 238 miRNAs examined was found between the dormant and the activated blastocysts. Five of the nine members of the microRNA lethal-7 (let-7) family were down-regulated after activation. Human blastocysts also had a low expression of let-7 family. Forced-expression of a family member, let-7a in mouse blastocysts decreased the number of implantation sites (let-7a: 1.1±0.4; control: 3.8±0.4) in vivo, and reduced the percentages of blastocyst that attached (let-7a: 42.0±8.3%; control: 79.0±5.1%) and spreaded (let-7a: 33.5±2.9%; control: 67.3±3.8%) on fibronectin in vitro. Integrin-β3, a known implantation-related molecule, was demonstrated to be a target of let-7a by 3'-untranslated region reporter assay in cervical cancer cells HeLa, and Western blotting in mouse blastocysts. The inhibitory effect of forced-expression of let-7a on blastocyst attachment and outgrowth was partially nullified in vitro and in vivo by forced-expression of integrin-β3. This study provides the first direct evidence that let-7a is involved in regulating the implantation process partly via modulation of the expression of integrin-β3.

Published

2012

49. Sirtuin 1 facilitates generation of induced pluripotent stem cells from mouse embryonic fibroblasts through the miR-34a and p53 pathways.

Author

Yin Lau Lee, Qian Peng, Sze Wan Fong, Andy C H Chen, Kai Fai Lee, Ernest H Y Ng, Andras Nagy, and William S B Yeung

Subjects

Medicine, Science

Abstract

Forced-expression of transcription factors can reprogram somatic cells into induced pluripotent stem cells (iPSC). Recent studies show that the reprogramming efficiency can be improved by inclusion of small molecules that regulate chromatin modifying enzymes. We report here that sirtuin 1 (SIRT1), a member of the sirtuin family of NAD(+)-dependent protein deacetylases, is involved in iPSC formation. By using an efficient mouse secondary fibroblast reprogramming system with doxycycline (DOX) inducible Yamanaka's transcription factors delivered by piggyBac (PB) transposition (2°F/1B MEF), we show that SIRT1 knockdown decreased while resveratrol (RSV) increased the efficiency of iPSC formation. The treatments were associated with altered acetylated p53 and its downstream Nanog but not p21 expression. The stimulatory effect was also confirmed by SIRT1 over-expression, which stimulated the formation of colonies with induced Nanog and reduced p21 expression. Furthermore, the effects of RSV and SIRT1 knockdown on reprogramming were most pronounced during the initiation phase of reprogramming. MicroRNA-34a is a known regulator of SIRT1. Its inhibitor increased, while its mimics reduced iPSC formation. The stimulatory effect of SIRT1 during reprogramming was also confirmed in the primary MEF. RSV increased while tenovin-6, a small molecule that activates p53 through SIRT1 inhibition, suppressed reprogramming. In conclusion, SIRT1 enhances iPSC generation, in part, through deacetylation of p53, inhibition of p21 and enhancement of Nanog expression.

Published

2012

50. miR-135A regulates preimplantation embryo development through down-regulation of E3 Ubiquitin Ligase Seven In Absentia Homolog 1A (SIAH1A) expression.

Author

Ronald T K Pang, Wei-Min Liu, Carmen O N Leung, Tian-Min Ye, Peter C K Kwan, Kai-Fai Lee, and William S B Yeung

Subjects

Medicine, Science

Abstract

MicroRNAs (miRNAs) are small non-coding RNA molecules capable of regulating transcription and translation. Previously, a cluster of miRNAs that are specifically expressed in mouse zygotes but not in oocytes or other preimplantation stages embryos are identified by multiplex real-time polymerase chain reaction-based miRNA profiling. The functional role of one of these zygote-specific miRNAs, miR-135a, in preimplantation embryo development was investigated.Microinjection of miR-135a inhibitor suppressed first cell cleavage in more than 30% of the zygotes. Bioinformatics analysis identified E3 Ubiquitin Ligase Seven In Absentia Homolog 1A (Siah1a) as a predicted target of miR-135a. Western blotting and 3'UTR luciferase functional assays demonstrated that miR-135a down-regulated the expression of Siah1 in HeLa cells and in mouse zygotes. Siah1a was expressed in preimplantation embryos and its expression pattern negatively correlated with that of miR-135a. Co-injection of Siah1a-specific antibody with miR-135a inhibitor partially nullified the effect of miR-135a inhibition. Proteasome inhibition by MG-132 revealed that miR-135a regulated proteasomal degradation and potentially controlled the expression of chemokinesin DNA binding protein (Kid).The present study demonstrated for the first time that zygotic specific miRNA modulates the first cell cleavage through regulating expression of Siah1a.

Published

2011