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3. Textsorten und Textsortenbestimmung in der qualitativen Interviewforschung: ein methodologisches Update.

Author

Eckert, Judith, Houben, Malin, and Ullrich, Carsten G.

Abstract

Copyright of Forum: Qualitative Social Research / Qualitative Sozialforschung is the property of Forum Qualitative Social Research and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2024
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16. Relative contribution of cell contact pattern, specific PKC isoforms and gap junctional communication in tight junction assembly in the mouse early embryo

Author

Eckert, Judith J., McCallum, Amanda, Mears, Andrew, Rumsby, Martin G., Cameron, Iain T., and Fleming, Tom P.

Subjects
Embryo -- Analysis, Protein kinases -- Analysis, Biosynthesis -- Analysis, Embryonic development -- Analysis, Proteins -- Analysis, Biological sciences
Abstract

To link to full-text access for this article, visit this link: http://dx.doi.org/10.1016/j.ydbio.2005.09.037 Byline: Judith J. Eckert (a)(b), Amanda McCallum (a), Andrew Mears (a), Martin G. Rumsby (c), Iain T. Cameron (b), Tom P. Fleming (a) Keywords: Protein kinase C; Mouse embryo; Trophectoderm; Tight junction; ZO-1; Cell contact pattern; Inner cell mass; ZO-2 Abstract: In mouse early development, cell contact patterns regulate the spatial organization and segregation of inner cell mass (ICM) and trophectoderm epithelium (TE) during blastocyst morphogenesis. Progressive membrane assembly of tight junctional (TJ) proteins in the differentiating TE during cleavage is upregulated by cell contact asymmetry (outside position) and suppressed within the ICM by cell contact symmetry (inside position). This is reversible, and immunosurgical isolation of the ICM induces upregulation of TJ assembly in a sequence that broadly mimics that occurring during blastocyst formation. The mechanism relating cell contact pattern and TJ assembly was investigated in the ICM model with respect to PKC-mediated signaling and gap junctional communication. Our results indicate that complete cell contact asymmetry is required for TJ biogenesis and acts upstream of PKC-mediated signaling. Specific inhibition of two PKC isoforms, PKC[delta] and I[paragraph], revealed that both PKC activities are required for membrane assembly of ZO-2 TJ protein, while only PKCI[paragraph] activity is involved in regulating ZO-1[alpha]+ membrane assembly, suggesting different mechanisms for individual TJ proteins. Gap junctional communication had no apparent influence on either TJ formation or PKC signaling but was itself affected by changes of cell contact patterns. Our data suggest that the dynamics of cell contact patterns coordinate the spatial organization of TJ formation via specific PKC signaling pathways during blastocyst biogenesis. Author Affiliation: (a) University of Southampton, School of Biological Sciences, Bassett Crescent East, Southampton, SO16 7PX, UK (b) University of Southampton, Developmental Origins of Health and Disease Division, School of Medicine, Coxford Road, Southampton, SO16 5YA, UK (c) University of York, Department of Biology, York, YO1 5DD, UK Article History: Received 19 May 2005; Revised 1 September 2005; Accepted 22 September 2005

Published
2005

17. Specific PKC isoforms regulate blastocoel formation during mouse preimplantation development

Author

Eckert, Judith J., McCallum, Amanda, Mears, Andrew, Rumsby, Martin G., Cameron, Iain T., and Fleming, Tom P.

Subjects
Morphogenesis -- Research, Developmental biology -- Research, Biological sciences
Abstract

During early mammalian development, blastocyst morphogenesis is achieved by epithelial differentiation of trophectoderm (TE) and its segregation from the inner cell mass (ICM). Two major interrelated features of TE differentiation required for blastocoel formation include intercellular junction biogenesis and a directed ion transport system, mediated by [Na.sup.+]/[K.sup.+] ATPase. We have examined the relative contribution of intercellular signalling mediated by protein kinase C (PKC) and gap junctional communication in TE differentiation and blastocyst cavitation. The distribution pattern of four ([delta], [theta], [iota]/[lambda], [zeta]) PKC isoforms and PKC[micro]/PKD1 showed partial colocalisation with the tight junction marker ZO-1[alpha]+ in TE and all four PKCs ([delta], [theta], [iota]/[lambda], [zeta]) showed distinct TE/ICM staining patterns (predominantly at the cell membrane within the TE and cytoplasmic within the ICM), indicating their potential contribution to TE differentiation and blastocyst morphogenesis. Specific inhibition of PKC[delta] and [zeta] activity significantly delayed blastocyst formation. Although modulation of these PKC isoforms failed to influence the already established programme of epithelial junctional differentiation within the TE, [Na.sup.+]/[K.sup.+] ATPase [alpha]1 submit was internalised from membrane to cytoplasm. Inhibition of gap junctional communication, in contrast, had no influence on any of these processes. Our results demonstrate for the first time that distinct PKC isotypes contribute to the regulation of cavitation in preimplantation embryos via target proteins including [Na.sup.+]/[K.sup.+] ATPase. Keywords: Protein kinase C; Mouse embryo; Blastocyst; Trophectoderm; Inner cell mass; Tight junction; ZO-1; [Na.sup.+]/[K.sup.+] ATPase; Cavitation

Published
2004

18. Die Arbeit mit archivierten Interviewdaten in einem methodologischen Sekundärforschungsprojekt: Reflexionen zur Archivierung qualitativer Forschungsdaten.

Author

Houben, Malin and Eckert, Judith

Abstract

Copyright of Forum: Qualitative Social Research / Qualitative Sozialforschung is the property of Forum Qualitative Social Research and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2022

21. Blastocyst trophectoderm endocytic activation, a marker of adverse developmental programming.

Author

Caetano, Laura, Eckert, Judith J., Johnston, David, Chatelet, David S., Tumbarello, David A., Smyth, Neil R., Ingamells, Sue, Price, Anthony, and Fleming, Tom P.

