Your search keyword '"Yolk Sac growth & development"' showing total 77 results

1. Multiple cell populations generate macrophage progenitors in the early yolk sac.

Author

Ito C, Hikosaka-Kuniishi M, Yamazaki H, and Yamane T

Subjects

Animals, Cell Differentiation, Cell Lineage, Embryonic Development, Female, Mice, Yolk Sac growth & development, Yolk Sac physiology, Hematopoiesis, Hematopoietic Stem Cells physiology, Macrophages, Yolk Sac immunology

Abstract

Yolk sac (YS) CSF1 receptor positive (CSF1R + ) cells are thought to be the progenitors for tissue-resident macrophages present in various tissues. The YS progenitors for tissue-resident macrophages are referred to as erythroid-myeloid progenitors (EMPs). However, diverse types of hematopoietic progenitors are present in the early YS, thus it is not precisely known which type of hematopoietic cell gives rise to the CSF1R + lineage. In this study, an analysis was conducted to determine when CSF1R + progenitors appeared in the early YS. It showed that CSF1R + cells appeared in the YS as early as embryonic day 9 (E9) and that the earliest hematopoietic progenitors that differentiate into CSF1R + cells were found in E8. Since these progenitors possessed the capability to generate primitive erythroid cells, it was likely that primitive erythroid lineages shared progenitors with the CSF1R + lineage. Mutual antagonism appears to work between PU.1 and GATA1 when CSF1R + cells appear in the early YS. One day later (E9), multiple progenitors, including myeloid-restricted progenitors and multipotent progenitors, in the YS could immediately generate CSF1R + cells. These results suggest that EMPs are not an exclusive source for the CSF1R + lineage; rather, multiple hematopoietic cell populations give rise to CSF1R + lineage in the early YS., (© 2022. The Author(s), under exclusive licence to Springer Nature Switzerland AG.)

Published

2022

2. Ezh2 is essential for the generation of functional yolk sac derived erythro-myeloid progenitors.

Author

Neo WH, Meng Y, Rodriguez-Meira A, Fadlullah MZH, Booth CAG, Azzoni E, Thongjuea S, de Bruijn MFTR, Jacobsen SEW, Mead AJ, and Lacaud G

Subjects

Animals, Cell Differentiation, Embryo, Mammalian, Enhancer of Zeste Homolog 2 Protein deficiency, Epigenesis, Genetic, Erythroid Cells cytology, Female, Fetus, Genes, Reporter, Hematopoiesis genetics, Liver cytology, Liver growth & development, Liver metabolism, Luminescent Proteins genetics, Luminescent Proteins metabolism, Male, Mice, Mice, Inbred C57BL, Mice, Transgenic, Mouse Embryonic Stem Cells cytology, Myeloid Progenitor Cells pathology, Primary Cell Culture, Vesicular Transport Proteins metabolism, Wnt Signaling Pathway, Yolk Sac cytology, Yolk Sac growth & development, Red Fluorescent Protein, Enhancer of Zeste Homolog 2 Protein genetics, Erythroid Cells metabolism, Gene Expression Regulation, Developmental, Mouse Embryonic Stem Cells metabolism, Myeloid Progenitor Cells metabolism, Vesicular Transport Proteins genetics, Yolk Sac metabolism

Abstract

Yolk sac (YS) hematopoiesis is critical for the survival of the embryo and a major source of tissue-resident macrophages that persist into adulthood. Yet, the transcriptional and epigenetic regulation of YS hematopoiesis remains poorly characterized. Here we report that the epigenetic regulator Ezh2 is essential for YS hematopoiesis but dispensable for subsequent aorta-gonad-mesonephros (AGM) blood development. Loss of EZH2 activity in hemogenic endothelium (HE) leads to the generation of phenotypically intact but functionally deficient erythro-myeloid progenitors (EMPs), while the generation of primitive erythroid cells is not affected. EZH2 activity is critical for the generation of functional EMPs at the onset of the endothelial-to-hematopoietic transition but subsequently dispensable. We identify a lack of Wnt signaling downregulation as the primary reason for the production of non-functional EMPs. Together, our findings demonstrate a critical and stage-specific role of Ezh2 in modulating Wnt signaling during the generation of EMPs from YS HE., (© 2021. The Author(s).)

