Equine Trophectoderm Cells and Their Role in Fetal-Maternal Recognition

Bonometti, Susana

18 January 2019

Establishment and maintenance of a successful pregnancy requires signaling from the embryo to the mare, a process known as maternal recognition. Six days after fertilization, the trophectoderm (TE), a placenta precursor is formed. Signals emanating from the TE to the uterine environment are critical to maternal recognition of pregnancy. The identity of factors necessary for this process remain unknown. A novel equine induced trophoblast cell line (iTr) that closely mimics the genotype and phenotype of native equine TE was created. Transcriptome analysis of iTr revealed increased expression of growth factor (GF) receptors for Epidermal GF (EGF), Hepatocyte GF (HGF), Fibroblast GF-2 (FGF-2) and Insulin GF (IGF-1), suggesting these GF may be important targets during TE development in the early embryo. We hypothesized that treatment of iTr cells with these GF would induce changes in cell proliferation and expression of genes likely involved in maternal recognition. The objectives of this experiment were to evaluate the effect of these GFs on iTr mitotic response and regulation of genes involved in steroidogenesis. Equine iTr cells (n = 3) were cultured with 10 ng/mL EGF, HGF, FGF-2 or IGF-1 for 24 hr, with 5-ethynyl-2'-deoxyuridine (EdU) supplementation during the final 2 hr. Subsequently, cells were fixed and EdU positive and total nuclei were enumerated. A parallel plate of iTr cells was treated in a similar manner and lysed for total RNA isolation. Quantitative PCR using gene-specific primers for CYP11A1, PTGS2, PTGES2, and PTGES3 was performed. Data were analyzed by ANOVA with Tukey's post hoc adjustment using the GLM procedure of SAS. Treatment with EGF, FGF-2, HGF, and IGF-1 increased (P < 0.05) iTr proliferation from control levels of 25.33 ± 1.03% to 38.58 ± 1.61%, 45.50 ± 2.94%, and 38.23 ± 2.01% respectively. The 2-&#916;&#916;CT method was used to calculate the fold change (FC) using GAPDH as the reference gene for normalization. Expression of CYP11A2, PTGES2, and PTGES3 was not affected by GF, as measured by qPCR. By contrast, PTGS2 transcript abundance increased (P < 0.05) following FGF-2 (FC = 3.327 ± 0.8291) and HGF (FC = 11.88 ± 4.572) treatment. These results indicate that FGF-2 and HGF may simultaneously induce proliferation and prostaglandin production by TE cells. The combined results of these experiments will improve our understanding of TE morphogenesis and its response to uterine-derived growth factors. / Master of Science / Establishment and maintenance of a pregnancy requires that the mare uterus recognize the presence of the embryo, a process known as maternal recognition of pregnancy. The trophectoderm (TE) are cells on the outer layer of the embryo formed six days after fertilization, which later give origin to the placenta. The TE sends signals from the embryo to the uterus, that are very important for the mare’s recognition of the embryo’s presence. The specific nature of these signals are still unknown in the horse. A cell line (iTr) very similar in aspect and genes to the horse’s native TE has been created in our laboratory. A set of comparative assays have showed that, during the developmental stage of maternal recognition, both the horse TE and the iTr cells share significant identity, and have receptors for the same set of growth factors (GF), suggesting these GF are important for early embryo development and potentially involved in the signaling process of maternal recognition. We proposed that treatment with these GF would induce iTr cells to proliferate and express signals likely involved in maternal recognition in horses. The objectives of this experiments were to evaluate the effect of EGF, HGF, FGF-2 and IGF-1 on iTr cells by measuring proliferation and cellular mechanisms of maternal recognition already established in in other species. Equine iTr cells were cultured with different GF and right before analysis a fluorescent dye that stain dividing cells was added in order to measure the proliferation. Equivalent cell cultures were used to evaluate if the treatment affected the production of hormones involved in signaling maternal recognition. Treatment with all GF induced higher cell proliferation, but HGF also increased the production of one enzyme that participates in producing a very important hormone (prostaglandin E2). The combined results of these experiments add to our understanding of maternal recognition in horses.