Subjects
BLASTOCYST, LOW-protein diet, RESPONSE inhibition, CELL size, NUTRITIONAL status
Abstract

The mouse preimplantation embryo is sensitive to its environment, including maternal dietary protein restriction, which can alter the developmental programme and affect lifetime health. Previously, we have shown maternal low-protein diet (LPD) causes a reduction in blastocyst mTORC1 signalling coinciding with reduced availability of branched-chain amino acids (BCAAs) in surrounding uterine fluid. BCAA deficiency leads to increased endocytosis and lysosome biogenesis in blastocyst trophectoderm (TE), a response to promote compensatory histotrophic nutrition. Here, we first investigated the induction mechanism by individual variation in BCAA deficiency in an in vitro quantitative model of TE responsiveness. We found isoleucine (ILE) deficiency as the most effective activator of TE endocytosis and lysosome biogenesis, with less potent roles for other BCAAs and insulin; cell volume was also influential. TE response to low ILE included upregulation of vesicles comprising megalin receptor and cathepsin-B, and the response was activated from blastocyst formation. Secondly, we identified the transcription factor TFEB as mediating the histotrophic response by translocation from cytoplasm to nucleus during ILE deficiency and in response to mTORC1 inhibition. Lastly, we investigated whether a similar mechanism responsive to maternal nutritional status was found in human blastocysts. Blastocysts from women with high body-mass index, but not the method of fertilisation, revealed stimulated lysosome biogenesis and TFEB nuclear migration. We propose TE lysosomal phenotype as an early biomarker of environmental nutrient stress that may associate with long-term health outcomes. [ABSTRACT FROM AUTHOR]

Published
2021
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22. Periconception maternal low-protein diet adversely affects male mouse fetal bone growth and mineral density quality in late gestation.

Author

Lanham, Stuart A., Smith, Stephanie J., Watkins, Adam J., Lucas, Emma S., MacCaoilte, Niamh, Oreffo, Richard O.C., Fleming, Tom P., and Eckert, Judith J.

Abstract

Adverse programming of adult non-communicable disease can be induced by poor maternal nutrition during pregnancy and the periconception period has been identified as a vulnerable period. In the current study, we used a mouse maternal low-protein diet fed either for the duration of pregnancy (LPD) or exclusively during the preimplantation period (Emb-LPD) with control nutrition provided thereafter and postnatally to investigate effects on fetal bone development and quality. This model has been shown previously to induce cardiometabolic and neurological disease phenotypes in offspring. Micro 3D computed tomography examination at fetal stages Embryonic day E14.5 and E17.4, reflecting early and late stages of bone formation, demonstrated LPD treatment caused increased bone formation of relative high mineral density quality in males, but not females, at E14.5, disproportionate to fetal growth, with bone quality maintained at E17.5. In contrast, Emb-LPD caused a late increase in male fetal bone growth, proportionate to fetal growth, at E17.5, affecting central and peripheral skeleton and of reduced mineral density quality relative to controls. These altered dynamics in bone growth coincide with increased placental efficiency indicating compensatory responses to dietary treatments. Overall, our data show fetal bone formation and mineral quality is dependent upon maternal nutritional protein content and is sex-specific. In particular, we find the duration and timing of poor maternal diet to be critical in the outcomes with periconceptional protein restriction leading to male offspring with increased bone growth but of poor mineral density, thereby susceptible to later disease risk. [ABSTRACT FROM AUTHOR]

Published
2021
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23. Was geschieht da eigentlich in Interviews? Ethnomethodologisch inspirierte Forschung zur qualitativen Interviewforschung.

Author

Eckert, Judith

Abstract

Copyright of Forum: Qualitative Social Research / Qualitative Sozialforschung is the property of Forum Qualitative Social Research and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2021
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24. Single-cell duplex RT-LATE-PCR reveals Oct4 and Xist RNA gradients in 8-cell embryos

Author

Hartung Odelya, Eckert Judith J, Hartshorn Cristina, and Wangh Lawrence J

Subjects
Biotechnology, TP248.13-248.65
Abstract

Abstract Background The formation of two distinctive cell lineages in preimplantation mouse embryos is characterized by differential gene expression. The cells of the inner cell mass are pluripotent and express high levels of Oct4 mRNA, which is down-regulated in the surrounding trophectoderm. In contrast, the trophectoderm of female embryos contains Xist mRNA, which is absent from cells of the inner mass. Prior to blastocyst formation, all blastomeres of female embryos still express both of these RNAs. We, thus, postulated that simultaneous quantification of Oct4 and Xist transcripts in individual blastomeres at the 8-cell stage could be informative as to their subsequent fate. Testing this hypothesis, however, presented numerous technical challenges. We overcame these difficulties by combining PurAmp, a single-tube method for RNA preparation and quantification, with LATE-PCR, an advanced form of asymmetric PCR. Results We constructed a duplex RT-LATE-PCR assay for real-time measurement of Oct4 and Xist templates and confirmed its specificity and quantitative accuracy with different methods. We then undertook analysis of sets of blastomeres isolated from embryos at the 8-cell stage. At this stage, all cells in the embryo are still pluripotent and morphologically equivalent. Our results demonstrate, however, that both Oct4 and Xist RNA levels vary in individual blastomeres comprising the same embryo, with some cells having particularly elevated levels of either transcript. Analysis of multiple embryos also shows that Xist and Oct4 expression levels are not correlated at the 8-cell stage, although transcription of both genes is up-regulated at this time in development. In addition, comparison of data from males and females allowed us to determine that the efficiency of the Oct4/Xist assay is unaffected by sex-related differences in gene expression. Conclusion This paper describes the first example of multiplex RT-LATE-PCR and its utility, when combined with PurAmp sample preparation, for quantitative analysis of transcript levels in single cells. With this technique, copy numbers of different RNAs can be accurately measured independently from their relative abundance in a cell, a goal that cannot be achieved using symmetric PCR. The technique illustrated in this work is relevant to a wide array of applications, such as stem cell and cancer cell analysis and preimplantation genetic diagnostics.

Published
2007
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25. The duration of embryo culture after mouse IVF differentially affects cardiovascular and metabolic health in male offspring.