Published

2021

3. An in vitro stem cell model of human epiblast and yolk sac interaction.

Author

Mackinlay KM, Weatherbee BA, Souza Rosa V, Handford CE, Hudson G, Coorens T, Pereira LV, Behjati S, Vallier L, Shahbazi MN, and Zernicka-Goetz M

Subjects

Animals, Cell Line, Ectoderm growth & development, Embryonic Development, Humans, Mice, Germ Layers growth & development, Pluripotent Stem Cells metabolism, Yolk Sac growth & development

Abstract

Human embryogenesis entails complex signalling interactions between embryonic and extra-embryonic cells. However, how extra-embryonic cells direct morphogenesis within the human embryo remains largely unknown due to a lack of relevant stem cell models. Here, we have established conditions to differentiate human pluripotent stem cells (hPSCs) into yolk sac-like cells (YSLCs) that resemble the post-implantation human hypoblast molecularly and functionally. YSLCs induce the expression of pluripotency and anterior ectoderm markers in human embryonic stem cells (hESCs) at the expense of mesoderm and endoderm markers. This activity is mediated by the release of BMP and WNT signalling pathway inhibitors, and, therefore, resembles the functioning of the anterior visceral endoderm signalling centre of the mouse embryo, which establishes the anterior-posterior axis. Our results implicate the yolk sac in epiblast cell fate specification in the human embryo and propose YSLCs as a tool for studying post-implantation human embryo development in vitro., Competing Interests: KM, BW, VS, CH, GH, TC, LP, SB, LV, MS, MZ No competing interests declared, (© 2021, Mackinlay et al.)

Published

2021

4. Is extra-embryonic endoderm a source of placental blood cells?

Author

Downs KM

Subjects

Allantois growth & development, Allantois metabolism, Animals, Blood Cells metabolism, Chromosomal Proteins, Non-Histone genetics, Chromosomal Proteins, Non-Histone metabolism, Endoderm growth & development, Endoderm metabolism, Erythroblasts metabolism, Female, Fetal Proteins genetics, Fetal Proteins metabolism, Gene Expression Regulation, Developmental, Mice, Octamer Transcription Factor-3 genetics, Octamer Transcription Factor-3 metabolism, Patched-1 Receptor genetics, Patched-1 Receptor metabolism, Placenta metabolism, Pregnancy, T-Box Domain Proteins genetics, T-Box Domain Proteins metabolism, Yolk Sac growth & development, Yolk Sac metabolism, Allantois cytology, Blood Cells cytology, Endoderm cytology, Erythroblasts cytology, Placenta cytology, Yolk Sac cytology

Abstract

The extra-embryonic hypoblast/visceral endoderm of Placentalia carries out a variety of functions during gestation, including hematopoietic induction. Results of decades-old and recent experiments have provided compelling evidence that, in addition to its inducing properties, hypoblast/visceral endoderm itself is a source of placental blood cells. Those observations that highlight extra-embryonic endoderm's role as an overlooked source of placental blood cells across species are briefly discussed here, with suggestions for future exploration., (Copyright © 2020 ISEH -- Society for Hematology and Stem Cells. Published by Elsevier Inc. All rights reserved.)

Published

2020

5. Pilot study establishing a nomogram of yolk sac growth during the first trimester of pregnancy.

Author

Detti L, Roman RA, Goedecke PJ, Christiansen ME, Peregrin-Alvarez I, Ikwuezunma G, and Francillon L

Subjects

Adult, Female, Humans, Nomograms, Pilot Projects, Pregnancy, Prospective Studies, Reference Values, Ultrasonography, Yolk Sac diagnostic imaging, Pregnancy Trimester, First physiology, Yolk Sac growth & development