equine

maternal recognition of pregnancy

trophectoderm

Environmental factors affecting interferon-τ expression and secretion by in vitro produced bovine blastocysts

Hickman, Cristina Fontes Lindemann

January 2010

Interferon (IFN)τ is the luteotrophic signal in ruminants and is secreted by bovine blastocysts both in vivo and in vitro. IFNτ secretion is highly variable and its control is only partly understood. Most studies on the effects of environmental factors on IFNτ production have evaluated IFNτ production during the time of embryo elongation and attachment. There is less knowledge of how IFNτ production at the blastocyst stage is modulated. Therefore, the hypothesis of this thesis was that the amounts of IFNτ expressed and/or secreted by bovine blastocysts produced in vitro were modulated by environmental factors. In the first set of experiments, bovine embryos were incubated with a cytokine (granulocyte macrophage colony stimulating factor, GM-CSF). GM-CSF had been shown previously to promote embryo viability in a range of species and to modulate IFNτ secretion by ovine blastocysts and thus was classified as a beneficial environmental factor. Three experiments were conducted to test whether GM-CSF stimulated bovine blastocyst development and IFNτ secretion. Embryos were incubated with a range of different concentrations of GM-CSF (2, 5, 10 and 50 ng mL-1) and at different stages of development (1 to 3 and 1 to 9 days post-insemination). Bovine embryos were unresponsive to GM-CSF in terms of IFNτ secretion, pyruvate oxidation, rate of development, blastocyst yield, morphological quality and apoptotic index, irrespective of timing of exposure and/or concentration of GM-CSF. In the second part of the thesis, bovine blastocysts were exposed to a mild heat treatment (42°C for four h) to determine whether heat stress affected IFNτ expression by bovine blastocysts. A novel multiplex reverse-transcription polymerase chain reaction methodology was validated to detect IFNτ and heat shock protein (HSP)70 mRNA in individual bovine embryos relative to an endogenous gene (YWHAZ) and an exogenous mRNA (α-globin) and results were expressed both in absolute terms and in relation to the endogenous control. Heat treatment upregulated IFNτ mRNA expression, suggesting that detrimental environmental factors may influence IFNτ expression. Heat treatment also caused an increase in HSP70 mRNA expression but did not affect blastocyst morphology, suggesting that the level of stress caused by the heat treatment was great enough to activate the cellular stress response, but mild enough not to cause a change in morphology. In addition, the positive correlation between HSP70 and IFNτ transcript levels and the higher IFNτ expression by embryos which showed signs of degeneration and collapse compared to those which progressed in development suggested that IFNτ expression may be indicative of stress. The relationship between IFNτ expression and secretion in vitro with morphology, pyruvate metabolism, apoptotic index and cell number was inconsistent, suggesting that IFNτ production did not correlate with ‘quality’ (defined as an index of viability). Blastocyst yield, day of blastulation and change in morphology index did account for at least part of the variation in IFNτ production, suggesting that some intrinsic factors may regulate IFNτ secretion. These intrinsic factors, however, did not explain all the variation in IFNτ secretion between blastocysts. Therefore, the amount of IFNτ secreted by bovine blastocysts is modulated by both intrinsic and environmental factors. A model was proposed where different levels of stress affect survivability to different extents, and the ability to respond to mild levels of stress may be indicative of improved survivability.