Author

Aljahdali, Anan, Airina, R K Raja Ili, Velazquez, Miguel A, Sheth, Bhavwanti, Wallen, Katrina, Osmond, Clive, Watkins, Adam J, Eckert, Judith J, Smyth, Neil R, and Fleming, Tom P

Subjects
LIFE sciences, EMBRYOS, SYSTOLIC blood pressure, GLUCOSE tolerance tests, ANGIOTENSIN converting enzyme, BLASTOCYST, RESEARCH, ANIMAL experimentation, RESEARCH methodology, MEDICAL cooperation, EVALUATION research, EMBRYO transfer, COMPARATIVE studies, RESEARCH funding, FERTILIZATION in vitro, MICE
Abstract

Study Question: Do the long-term health outcomes following IVF differ depending upon the duration of embryo culture before transfer?Summary Answer: Using a mouse model, we demonstrate that in male but not female offspring, adverse cardiovascular (CV) health was more likely with prolonged culture to the blastocyst stage, but metabolic dysfunction was more likely if embryo transfer (ET) occurred at the early cleavage stage.What Is Known Already: ART associate with increased risk of adverse CV and metabolic health in offspring, and these findings have been confirmed in animal models in the absence of parental infertility issues. It is unclear which specific ART treatments may cause these risks. There is increasing use of blastocyst, versus cleavage-stage, transfer in clinical ART which does not appear to impair perinatal health of children born, but the longer-term health implications are unknown.Study Design, Size, Duration: Five mouse groups were generated comprising: (i) natural mating (NM)-naturally mated, non-superovulated and undisturbed gestation; (ii) IV-ET-2Cell-in-vivo derived two-cell embryos collected from superovulated mothers, with immediate ET to recipients; (iii) IVF-ET-2Cell-IVF generated embryos, from oocytes from superovulated mothers, cultured to the two-cell stage before ET to recipients; (iv) IV-ET-BL-in-vivo derived blastocysts collected from superovulated mothers, with immediate ET to recipients; (v) IVF-ET-BL-IVF generated embryos, from oocytes from superovulated mothers, cultured to the blastocyst stage before ET to recipients. Both male and female offspring were analysed for growth, CV and metabolic markers of health. There were 8-13 litters generated for each group for analyses; postnatal data were analysed by multilevel random effects regression to take account of between-mother and within-mother variation and litter size.Participants/materials, Settings, Methods: C57/BL6 female mice (3-4 weeks old) were used for oocyte production; CBA males for sperm with human tubal fluid medium were used for IVF. Embryos were transferred (ET) to MF1 pseudo-pregnant recipients at the two-cell stage or cultured in synthetic oviductal medium enriched with potassium medium to the blastocyst stage before ET. Control in-vivo embryos from C57BL6 × CBA matings were collected and immediately transferred at the two-cell or blastocyst stage. Postnatal assays included growth rate up to 27 weeks; systolic blood pressure (SBP) at 9, 15 and 21 weeks; lung and serum angiotensin-converting enzyme (ACE) activity at time of cull (27 weeks); glucose tolerance test (GTT; 27 weeks); basal glucose and insulin levels (27 weeks); and lipid accumulation in liver cryosections using Oil Red O imaging (27 weeks).Main Results and the Role Of Chance: Blastocysts formed by IVF developed at a slower rate and comprised fewer cells that in-vivo generated blastocysts without culture (P < 0.05). Postnatal growth rate was increased in all four experimental treatments compared with NM group (P < 0.05). SBP, serum and lung ACE and heart/body weight were higher in IVF-ET-BL versus IVF-ET-2Cell males (P < 0.05) and higher than in other treatment groups, with SBP and lung ACE positively correlated (P < 0.05). Glucose handling (GTT AUC) was poorer and basal insulin levels were higher in IVF-ET-2Cell males than in IVF-ET-BL (P < 0.05) with the glucose:insulin ratio more negatively correlated with body weight in IVF-ET-2Cell males than in other groups. Liver/body weight and liver lipid droplet diameter and density in IVF-ET-2Cell males were higher than in IVF-ET-BL males (P < 0.05). IVF groups had poorer health characteristics than their in-vivo control groups, indicating that outcomes were not caused specifically by background techniques (superovulation, ET). No consistent health effects from duration of culture were identified in female offspring.Large Scale Data: N/A.Limitations, Reasons For Caution: Results from experimental animal models cannot be extrapolated to humans. Nevertheless, they are valuable to develop conceptual models, in this case, in the absence of confounding parental infertility, in assessing the safety of ART manipulations.Wider Implications Of the Findings: The study indicates that longer duration of embryo culture after IVF up to blastocyst before ET leads to increased dysfunction of CV health in males compared with IVF and shorter cleavage-stage ET. However, the metabolic health of male offspring was poorer after shorter versus longer culture duration. This distinction indicates that the origin of CV and metabolic health phenotypes after ART may be different. The poorer metabolic health of males after cleavage-stage ET coincides with embryonic genome activation occurring at the time of ET.Study Funding/competing Interest(s): This work was supported through the European Union FP7-CP-FP Epihealth programme (278418) and FP7-PEOPLE-2012-ITN EpiHealthNet programme (317146) to T.P.F., the Biotechnology and Biological Sciences Research Council (BBSRC) (BB/F007450/1) to T.P.F., and the Saudi government, University of Jeddah and King Abdulaziz University to A.A. The authors have no conflicts of interest to declare. [ABSTRACT FROM AUTHOR]

Published
2020
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26. "Shoot! Can We Restart the Interview?": Lessons From Practicing "Uncomfortable Reflexivity".

Author

Eckert, Judith

Subjects
*REFLEXIVITY, *INTERVIEWING, *QUALITATIVE research
Abstract

Failure is a typical experience in research, but it is largely taboo in published studies. In recent years, however, we can observe a small yet growing body of literature on failure in qualitative research to address this gap. In this article, I contribute my experiences of failed interviews in a mixed-methods study in Germany to this body of literature and highlight some aspects of failure that have not yet received enough attention. First, in my example, it was not only one interview or a few interviews that failed; rather, it seemed that the whole study failed in design due to particular methodical decisions. Second, failed research presents an intellectual challenge, but it also produces emotional and social trouble because failed research might be attributed to a failed researcher. This may be one reason failure is so damaging for one's well-being and so difficult to share. Nevertheless, practicing some form of "uncomfortable reflexivity" (Pillow, 2003) via qualitative, close analysis helped me navigate the research process, gain methodical insights and substantive results. Third, I share lessons that might be useful for other researchers: reading literature on failure, the search for a safe and supportive space, and analyzing failure as closely and early as possible. [ABSTRACT FROM AUTHOR]

Published
2020
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27. Über Trennungen erzählen: zur Milieuspezifik von Trennungslegitimationen und narrativen Identitäten.