Abstract

Aim: The yolk sac (YS) has been reported as a reliable predictor of adverse pregnancy outcomes, however, it has always been evaluated cross-sectionally with a single ultrasound per patient. We sought to validate the use of YS dimensions in serial ultrasounds throughout the first 10 weeks of singleton and multiple gestations., Methods: This was a prospective cohort study where YS diameters were serially obtained with 2D ultrasound in singleton and multiple gestations from 5 to 11 weeks. Nonparametric test were used for comparisons with P < 0.05 indicating significance., Results: One hundred ninety-three patients were included, 42 twins (3 monochorionic and 39 dichorionic), 2 triplets (monochorionic twins plus a singleton) and 148 singleton pregnancies (238 total fetuses). There was no difference in YS dimensions in singleton versus multiple pregnancies. Starting at 5 weeks' gestation, the YS increased 0.4 mm (95% CI 0.3-0.5 mm) per week until 10 weeks' gestation. Forty-five fetuses were lost in the first trimester. The risk of pregnancy loss was higher with a large YS until 8 weeks (P ≤ 0.001), while after 8 weeks it was higher with a small YS (P < 0.005)., Conclusion: We established a nomogram of YS development during the first 10 weeks of pregnancy. The YS reliably detected pregnancies that ended in loss as early as 6 weeks' gestation. The YS was either smaller or larger than in ongoing pregnancies. While all pregnancies with large YS were lost within 10 weeks, those with smaller YS were lost beyond the first 10 weeks., (© 2019 Japan Society of Obstetrics and Gynecology.)

Published

2020

6. In vivo generation of haematopoietic stem/progenitor cells from bone marrow-derived haemogenic endothelium.

Author

Yvernogeau L, Gautier R, Petit L, Khoury H, Relaix F, Ribes V, Sang H, Charbord P, Souyri M, Robin C, and Jaffredo T

Subjects

Animals, Animals, Genetically Modified, Aorta cytology, Aorta metabolism, Bone Marrow Cells cytology, Cell Differentiation, Chickens, Embryo, Mammalian, Embryo, Nonmammalian, Female, Fetus, Gene Expression Profiling, Gene Regulatory Networks, Hemangioblasts cytology, Hematopoietic Stem Cell Transplantation, Hematopoietic Stem Cells cytology, Heterozygote, Homozygote, Male, Mice, Pregnancy, Yolk Sac cytology, Yolk Sac growth & development, Yolk Sac metabolism, Bone Marrow Cells metabolism, Cell Lineage genetics, Gene Expression Regulation, Developmental, Hemangioblasts metabolism, Hematopoietic Stem Cells metabolism

Abstract

It is well established that haematopoietic stem and progenitor cells (HSPCs) are generated from a transient subset of specialized endothelial cells termed haemogenic, present in the yolk sac, placenta and aorta, through an endothelial-to-haematopoietic transition (EHT). HSPC generation via EHT is thought to be restricted to the early stages of development. By using experimental embryology and genetic approaches in birds and mice, respectively, we document here the discovery of a bone marrow haemogenic endothelium in the late fetus/young adult. These cells are capable of de novo producing a cohort of HSPCs in situ that harbour a very specific molecular signature close to that of aortic endothelial cells undergoing EHT or their immediate progenies, i.e., recently emerged HSPCs. Taken together, our results reveal that HSPCs can be generated de novo past embryonic stages. Understanding the molecular events controlling this production will be critical for devising innovative therapies.

Published

2019

7. Mechanosensation of Tight Junctions Depends on ZO-1 Phase Separation and Flow.

Author

Schwayer C, Shamipour S, Pranjic-Ferscha K, Schauer A, Balda M, Tada M, Matter K, and Heisenberg CP

Subjects

Actin Cytoskeleton genetics, Actomyosin genetics, Animals, Animals, Genetically Modified genetics, Animals, Genetically Modified growth & development, Embryo, Nonmammalian physiology, Gene Expression Regulation, Developmental genetics, Humans, Membrane Proteins genetics, Mice, Phosphoproteins genetics, Protein Binding, Tight Junctions physiology, Yolk Sac growth & development, Yolk Sac metabolism, Zebrafish genetics, Zebrafish growth & development, Embryonic Development genetics, Mechanotransduction, Cellular genetics, Tight Junctions genetics, Zonula Occludens-1 Protein genetics