571.861

Arquitetura e estrutura endometrial equina entre o 21º e 42º dias de gestação / Architecture and structure of equine endometrium between 21st and 42nd days of pregnancy

Winter, Gustavo Henrique Zimmermann

January 2014

O embrião equino apresenta um desenvolvimento dinâmico por um longo período entre a fertilização, sua entrada no útero, fixação e posterior invasão trofoblástica após o 36º dia da gestação. Durante todo este período o concepto é sustentado pelo histotrofo endometrial. Estas características dos equídeos favorecem o seu uso com modelo experimental in vivo para estudos nos desenvolvimentos e interações fetal e maternal. Os estudos em endométrio equino tiveram foco em eventos fisiológicos nas diferentes fases do ciclo estral, enquanto os estudos aos primeiros momentos da gestação são escassos. O entendimento do processo de remodelação e morfofisiologia do endométrio após a entrada do embrião no útero não é completamente entendido. O objetivo deste trabalho foi estudar a morfofisiologia endometrial da gestação na égua envolvendo os períodos pós-fixação e peri-implantação, por histologia e microscopia eletrônica de varredura. A característica mais marcante da transformação ou adaptação endometrial à gestação foi o quase total desaparecimento das células ciliadas na superfície epitelial em ambos cornos uterinos. A capacidade de secreção das células microvilosas também passou por mudanças com o avanço gestacional. Muitas células secretórias ingurgitadas e protusas formam a maioria da população do epitélio, onde o histotrofo se acumula, e apresentaram erosões em sua superfície, provavelmente pela secreção apócrina de vesículas. A superfície epitelial apresentou pleomorfismo celular e pseudoestratificação, promovida por intensa hiperplasia celular, acompanhada de adensamento das glândulas endometriais, desde o 21º dia da gestação diminuído após o 36º dia. Linfócitos, provavelmente uNK, foram encontrados no epitélio luminal do endométrio já aos 21 dias de gestação em ambos cornos, gravídico e não gravídico. Foi evidenciado o septamento no epitélio luminal, com sulcos formados aos 35 e 36 dias, tornando-se mais profundos aos 42 dias de gestação. Toda esta evolução e adaptação contínua aconteceram principalmente no corno gravídico acompanhados em menor intensidade pelo corno não gravídico. / The equine embryo plays a dynamic development for a long period between fertilization, its entry into the uterus, fixes and subsequent trophoblastic invasion after day 36 of gestation. Throughout this period, the conceptus is supported by endometrial histotrophe. These equids characteristics favor their use as an in vivo experimental model for studying the changes and interactions in fetal and maternal development. Studies in equine endometrium were focused on physiological events in the different phases of the estrous cycle, while studies in early moments of pregnancy are scant. The process of endometrial remodeling and morphophysiology after the maternal recognition of pregnancy is not completely understood. The objective of this work was to study the endometrial morphophysiology in the mare comprising post-fixation and peri-implantation periods, by histology and scanning electron microscopy. The most striking feature of endometrial transformation or adaptation to pregnancy was the almost total ciliated cells disappearance of the epithelial surface in both uterine horns. In addition, the secretory capacity of microvillus cells underwent changes with gestational age. Many engorged and protruded secretory cells were the majority epithelium population where histotroph accumulates, and showed erosions on its surface, probably by apocrine vesicle secretion. The epithelial surface also showed cellular pleomorphic and pseudostratified epithelium as a result of intense cell hyperplasia. It was accompanied by thickening of the endometrial glands from day 21 of gestation, then decreasing after the 36th day. Lymphocytes, probably uNK, were found in the luminal epithelium of the endometrium since 21st day of gestation in both pregnant and not pregnant horns. Septation was evidenced in the luminal epithelium, with sulci formed at 35 days, becoming deeper at 42 days of pregnancy. All this continued evolution and adaptation occurred mainly in the gravid horn accompanied in less intensity by non-gravid horn.