Author

Eckert, Judith, Bub, Eva-Maria, and Koppetsch, Cornelia

Abstract

Copyright of Forum: Qualitative Social Research / Qualitative Sozialforschung is the property of Forum Qualitative Social Research and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2019

29. Do little embryos make big decisions? How maternal dietary protein restriction can permanently change an embryo's potential, affecting adult health.

Author

Fleming, Tom P., Watkins, Adam J., Sun, Congshan, Velazquez, Miguel A., Smyth, Neil R., and Eckert, Judith J.

Subjects
NUTRITION in pregnancy, LOW-protein diet, EMBRYO implantation, BLASTOCYST, CELLULAR signal transduction, EPIGENETICS, LABORATORY mice, MAMMALS
Abstract

Periconceptional environment may influence embryo development, ultimately affecting adult health. Here, we review the rodent model of maternal low-protein diet specifically during the preimplantation period (Emb-LPD) with normal nutrition during subsequent gestation and postnatally. This model, studied mainly in the mouse, leads to cardiovascular, metabolic and behavioural disease in adult offspring, with females more susceptible. We evaluate the sequence of events from diet administration that may lead to adult disease. Emb-LPD changes maternal serum and/or uterine fluid metabolite composition, notably with reduced insulin and branched-chain amino acids. This is sensed by blastocysts through reduced mammalian target of rapamycin complex 1 signalling. Embryos respond by permanently changing the pattern of development of their extra-embryonic lineages, trophectoderm and primitive endoderm, to enhance maternal nutrient retrieval during subsequent gestation. These compensatory changes include stimulation in proliferation, endocytosis and cellular motility, and epigenetic mechanisms underlying them are being identified. Collectively, these responses act to protect fetal growth and likely contribute to offspring competitive fitness. However, the resulting growth adversely affects long-term health because perinatal weight positively correlates with adult disease risk. We argue that periconception environmental responses reflect developmental plasticity and 'decisions' made by embryos to optimise their own development, but with lasting consequences. Poor maternal nutrition around conception permanently changes embryo development, affecting growth and metabolism into adulthood, increasing chronic disease risk. Evidence suggests preimplantation embryos 'assess' maternal nutrient quality and 'decide' the optimal 'strategy' for emerging extra-embryonic lineages to improve nutrient delivery and protect the competitive fitness of offspring. However, if postnatal nutrition is plentiful, such adaptations promote adult cardiometabolic disease, a legacy from our beginnings, with healthcare implications. [ABSTRACT FROM AUTHOR]

Published
2015
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30. Metabolic Induction and Early Responses of Mouse Blastocyst Developmental Programming following Maternal Low Protein Diet Affecting Life-Long Health.

Author

Eckert, Judith J., Porter, Richard, Watkins, Adam J., Burt, Elizabeth, Brooks, Suzanne, Leese, Henry J., Humpherson, Peter G., Cameron, Iain T., and Fleming, Tom P.

Subjects
*BLASTOCYST, *AMINO acids, *CARDIOVASCULAR diseases, *PROTEINS, *BIOSYNTHESIS, *PROTEOMICS
Abstract

Previously, we have shown that a maternal low protein diet, fed exclusively during the preimplantation period of mouse development (Emb-LPD), is sufficient to induce by the blastocyst stage a compensatory growth phenotype in late gestation and postnatally, correlating with increased risk of adult onset cardiovascular disease and behavioural dysfunction. Here, we examine mechanisms of induction of maternal Emb-LPD programming and early compensatory responses by the embryo. Emb-LPD induced changes in maternal serum metabolites at the time of blastocyst formation (E3.5), notably reduced insulin and increased glucose, together with reduced levels of free amino acids (AAs) including branched chain AAs leucine, isoleucine and valine. Emb-LPD also caused reduction in the branched chain AAs within uterine fluid at the blastocyst stage. These maternal changes coincided with an altered content of blastocyst AAs and reduced mTORC1 signalling within blastocysts evident in reduced phosphorylation of effector S6 ribosomal protein and its ratio to total S6 protein but no change in effector 4E-BP1 phosphorylated and total pools. These changes were accompanied by increased proliferation of blastocyst trophectoderm and total cells and subsequent increased spreading of trophoblast cells in blastocyst outgrowths. We propose that induction of metabolic programming following Emb-LPD is achieved through mTORC1signalling which acts as a sensor for preimplantation embryos to detect maternal nutrient levels via branched chain AAs and/or insulin availability. Moreover, this induction step associates with changes in extra-embryonic trophectoderm behaviour occurring as early compensatory responses leading to later nutrient recovery. [ABSTRACT FROM AUTHOR]

Published
2012
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31. Jedem realen Topf seinen virtuellen Deckel? Virtuelles Re-Enactment als Erklärungsmöglichkeit für ungewöhnliche Spieler-Spiel-Passungen bei Computerspielabhängigen.

Author

Bleckmann, Paula and Eckert, Judith

Abstract

Copyright of BIOS: Zeitschrift für Biographieforschung, Oral History und Lebensverlaufsanalysen is the property of Verlag Barbara Budrich GmbH and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Author-supplied Abstracts.)

Published
2012

32. Adaptive responses of the embryo to maternal diet and consequences for post-implantation development.

Author

Fleming, Tom P., Lucas, Emma S., Watkins, Adam J., and Eckert, Judith J.

Subjects
HUMAN embryo transfer, EMBRYOLOGY, MATERNAL nutrition, DIET in disease, REPRODUCTIVE health, SEMEN analysis, PUBLIC health
Abstract

Maternal periconceptional (PC) nutrition, coupled with maternal physiological condition, can impact on reproductive performance and potential across mammalian species. Oocyte quality and embryo development are affected adversely by either nutrient restriction or excess. Moreover, the quality of maternal PC nutrition can have lasting effects through fetal development and postnatally into adulthood. Chronic disease, notably cardiovascular and metabolic disease, and abnormal behaviour have been identified in adult offspring in small and large animal models of PC nutrient restriction. These long-term effects associate with compensatory responses that begin from the time of early embryo development. This review assesses the field of PC nutrition in vivo on short- and long-term developmental consequences in rodent and ruminant models and considers the implications for human health. [ABSTRACT FROM AUTHOR]

Published
2012
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33. The effect of nutrition and environment on the preimplantation embryo.