Abstract

Cell-cell junctions respond to mechanical forces by changing their organization and function. To gain insight into the mechanochemical basis underlying junction mechanosensitivity, we analyzed tight junction (TJ) formation between the enveloping cell layer (EVL) and the yolk syncytial layer (YSL) in the gastrulating zebrafish embryo. We found that the accumulation of Zonula Occludens-1 (ZO-1) at TJs closely scales with tension of the adjacent actomyosin network, revealing that these junctions are mechanosensitive. Actomyosin tension triggers ZO-1 junctional accumulation by driving retrograde actomyosin flow within the YSL, which transports non-junctional ZO-1 clusters toward the TJ. Non-junctional ZO-1 clusters form by phase separation, and direct actin binding of ZO-1 is required for stable incorporation of retrogradely flowing ZO-1 clusters into TJs. If the formation and/or junctional incorporation of ZO-1 clusters is impaired, then TJs lose their mechanosensitivity, and consequently, EVL-YSL movement is delayed. Thus, phase separation and flow of non-junctional ZO-1 confer mechanosensitivity to TJs., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2019

8. Heat shock protein 60 regulates yolk sac erythropoiesis in mice.

Author

Duan Y, Wang H, Mitchell-Silbaugh K, Cai S, Fan F, Li Y, Tang H, Wang G, Fang X, Liu J, Jia N, Jing R, and Ouyang K

Subjects

Anemia genetics, Animals, Apoptosis drug effects, Apoptosis genetics, Chaperonin 60 genetics, Cyclosporine pharmacology, Embryo, Mammalian metabolism, Embryo, Mammalian physiopathology, Endothelial Cells metabolism, Erythrocytes metabolism, Erythropoiesis physiology, Female, Gene Expression Regulation, Developmental genetics, Hematopoietic Stem Cells metabolism, Membrane Potential, Mitochondrial drug effects, Membrane Potential, Mitochondrial genetics, Mice, Mitochondrial Proteins genetics, Pregnancy, Voltage-Dependent Anion Channels drug effects, Voltage-Dependent Anion Channels metabolism, Yolk Sac growth & development, Yolk Sac metabolism, Yolk Sac pathology, Chaperonin 60 metabolism, Embryonic Development genetics, Erythropoiesis genetics, Mitochondrial Proteins metabolism, Yolk Sac cytology

Abstract

The yolk sac is the first site of blood-cell production during embryonic development in both murine and human. Heat shock proteins (HSPs), including HSP70 and HSP27, have been shown to play regulatory roles during erythropoiesis. However, it remains unknown whether HSP60, a molecular chaperone that resides mainly in mitochondria, could also regulate early erythropoiesis. In this study, we used Tie2-Cre to deactivate the Hspd1 gene in both hematopoietic and vascular endothelial cells, and found that Tie2-Cre + Hspd1 f/f (HSP60 CKO ) mice were embryonic lethal between the embryonic day 10.5 (E10.5) and E11.5, exhibiting growth retardation, anemia, and vascular defects. Of these, anemia was observed first, independently of vascular and growth phenotypes. Reduced numbers of erythrocytes, as well as an increase in cell apoptosis, were found in the HSP60 CKO yolk sac as early as E9.0, indicating that deletion of HSP60 led to abnormality in yolk sac erythropoiesis. Deletion of HSP60 was also able to reduce mitochondrial membrane potential and the expression of the voltage-dependent anion channel (VDAC) in yolk sac erythrocytes. Furthermore, cyclosporine A (CsA), which is a well-recognized modulator in regulating the opening of the mitochondrial permeability transition pore (mPTP) by interacting with Cyclophilin D (CypD), could significantly decrease cell apoptosis and partially restore VDAC expression in mutant yolk sac erythrocytes. Taken together, we demonstrated an essential role of HSP60 in regulating yolk sac cell survival partially via a mPTP-dependent mechanism.