Clinica veterinaria : Equinos

Reproducao animal : Equinos

Embrião

Ciliated cell

uNK

Embryo

Maternal recognition of pregnancy

Endometrial glands

Arquitetura e estrutura endometrial equina entre o 21º e 42º dias de gestação / Architecture and structure of equine endometrium between 21st and 42nd days of pregnancy

Winter, Gustavo Henrique Zimmermann

January 2014

O embrião equino apresenta um desenvolvimento dinâmico por um longo período entre a fertilização, sua entrada no útero, fixação e posterior invasão trofoblástica após o 36º dia da gestação. Durante todo este período o concepto é sustentado pelo histotrofo endometrial. Estas características dos equídeos favorecem o seu uso com modelo experimental in vivo para estudos nos desenvolvimentos e interações fetal e maternal. Os estudos em endométrio equino tiveram foco em eventos fisiológicos nas diferentes fases do ciclo estral, enquanto os estudos aos primeiros momentos da gestação são escassos. O entendimento do processo de remodelação e morfofisiologia do endométrio após a entrada do embrião no útero não é completamente entendido. O objetivo deste trabalho foi estudar a morfofisiologia endometrial da gestação na égua envolvendo os períodos pós-fixação e peri-implantação, por histologia e microscopia eletrônica de varredura. A característica mais marcante da transformação ou adaptação endometrial à gestação foi o quase total desaparecimento das células ciliadas na superfície epitelial em ambos cornos uterinos. A capacidade de secreção das células microvilosas também passou por mudanças com o avanço gestacional. Muitas células secretórias ingurgitadas e protusas formam a maioria da população do epitélio, onde o histotrofo se acumula, e apresentaram erosões em sua superfície, provavelmente pela secreção apócrina de vesículas. A superfície epitelial apresentou pleomorfismo celular e pseudoestratificação, promovida por intensa hiperplasia celular, acompanhada de adensamento das glândulas endometriais, desde o 21º dia da gestação diminuído após o 36º dia. Linfócitos, provavelmente uNK, foram encontrados no epitélio luminal do endométrio já aos 21 dias de gestação em ambos cornos, gravídico e não gravídico. Foi evidenciado o septamento no epitélio luminal, com sulcos formados aos 35 e 36 dias, tornando-se mais profundos aos 42 dias de gestação. Toda esta evolução e adaptação contínua aconteceram principalmente no corno gravídico acompanhados em menor intensidade pelo corno não gravídico. / The equine embryo plays a dynamic development for a long period between fertilization, its entry into the uterus, fixes and subsequent trophoblastic invasion after day 36 of gestation. Throughout this period, the conceptus is supported by endometrial histotrophe. These equids characteristics favor their use as an in vivo experimental model for studying the changes and interactions in fetal and maternal development. Studies in equine endometrium were focused on physiological events in the different phases of the estrous cycle, while studies in early moments of pregnancy are scant. The process of endometrial remodeling and morphophysiology after the maternal recognition of pregnancy is not completely understood. The objective of this work was to study the endometrial morphophysiology in the mare comprising post-fixation and peri-implantation periods, by histology and scanning electron microscopy. The most striking feature of endometrial transformation or adaptation to pregnancy was the almost total ciliated cells disappearance of the epithelial surface in both uterine horns. In addition, the secretory capacity of microvillus cells underwent changes with gestational age. Many engorged and protruded secretory cells were the majority epithelium population where histotroph accumulates, and showed erosions on its surface, probably by apocrine vesicle secretion. The epithelial surface also showed cellular pleomorphic and pseudostratified epithelium as a result of intense cell hyperplasia. It was accompanied by thickening of the endometrial glands from day 21 of gestation, then decreasing after the 36th day. Lymphocytes, probably uNK, were found in the luminal epithelium of the endometrium since 21st day of gestation in both pregnant and not pregnant horns. Septation was evidenced in the luminal epithelium, with sulci formed at 35 days, becoming deeper at 42 days of pregnancy. All this continued evolution and adaptation occurred mainly in the gravid horn accompanied in less intensity by non-gravid horn.