Author

Eckert, Judith J and Fleming, Tom P

Subjects
*METABOLISM, *THYROID diseases, *HUMAN in vitro fertilization, *MATERNAL health, *NUTRITION in pregnancy
Abstract

The article discloses the impact of diet and environment on the preimplantation embryo. The embryo can adapt and survive through several environmental factors like cell lineage allocation, mitochondrial function, and metabolism. The preimplanation embryo can succumb to health effects including thyroid dysfunction, obesity risk, and decline in insulin sensity if it is conceived as a child through in vitro fertilisation or due to animal-based diet of pregnant its pregnant mother.

Published
2011
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34. Maternal Diet-Induced Obesity Alters Mitochondrial Activity and Redox Status in Mouse Oocytes and Zygotes

Author

Igosheva, Natalia, Abramov, Andrey Y., Poston, Lucilla, Eckert, Judith J., Fleming, Tom P., Duchen, Michael R., and McConnell, Josie

Abstract

The negative impact of obesity on reproductive success is well documented but the stages at which development of the conceptus is compromised and the mechanisms responsible for the developmental failure still remain unclear. Recent findings suggest that mitochondria may be a contributing factor. However to date no studies have directly addressed the consequences of maternal obesity on mitochondria in early embryogenesis. Using an established murine model of maternal diet induced obesity and a live cell dynamic fluorescence imaging techniques coupled with molecular biology we have investigated the underlying mechanisms of obesity-induced reduced fertility. Our study is the first to show that maternal obesity prior to conception is associated with altered mitochondria in mouse oocytes and zygotes. Specifically, maternal diet-induced obesity in mice led to an increase in mitochondrial potential, mitochondrial DNA content and biogenesis. Generation of reactive oxygen species (ROS) was raised while glutathione was depleted and the redox state became more oxidised, suggestive of oxidative stress. These altered mitochondrial properties were associated with significant developmental impairment as shown by the increased number of obese mothers who failed to support blastocyst formation compared to lean dams. We propose that compromised oocyte and early embryo mitochondrial metabolism, resulting from excessive nutrient exposure prior to and during conception, may underlie poor reproductive outcomes frequently reported in obese women. [ABSTRACT FROM AUTHOR]

Published
2010
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35. Mouse embryo culture induces changes in postnatal phenotype including raised systolic blood pressure.

Author

Adam J. Watkins, Platt, Duncan, Papenbrock, Tom, Wilkins, Adrin, Eckert, Judith J., Wing Yee Kwong, Osmond, Clive, Hanson, Mark, and Fleming, Tom P.

Subjects
HUMAN cell culture, EMBRYO transfer, ARTIFICIAL insemination of domestic animals, REPRODUCTIVE technology, BLASTOCYST, EMBRYOLOGY
Abstract

A key factor in the use of assisted reproductive technologies (ART) for diverse species is the safety of procedures for long-term health. By using a mouse model, we have investigated the effect of in vitro culture and embryo transfer (ET) of superovulated embryos on postnatal growth and physiological activity compared with that of embryos developing in vivo. Embryo culture from two-cell to blastocyst stages in T6 medium either with or without a protein source reduced blastocyst trophectoderm and inner cell mass cell number compared with that of embryos developing in vivo. Embryo culture and ET had minimal effects on postnatal growth when compared with in vivo development with an equivalent litter size. However, embryo culture, and to a lesser extent ET, led to an enhanced systolic blood pressure at 21 weeks compared with in vivo development independent of litter size, maternal origin, or body weight. Moreover, activity of enzymatic regulators of cardiovascular and metabolic physiology, namely, serum angiotensin-converting enzyme and the gluconeogenesis controller, hepatic phosphoenolpyruvate carboxykinase, were significantly elevated in response to embryo culture and/or ET in female offspring at 27 weeks, independent of maternal factors and postnatal growth. These animal data indicate that postnatal physiological criteria important in cardiovascular and metabolic health may be more sensitive to routine ART procedures than growth. [ABSTRACT FROM AUTHOR]

Published
2007
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36. Single-cell duplex RT-LATE-PCR reveals Oct4 and Xist RNA gradients in 8-cell embryos.

Author

Hartshorn, Cristina, Eckert, Judith J., Hartung, Odelya, and Wangh, Lawrence J.

Subjects
*CELL lines, *EMBRYOLOGY, *GENE expression, *GENES, *CANCER cells, *RNA
Abstract

Background: The formation of two distinctive cell lineages in preimplantation mouse embryos is characterized by differential gene expression. The cells of the inner cell mass are pluripotent and express high levels of Oct4 mRNA, which is down-regulated in the surrounding trophectoderm. In contrast, the trophectoderm of female embryos contains Xist mRNA, which is absent from cells of the inner mass. Prior to blastocyst formation, all blastomeres of female embryos still express both of these RNAs. We, thus, postulated that simultaneous quantification of Oct4 and Xist transcripts in individual blastomeres at the 8-cell stage could be informative as to their subsequent fate. Testing this hypothesis, however, presented numerous technical challenges. We overcame these difficulties by combining PurAmp, a single-tube method for RNA preparation and quantification, with LATE-PCR, an advanced form of asymmetric PCR. Results: We constructed a duplex RT-LATE-PCR assay for real-time measurement of Oct4 and Xist templates and confirmed its specificity and quantitative accuracy with different methods. We then undertook analysis of sets of blastomeres isolated from embryos at the 8-cell stage. At this stage, all cells in the embryo are still pluripotent and morphologically equivalent. Our results demonstrate, however, that both Oct4 and Xist RNA levels vary in individual blastomeres comprising the same embryo, with some cells having particularly elevated levels of either transcript. Analysis of multiple embryos also shows that Xist and Oct4 expression levels are not correlated at the 8-cell stage, although transcription of both genes is up-regulated at this time in development. In addition, comparison of data from males and females allowed us to determine that the efficiency of the Oct4/Xist assay is unaffected by sex-related differences in gene expression. Conclusion: This paper describes the first example of multiplex RT-LATE-PCR and its utility, when combined with PurAmp sample preparation, for quantitative analysis of transcript levels in single4cells. With this technique, copy numbers of different RNAs can be accurately measured independently from their relative abundance in a cell, a goal that cannot be achieved using symmetric PCR. The technique illustrated in this work is relevant to a wide array of applications, such as stem cell and cancer cell analysis and preimplantation genetic diagnostics. [ABSTRACT FROM AUTHOR]

Published
2007
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37. Contribution of JAM-1 to epithelial differentiation and tight-junction biogenesis in the mouse preimplantation embryo.