Published

2019

9. Expression of avian β-defensin mRNA in the chicken yolk sac.

Author

Zhang H and Wong EA

Subjects

Animals, Avian Proteins immunology, Chick Embryo, Chickens, Endoderm cytology, Endoderm immunology, Endoderm metabolism, Epithelial Cells immunology, Epithelial Cells metabolism, RNA, Messenger metabolism, Yolk Sac growth & development, Yolk Sac metabolism, beta-Defensins immunology, Avian Proteins genetics, Embryonic Development immunology, Gene Expression Regulation, Developmental immunology, Yolk Sac immunology, beta-Defensins genetics

Abstract

The chicken yolk sac (YS) plays an important role in nutrient absorption and immune function for the developing embryo. The avian β-defensins (AvBD) are cationic peptides that are important members of the innate immune system. The objective of this study was to profile AvBD mRNA expression patterns and distribution of cells expressing AvBD mRNA in the chicken YS. Expression of AvBD1, 2, 7, and 10 mRNA was low at embryonic day 7 (e7), increased to e9 through e13 and then declined to e19. Using in situ hybridization, AvBD10 mRNA was found to be expressed in endodermal epithelial cells, while AvBD1, 2, and 7 mRNA were expressed in heterophils. The developmental expression pattern and distribution of AvBD mRNA in the YS reveals the importance of these genes to protection of the developing chick embryo., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

10. The human yolk sac size reflects involvement in embryonic and fetal growth regulation.

Author

Odland Karlsen H, Johnsen SL, Rasmussen S, Trae G, Reistad HMT, and Kiserud T

Subjects

Adult, Biometry methods, Body Composition, Correlation of Data, Female, Fetal Development physiology, Fetal Weight, Gestational Age, Humans, Pregnancy, Prenatal Care methods, Ultrasonography, Prenatal methods, Body Mass Index, Embryonic Development physiology, Pregnancy Trimester, First physiology, Yolk Sac diagnostic imaging, Yolk Sac growth & development

Abstract

Introduction: The human yolk sac provides the embryo with stem cells, nutrients, and gas exchange. We hypothesized that more maternal resources, reflected in body size and body composition, would condition a a larger yolk sac, ensuring resources for the growing embryo. Thus, we aimed to determine the relation between maternal size in early pregnancy and yolk sac size., Material and Methods: This subsidiary study was embedded in the multinational World Health Organization fetal growth project that included healthy women with a body mass index of 18-30, reliable information of their regular last menstrual period and singleton pregnancies. Yolk sac diameter, crown-rump length, and maternal height, weight, body mass index, and body composition were assessed before 13 weeks of gestation, and the fetal biometry was repeated during the pregnancy., Results: Of 140 participants, 122 with a successful yolk sac measurement were entered in the present analysis. Maternal weight was negatively associated with the yolk sac diameter (P = 0.007) and so was maternal height (P = 0.011), fat mass (P = 0.037), and lean body mass (P = 0.018), but not body mass index (P = 0.121). Significant effects were predominantly due to the female embryos and could be traced at 24 weeks of gestation. That is, a small yolk sac : crown-rump length ratio in early pregnancy was associated with a high fetal abdominal circumference (P < 0.001) and estimated fetal weight (P = 0.001)., Conclusions: The human yolk sac is involved in the regulation of embryonic growth, but contrary to our hypothesis, the yolk sac has a compensatory capacity, being larger when the mothers are smaller; and the effect can be traced on fetal size at 24 weeks of gestation., (© 2018 Nordic Federation of Societies of Obstetrics and Gynecology.)

Published

2019

11. Fetal-derived macrophages dominate in adult mammary glands.

Author

Jäppinen N, Félix I, Lokka E, Tyystjärvi S, Pynttäri A, Lahtela T, Gerke H, Elima K, Rantakari P, and Salmi M

Subjects

Animals, Cell Differentiation, Female, Fetus cytology, Liver cytology, Liver growth & development, Male, Mice, Mice, Transgenic, Models, Animal, Yolk Sac cytology, Yolk Sac growth & development, Cell Lineage physiology, Macrophages physiology, Mammary Glands, Animal cytology, Monocytes physiology, Morphogenesis physiology