Clinica veterinaria : Equinos

Reproducao animal : Equinos

Embrião

Ciliated cell

uNK

Embryo

Maternal recognition of pregnancy

Endometrial glands

Arquitetura e estrutura endometrial equina entre o 21º e 42º dias de gestação / Architecture and structure of equine endometrium between 21st and 42nd days of pregnancy

Winter, Gustavo Henrique Zimmermann

January 2014

O embrião equino apresenta um desenvolvimento dinâmico por um longo período entre a fertilização, sua entrada no útero, fixação e posterior invasão trofoblástica após o 36º dia da gestação. Durante todo este período o concepto é sustentado pelo histotrofo endometrial. Estas características dos equídeos favorecem o seu uso com modelo experimental in vivo para estudos nos desenvolvimentos e interações fetal e maternal. Os estudos em endométrio equino tiveram foco em eventos fisiológicos nas diferentes fases do ciclo estral, enquanto os estudos aos primeiros momentos da gestação são escassos. O entendimento do processo de remodelação e morfofisiologia do endométrio após a entrada do embrião no útero não é completamente entendido. O objetivo deste trabalho foi estudar a morfofisiologia endometrial da gestação na égua envolvendo os períodos pós-fixação e peri-implantação, por histologia e microscopia eletrônica de varredura. A característica mais marcante da transformação ou adaptação endometrial à gestação foi o quase total desaparecimento das células ciliadas na superfície epitelial em ambos cornos uterinos. A capacidade de secreção das células microvilosas também passou por mudanças com o avanço gestacional. Muitas células secretórias ingurgitadas e protusas formam a maioria da população do epitélio, onde o histotrofo se acumula, e apresentaram erosões em sua superfície, provavelmente pela secreção apócrina de vesículas. A superfície epitelial apresentou pleomorfismo celular e pseudoestratificação, promovida por intensa hiperplasia celular, acompanhada de adensamento das glândulas endometriais, desde o 21º dia da gestação diminuído após o 36º dia. Linfócitos, provavelmente uNK, foram encontrados no epitélio luminal do endométrio já aos 21 dias de gestação em ambos cornos, gravídico e não gravídico. Foi evidenciado o septamento no epitélio luminal, com sulcos formados aos 35 e 36 dias, tornando-se mais profundos aos 42 dias de gestação. Toda esta evolução e adaptação contínua aconteceram principalmente no corno gravídico acompanhados em menor intensidade pelo corno não gravídico. / The equine embryo plays a dynamic development for a long period between fertilization, its entry into the uterus, fixes and subsequent trophoblastic invasion after day 36 of gestation. Throughout this period, the conceptus is supported by endometrial histotrophe. These equids characteristics favor their use as an in vivo experimental model for studying the changes and interactions in fetal and maternal development. Studies in equine endometrium were focused on physiological events in the different phases of the estrous cycle, while studies in early moments of pregnancy are scant. The process of endometrial remodeling and morphophysiology after the maternal recognition of pregnancy is not completely understood. The objective of this work was to study the endometrial morphophysiology in the mare comprising post-fixation and peri-implantation periods, by histology and scanning electron microscopy. The most striking feature of endometrial transformation or adaptation to pregnancy was the almost total ciliated cells disappearance of the epithelial surface in both uterine horns. In addition, the secretory capacity of microvillus cells underwent changes with gestational age. Many engorged and protruded secretory cells were the majority epithelium population where histotroph accumulates, and showed erosions on its surface, probably by apocrine vesicle secretion. The epithelial surface also showed cellular pleomorphic and pseudostratified epithelium as a result of intense cell hyperplasia. It was accompanied by thickening of the endometrial glands from day 21 of gestation, then decreasing after the 36th day. Lymphocytes, probably uNK, were found in the luminal epithelium of the endometrium since 21st day of gestation in both pregnant and not pregnant horns. Septation was evidenced in the luminal epithelium, with sulci formed at 35 days, becoming deeper at 42 days of pregnancy. All this continued evolution and adaptation occurred mainly in the gravid horn accompanied in less intensity by non-gravid horn.

Clinica veterinaria : Equinos

Reproducao animal : Equinos

Embrião

Ciliated cell

uNK

Embryo

Maternal recognition of pregnancy

Endometrial glands