Author

Thomas, Fay C., Sheth, Bhavwanti, Eckert, Judith J., Bazzoni, Gianfranco, Dejana, Elisabetta, and Fleming, Tom P.

Subjects
JUNCTIONAL complexes (Epithelium), CELL adhesion, CELL membranes, MESSENGER RNA, TIGHT junctions, PROTEIN kinases, CELL communication
Abstract

We have investigated the contribution of the tight junction (TJ) transmembrane protein junction-adhesion-molecule 1 (JAM-1) to trophectoderm epithelial differentiation in the mouse embryo. JAM-1-encoding mRNA is expressed early from the embryonic genome and is detectable as protein from the eight-cell stage. Immunofluoreseence confocal analysis of staged embryos and synchronized cell clusters revealed JAM-1 recruitment to cell contact sites occurred predominantly during the first hour after division to the right-cell stage, earlier than any other TJ protein analysed to date in this model and before E-cadherin adhesion and cell polarization. During embryo compaction later in the fourth cell cycle, JAM-1 localized transiently yet precisely to the apical microvillous pole, where protein kinase Cζ (PKCζ) and PKCδ are also found, indicating a role in cell surface reorganization and polarization. Subsequently, in morulae and blastocysts, JAM-1 is distributed ubiquitously at cell contact sites within the embryo but is concentrated within the trophectoderm apicolateral junctional complex, a pattern resembling that of E-cadherin and nectin-2. However, treatment of embryos with anti-JAM-1-neutralizing antibodies indicated that JAM-1 did not contribute to global embryo compaction and adhesion but rather regulated the timing of blastocoel cavity formation dependent upon establishment of the trophectoderm TJ paracellular seal. [ABSTRACT FROM AUTHOR]

Published
2004
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38. PKC signalling regulates tight junction membrane assembly in the pre-implantation mouse embryo.

Author

Eckert, Judith J., McCallum, Amanda, Mears, Andrew, Rumsby, Martin G., Cameron, Iain T., and Fleming, Tom P.

Subjects
PROTEIN kinase C, TIGHT junctions, CELL membranes, EMBRYOS, BLASTOCYST, MICE
Abstract

Examines the role of protein kinase C in the regulation of tight junction membrane assembly in the preimplantation mouse embryo. Effect of both PKC activators on membrane assembly; Discussion of the processes that upregulate epithelial differentiation in the outer trophectoderm layer of the blastocyst; Provision of a permeability seal against blastocyst collapse.

Published
2004
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40. The Embryo and Its Future1

Author

Fleming, Tom P., Kwong, Wing Yee, Porter, Richard, Ursell, Elizabeth, Fesenko, Irina, Wilkins, Adrian, Miller, Daniel J., Watkins, Adam J., and Eckert, Judith J.

Published
2004
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43. Advanced maternal age perturbs mouse embryo development and alters the phenotype of derived embryonic stem cells.

Author

Khurana P, Smyth NR, Sheth B, Velazquez MA, Eckert JJ, and Fleming TP

Subjects
Aneuploidy, Animals, Biomarkers metabolism, Embryonic Stem Cells, Female, Male, Maternal Age, Mice, Mice, Inbred C57BL, Phenotype, Blastocyst metabolism, Embryonic Development
Abstract

Advanced maternal age (AMA) is known to reduce fertility, increases aneuploidy in oocytes and early embryos and leads to adverse developmental consequences which may associate with offspring lifetime health risks. However, investigating underlying effects of AMA on embryo developmental potential is confounded by the inherent senescence present in maternal body systems further affecting reproductive success. Here, we describe a new model for the analysis of early developmental mechanisms underlying AMA by the derivation and characterisation of mouse embryonic stem cell (mESC-like) lines from naturally conceived embryos. Young (7-8 weeks) and Old (7-8 months) C57BL/6 female mice were mated with young males. Preimplantation embryos from Old dams displayed developmental retardation in blastocyst morphogenesis. mESC lines established from these blastocysts using conventional techniques revealed differences in genetic, cellular and molecular criteria conserved over several passages in the standardised medium. mESCs from embryos from AMA dams displayed increased incidence of aneuploidy following Giemsa karyotyping compared with those from Young dams. Moreover, AMA caused an altered pattern of expression of pluripotency markers (Sox2, OCT4) in mESCs. AMA further diminished mESC survival and proliferation and reduced the expression of cell proliferation marker, Ki-67. These changes coincided with altered expression of the epigenetic marker, Dnmt3a and other developmental regulators in a sex-dependent manner. Collectively, our data demonstrate the feasibility to utilise mESCs to reveal developmental mechanisms underlying AMA in the absence of maternal senescence and with reduced animal use.

Published
2022
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44. The Role of Maternal Nutrition During the Periconceptional Period and Its Effect on Offspring Phenotype.