Abstract

Macrophages serve multiple functions including immune regulation, morphogenesis, tissue homeostasis and healing reactions. The current paradigm holds that mammary gland macrophages first arise postnatally during the prepubertal period from the bone marrow-derived monocytes. Here we delineate the origins of tissue-resident mammary gland macrophages using high-dimension phenotypic analyses, cell-fate mapping experiments, gene-deficient mice lacking selective macrophage subtypes, and antibody-based depletion strategies. We show that tissue-resident macrophages are found in mammary glands already before birth, and that the yolk sac-derived and fetal liver-derived macrophages outnumber the adult-derived macrophages in the mammary gland also in the adulthood. In addition, fetal-derived mammary gland macrophages have a characteristic phenotype, display preferential periductal and perivascular localization, and are highly active in scavenging. These findings identify fetal-derived macrophages as the predominant leukocyte type in the adult mammary gland stroma, and reveal previously unknown complexity of macrophage biology in the breast.

Published

2019

12. Debate ethics of embryo models from stem cells.

Author

Rivron N, Pera M, Rossant J, Martinez Arias A, Zernicka-Goetz M, Fu J, van den Brink S, Bredenoord A, Dondorp W, de Wert G, Hyun I, Munsie M, and Isasi R

Subjects

Animals, Embryo, Mammalian cytology, Embryo, Mammalian embryology, Female, Fertilization in Vitro, Humans, Mice, Placenta cytology, Placentation, Pregnancy, Reproductive Medicine ethics, Reproductive Medicine legislation & jurisprudence, Reproductive Medicine trends, Synthetic Biology ethics, Synthetic Biology legislation & jurisprudence, Synthetic Biology trends, Yolk Sac cytology, Yolk Sac growth & development, Embryo Implantation, Embryo Research ethics, Embryo Research legislation & jurisprudence, Embryonic Development, Models, Biological, Stem Cell Research ethics, Stem Cell Research legislation & jurisprudence

Published

2018

13. The origins and homeostasis of monocytes and tissue-resident macrophages in physiological situation.

Author

Zhao Y, Zou W, Du J, and Zhao Y

Subjects

Bone Marrow Cells cytology, Cell Lineage genetics, Cell Lineage immunology, Cellular Microenvironment immunology, Genetic Heterogeneity, Humans, Immunity, Innate genetics, Infections genetics, Infections pathology, Inflammation genetics, Inflammation pathology, Liver growth & development, Liver immunology, Macrophages cytology, Monocytes cytology, Organogenesis genetics, Organogenesis immunology, Yolk Sac growth & development, Yolk Sac immunology, Infections immunology, Inflammation immunology, Macrophages immunology, Monocytes immunology

Abstract

Monocytes and macrophages are critical effectors and regulators of innate immune response. They not only play crucial and distinctive roles in homeostasis, but also contribute to some pathologic processes. The heterogeneity of the macrophage lineage has been widely recognized and, in part, is a result of the specialization of resident macrophages in particular tissue microenvironments. Monocytes are usually known to originate in the bone marrow from a common myeloid progenitor that is shared with neutrophils, and they are then released into the peripheral blood. However, the origin of tissue-resident macrophages, crucial for homeostasis and immunity, has remained controversial until recently. During embryonic organogenesis, macrophages derived from yolk sac and fetal liver precursors are seeded throughout tissues, persisting in the adulthood as resident, self-maintaining populations. After birth, bone marrow-derived monocytes can replenish tissue resident macrophages following injury, infection and inflammation. In this review, we will mainly summarize our current understanding on the origin, ontogeny and fates of tissue macrophages and will briefly discuss the molecular regulation of resident macrophage homeostasis in physiological situation., (© 2018 Wiley Periodicals, Inc.)

Published

2018

14. Kit ligand has a critical role in mouse yolk sac and aorta-gonad-mesonephros hematopoiesis.

Author

Azzoni E, Frontera V, McGrath KE, Harman J, Carrelha J, Nerlov C, Palis J, Jacobsen SEW, and de Bruijn MF

Subjects

Animals, Aorta growth & development, Cell Lineage genetics, Cell Proliferation genetics, Endothelial Cells cytology, Endothelial Cells metabolism, Erythropoiesis genetics, Gene Expression Regulation, Developmental genetics, Gonads growth & development, Mesonephros growth & development, Mice, Mice, Transgenic, Stem Cell Niche genetics, Yolk Sac growth & development, Embryonic Development genetics, Hematopoiesis genetics, Hematopoietic Stem Cells cytology, Stem Cell Factor genetics