Author

Fleming TP, Eckert JJ, and Denisenko O

Subjects
Embryonic Development, Female, Humans, Obesity physiopathology, Overnutrition physiopathology, Phenotype, Pregnancy, Fertilization, Maternal Nutritional Physiological Phenomena
Abstract

The early preimplantation embryo has been rigorously studied for decades to understand inherent reproductive and developmental mechanisms driving its morphogenesis from before fertilisation through to and beyond implantation. Recent research has demonstrated that this short developmental window is also critical for the embryo's interaction with external, maternal factors, particularly nutritional status. Here, maternal dietary quality has been shown to alter the pattern of development in an enduring way that can influence health throughout the lifetime. Thus, using mouse models, maternal protein restriction exclusively during the preimplantation period with normal nutrition thereafter is sufficient to cause adverse cardiometabolic and neurological outcomes in adult offspring. Evidence for similar effects whereby environmental factors during the periconceptional window can programme postnatal disease risk can be found in human and large animal models and also in response to in vitro conditions such as assisted conception and related infertility treatments. In this review, using mouse malnutrition models, we evaluate the step-by-step mechanisms that lead from maternal poor diet consumption though to offspring disease. We consider how adverse programming within the embryo may be induced, what nutrient factors and signalling pathways may be involved, and how these cues act to change the embryo in distinct ways across placental and foetal lineage paths, leading especially to changes in the growth trajectory which in turn associate with later disease risk. These mechanisms straddle epigenetic, molecular, cellular and physiological levels of biology and suggest, for health outcomes, preimplantation development to be the most important time in our lives.

Published
2017
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45. Cell signalling during blastocyst morphogenesis.

Author

Eckert JJ, Velazquez MA, and Fleming TP

Subjects
AMP-Activated Protein Kinases genetics, AMP-Activated Protein Kinases metabolism, Animals, Blastocyst cytology, Cell Differentiation, Fatty Acids metabolism, Gene Expression Regulation, Developmental, Humans, Insulin genetics, Insulin metabolism, Lipid Metabolism genetics, Mice, TOR Serine-Threonine Kinases genetics, TOR Serine-Threonine Kinases metabolism, Zygote cytology, Zygote growth & development, Zygote metabolism, Blastocyst metabolism, Embryonic Development genetics, Signal Transduction
Abstract

Blastocyst morphogenesis is prepared for even before fertilisation. Information stored within parental gametes can influence both maternal and embryonic gene expression programmes after egg activation at fertilisation. A complex network of intrinsic, cell-cell mediated and extrinsic, embryo-environment signalling mechanisms operates throughout cleavage, compaction and cavitation. These signalling events not only ensure developmental progression, cell differentiation and lineage allocation to inner cell mass (embryo proper) and trophectoderm (future extraembryonic lineages) but also provide a degree of developmental plasticity ensuring survival in prevailing conditions by adaptive responses. Indeed, many cellular functions including differentiation, metabolism, gene expression and gene expression regulation are subject to plasticity with short- or long-term consequences even into adult life. The interplay between intrinsic and extrinsic signals impacting on blastocyst morphogenesis is becoming clearer. This has been best studied in the mouse which will be the focus of this chapter but translational significance to human and domestic animal embryology will be a focus in future years.

Published
2015
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46. Adaptive responses of the embryo to maternal diet and consequences for post-implantation development.

Author

Fleming TP, Lucas ES, Watkins AJ, and Eckert JJ

Subjects
Animals, Female, Fertility physiology, Humans, Maternal-Fetal Exchange physiology, Mice, Models, Animal, Pregnancy, Sheep, Adaptation, Physiological physiology, Embryo, Mammalian physiology, Embryonic Development physiology, Maternal Nutritional Physiological Phenomena physiology
Abstract

Maternal periconceptional (PC) nutrition, coupled with maternal physiological condition, can impact on reproductive performance and potential across mammalian species. Oocyte quality and embryo development are affected adversely by either nutrient restriction or excess. Moreover, the quality of maternal PC nutrition can have lasting effects through fetal development and postnatally into adulthood. Chronic disease, notably cardiovascular and metabolic disease, and abnormal behaviour have been identified in adult offspring in small and large animal models of PC nutrient restriction. These long-term effects associate with compensatory responses that begin from the time of early embryo development. This review assesses the field of PC nutrition in vivo on short- and long-term developmental consequences in rodent and ruminant models and considers the implications for human health.

Published
2011
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47. Maternal low-protein diet during mouse pre-implantation development induces vascular dysfunction and altered renin-angiotensin-system homeostasis in the offspring.

Author

Watkins AJ, Lucas ES, Torrens C, Cleal JK, Green L, Osmond C, Eckert JJ, Gray WP, Hanson MA, and Fleming TP

Subjects
Animals, Arteries, Bronchodilator Agents pharmacology, Female, Homeostasis, Hypertension physiopathology, Isoproterenol pharmacology, Kidney metabolism, Kidney Glomerulus, Lung metabolism, Male, Mesentery, Mice, Mice, Inbred Strains, Muscle, Smooth, Vascular physiopathology, Pregnancy, Pregnancy Complications, Receptor, Angiotensin, Type 1, Receptors, Glucocorticoid metabolism, Renin-Angiotensin System physiology, Reverse Transcriptase Polymerase Chain Reaction, Sex Factors, Sodium-Potassium-Exchanging ATPase, Vasodilation, Blood Pressure, Diet, Protein-Restricted adverse effects, Hypertension etiology, Maternal Nutritional Physiological Phenomena, Peptidyl-Dipeptidase A metabolism, Prenatal Exposure Delayed Effects, Protein Deficiency
Abstract

Environmental perturbations during early mammalian development can affect aspects of offspring growth and cardiovascular health. We have demonstrated previously that maternal gestational dietary protein restriction in mice significantly elevated adult offspring systolic blood pressure. Therefore, the present study investigates the key mechanisms of blood pressure regulation in these mice. Following mating, female MF-1 mice were assigned to either a normal-protein diet (NPD; 18 % casein) or an isocaloric low-protein diet throughout gestation (LPD; 9 % casein), or fed the LPD exclusively during the pre-implantation period (3.5 d) before returning to the NPD for the remainder of gestation (Emb-LPD). All offspring received standard chow. At 22 weeks, isolated mesenteric arteries from LPD and Emb-LPD males displayed significantly attenuated vasodilatation to isoprenaline (P = 0.04 and P = 0.025, respectively), when compared with NPD arteries. At 28 weeks, stereological analysis of glomerular number in female left kidneys revealed no significant difference between the groups. Real-time RT-PCR analysis of type 1a angiotensin II receptor, Na+/K+ ATPase transporter subunits and glucocorticoid receptor expression in male and female left kidneys revealed no significant differences between the groups. LPD females displayed elevated serum angiotensin-converting enzyme (ACE) activity (P = 0.044), whilst Emb-LPD males had elevated lung ACE activity (P = 0.001), when compared with NPD offspring. These data demonstrate that elevated offspring systolic blood pressure following maternal gestational protein undernutrition is associated with impaired arterial vasodilatation in male offspring, elevated serum and lung ACE activity in female and male offspring, respectively, but kidney glomerular number in females and kidney gene expression in male and female offspring appear unaffected.

Published
2010
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48. The early human germ cell lineage does not express SOX2 during in vivo development or upon in vitro culture.

Author

Perrett RM, Turnpenny L, Eckert JJ, O'Shea M, Sonne SB, Cameron IT, Wilson DI, Rajpert-De Meyts E, and Hanley NA

Subjects
Animals, Cells, Cultured, DNA-Binding Proteins genetics, Embryonic Stem Cells cytology, Female, Germ Cells cytology, HMGB Proteins genetics, Homeodomain Proteins genetics, Homeodomain Proteins metabolism, Humans, Male, Mice, Nanog Homeobox Protein, Neoplasms, Germ Cell and Embryonal metabolism, Neoplasms, Germ Cell and Embryonal pathology, Octamer Transcription Factor-3 genetics, Octamer Transcription Factor-3 metabolism, Ovary cytology, Ovary embryology, Ovary metabolism, SOXB1 Transcription Factors, Testis cytology, Testis embryology, Testis metabolism, Transcription Factors genetics, Cell Lineage genetics, DNA-Binding Proteins metabolism, Embryonic Stem Cells metabolism, Gene Expression Regulation, Developmental physiology, Germ Cells metabolism, HMGB Proteins metabolism, Transcription Factors metabolism
Abstract

NANOG, POU5F1, and SOX2 are required by the inner cell mass of the blastocyst and act cooperatively to maintain pluripotency in both mouse and human embryonic stem cells. Inadequacy of any one of them causes loss of the undifferentiated state. Mouse primordial germ cells (PGCs), from which pluripotent embryonic germ cells (EGCs) are derived, also express POU5F1, NANOG, and SOX2. Thus, a similar expression profile has been predicted for human PGCs. Here we show by RT-PCR, immunoblotting, and immunohistochemistry that human PGCs express POU5F1 and NANOG but not SOX2, with no evidence of redundancy within the group B family of human SOX genes. Although lacking SOX2, proliferative human germ cells can still be identified in situ during early development and are capable of culture in vitro. Surprisingly, with the exception of FGF4, many stem cell-restricted SOX2 target genes remained detected within the human SOX2-negative germ cell lineage. These studies demonstrate an unexpected difference in gene expression between human and mouse. The human PGC is the first primary cell type described to express POU5F1 and NANOG but not SOX2. The data also provide a new reference point for studies attempting to turn human stem cells into gametes by normal developmental pathways for the treatment of infertility.

Published
2008
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49. Adaptive responses by mouse early embryos to maternal diet protect fetal growth but predispose to adult onset disease.

Author

Watkins AJ, Ursell E, Panton R, Papenbrock T, Hollis L, Cunningham C, Wilkins A, Perry VH, Sheth B, Kwong WY, Eckert JJ, Wild AE, Hanson MA, Osmond C, and Fleming TP

Subjects
Animals, Blastocyst metabolism, Ectoderm metabolism, Ectoderm physiology, Female, Male, Maternal-Fetal Exchange, Mice, Mice, Inbred Strains, Pregnancy, Yolk Sac metabolism, Yolk Sac physiology, Blastocyst physiology, Diet, Protein-Restricted adverse effects, Disease Susceptibility etiology, Fetal Development physiology, Prenatal Nutritional Physiological Phenomena
Abstract

Poor maternal nutrition during pregnancy can alter postnatal phenotype and increase susceptibility to adult cardiovascular and metabolic diseases. However, underlying mechanisms are largely unknown. Here, we show that maternal low protein diet (LPD), fed exclusively during mouse preimplantation development, leads to offspring with increased weight from birth, sustained hypertension, and abnormal anxiety-related behavior, especially in females. These adverse outcomes were interrelated with increased perinatal weight being predictive of later adult overweight and hypertension. Embryo transfer experiments revealed that the increase in perinatal weight was induced within blastocysts responding to preimplantation LPD, independent of subsequent maternal environment during later pregnancy. We further identified the embryo-derived visceral yolk sac endoderm (VYSE) as one mediator of this response. VYSE contributes to fetal growth through endocytosis of maternal proteins, mainly via the multiligand megalin (LRP2) receptor and supply of liberated amino acids. Thus, LPD maintained throughout gestation stimulated VYSE nutrient transport capacity and megalin expression in late pregnancy, with enhanced megalin expression evident even when LPD was limited to the preimplantation period. Our results demonstrate that in a nutrient-restricted environment, the preimplantation embryo activates physiological mechanisms of developmental plasticity to stablize conceptus growth and enhance postnatal fitness. However, activation of such responses may also lead to adult excess growth and cardiovascular and behavioral diseases.

Published
2008
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50. Society for Reproductive Biology Founders' Lecture 2003. The making of an embryo: short-term goals and long-term implications.

Author

Fleming TP, Wilkins A, Mears A, Miller DJ, Thomas F, Ghassemifar MR, Fesenko I, Sheth B, Kwong WY, and Eckert JJ

Subjects
Animals, Mice, Blastocyst physiology, Embryonic Development
Abstract

During early development, the eutherian mammalian embryo forms a blastocyst comprising an outer trophectoderm epithelium and enclosed inner cell mass (ICM). The short-term goal of blastocyst morphogenesis, including epithelial differentiation and segregation of the ICM, is mainly regulated autonomously and comprises a combination of temporally controlled gene expression, cell polarisation, differentiative cell divisions and cell-cell interactions. This aspect of blastocyst biogenesis is reviewed, focusing, in particular, on the maturation and role of cell adhesion systems. Early embryos are also sensitive to their environment, which can affect their developmental potential in diverse ways and may lead to long-term consequences relating to fetal or postnatal growth and physiology. Some current concepts of embryo-environment interactions, which may impact on future health, are also reviewed.

Published
2004
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