Abstract

Few studies report on the in vivo requirement for hematopoietic niche factors in the mammalian embryo. Here, we comprehensively analyze the requirement for Kit ligand (Kitl) in the yolk sac and aorta-gonad-mesonephros (AGM) niche. In-depth analysis of loss-of-function and transgenic reporter mouse models show that Kitl-deficient embryos harbor decreased numbers of yolk sac erythro-myeloid progenitor (EMP) cells, resulting from a proliferation defect following their initial emergence. This EMP defect causes a dramatic decrease in fetal liver erythroid cells prior to the onset of hematopoietic stem cell (HSC)-derived erythropoiesis, and a reduction in tissue-resident macrophages. Pre-HSCs in the AGM require Kitl for survival and maturation, but not proliferation. Although Kitl is expressed widely in all embryonic hematopoietic niches, conditional deletion in endothelial cells recapitulates germline loss-of-function phenotypes in AGM and yolk sac, with phenotypic HSCs but not EMPs remaining dependent on endothelial Kitl upon migration to the fetal liver. In conclusion, our data establish Kitl as a critical regulator in the in vivo AGM and yolk sac endothelial niche., (© 2018 The Authors. Published under the terms of the CC BY 4.0 license.)

Published

2018

15. Embryonic cholesterol esterification is regulated by a cyclic AMP-dependent pathway in yolk sac membrane-derived endodermal epithelial cells.

Author

Wang SH, Lin HJ, Lin YY, Chen YJ, Pan YH, Tung CT, Mersmann HJ, and Ding ST

Subjects

Animals, Cell Membrane genetics, Cell Membrane metabolism, Cholesterol Esters genetics, Coturnix genetics, Cyclic AMP metabolism, Endoderm growth & development, Endoderm metabolism, Epithelial Cells metabolism, Esterification genetics, Glucagon metabolism, Hepatocytes metabolism, Promoter Regions, Genetic, Sterol O-Acyltransferase metabolism, Yolk Sac growth & development, Yolk Sac metabolism, Cholesterol metabolism, Cholesterol Esters metabolism, Coturnix embryology, Embryonic Development genetics

Abstract

During avian embryonic development, endodermal epithelial cells (EECs) absorb yolk through the yolk sac membrane. Sterol O-acyltransferase (SOAT) is important for esterification and yolk lipid utilization during development. Because the major enzyme for yolk sac membrane cholesteryl ester synthesis is SOAT1, we cloned the avian SOAT1 promoter and elucidated the cellular functions of SOAT1. Treatments with either glucagon, isobutylmethylxanthine (IBMX), an adenylate cyclase activator (forskolin), a cAMP analog (dibutyryl-cAMP), or a low glucose concentration all increased SOAT1 mRNA accumulation in EECs from Japanese quail, suggesting that SOAT1 is regulated by nutrients and hormones through a cAMP-dependent pathway. Activity of protein kinase A (PKA) was increased by IBMX, whereas co-treatment with the PKA inhibitor, H89 negated the increase in PKA activity. Cyclic AMP-induced EECs had greater cholesterol esterification than untreated EECs. By promoter deletion and point-mutation, the cAMP-response element (-349 to -341 bp) was identified as critical in mediating transcription of SOAT1. In conclusion, expression of SOAT1 was regulated by a cAMP-dependent pathway and factors that increase PKA will increase SOAT1 to improve the utilization of lipids in the EECs and potentially modify embryonic growth.

Published

2017

16. Placentation in the colugos Cynocephalus volans and Galeopterus variegatus (Dermoptera) and the transition from labyrinthine to villous placentation in primates.

Author

Carter AM and Mess AM

Subjects

Animals, Eutheria anatomy & histology, Female, Pregnancy, Biological Evolution, Eutheria physiology, Placenta anatomy & histology, Placentation, Yolk Sac growth & development

Abstract

Introduction: Phylogenetics and genomics place colugos as the sister group to primates. Therefore their placentation is of interest in an evolutionary perspective. Previous accounts are fragmentary, not readily accessible and sometimes contradictory., Methods: We have examined archival material covering the early development of fetal membranes and placenta, the fate of the yolk sac and definitive placentation., Results: Initially the trophoblast extended over a rather broad but shallow area, enclosing maternal blood spaces. After expansion of the exocoelom it became covered by somatic mesoderm. The mature chorioallantoic placenta was haemochorial and characterized by a labyrinth with markedly dilated maternal blood spaces. Blood vessels appeared in the splanchnopleure early in development and later extended to the yolk sac, but we found no evidence of a choriovitelline placenta at any stage of gestation. There was, however, an extensive paraplacenta., Conclusions: A choriovitelline placenta is not formed early in gestation nor is it present at term. Early in development invasive trophoblast spreads laterally to form a trophoblastic plate. We found evidence to support the idea that the colugo placenta is intermediate between the labyrinthine placenta of rodents and the trabecular type of Neotropical primates., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

17. Different mechanisms of Na + uptake and ammonia excretion by the gill and yolk sac epithelium of early life stage rainbow trout.

Author

Zimmer AM, Wilson JM, Wright PA, Hiroi J, and Wood CM

Subjects

Animals, Epithelium growth & development, Epithelium metabolism, Fish Proteins metabolism, Gills growth & development, Larva growth & development, Larva metabolism, Oncorhynchus mykiss growth & development, Proton-Translocating ATPases metabolism, Skin metabolism, Sodium-Hydrogen Exchangers metabolism, Sodium-Potassium-Exchanging ATPase metabolism, Yolk Sac growth & development, Ammonia metabolism, Gills metabolism, Oncorhynchus mykiss metabolism, Sodium metabolism, Yolk Sac metabolism

Abstract

In rainbow trout, the dominant site of Na + uptake ( J Na,in ) and ammonia excretion ( J amm ) shifts from the skin to the gills over development. Post-hatch (PH; 7 days post-hatch) larvae utilize the yolk sac skin for physiological exchange, whereas by complete yolk sac absorption (CYA; 30 days post-hatch), the gill is the dominant site. At the gills, J Na,in and J amm occur via loose Na + /NH 4 + exchange, but this exchange has not been examined in the skin of larval trout. Based on previous work, we hypothesized that, contrary to the gill model, J Na,in by the yolk sac skin of PH trout occurs independently of J amm Following a 12 h exposure to high environmental ammonia (HEA; 0.5 mmol l -1 NH 4 HCO 3 ; 600 µmol l -1 Na + ; pH 8), J amm by the gills of CYA trout and the yolk sac skin of PH larvae, which were isolated using divided chambers, increased significantly. However, this was coupled to an increase in J Na,in across the gills only, supporting our hypothesis. Moreover, gene expression of proteins involved in J Na,in [Na + /H + -exchanger-2 (NHE2) and H + -ATPase] increased in response to HEA only in the CYA gills. We further identified expression of the apical Rhesus (Rh) proteins Rhcg2 in putative pavement cells and Rhcg1 (co-localized with apical NHE2 and NHE3b and Na + /K + -ATPase) in putative peanut lectin agglutinin-positive (PNA + ) ionocytes in gill sections. Similar Na + /K + -ATPase-positive cells expressing Rhcg1 and NHE3b, but not NHE2, were identified in the yolk sac epithelium. Overall, our findings suggest that the mechanisms of J Na,in and J amm by the dominant exchange epithelium at two distinct stages of early development are fundamentally different., (© 2017. Published by The Company of Biologists Ltd.)

Published

2017

18. Distinct regulatory networks control the development of macrophages of different origins in zebrafish.

Author

Yu T, Guo W, Tian Y, Xu J, Chen J, Li L, and Wen Z

Subjects

Amino Acid Sequence, Animals, Aorta cytology, Aorta growth & development, Aorta immunology, Cell Differentiation, Cell Lineage genetics, Embryo, Nonmammalian, Humans, Immunity, Innate, Interferon Regulatory Factors genetics, Interferon Regulatory Factors immunology, Macrophages cytology, Mesonephros cytology, Mesonephros growth & development, Mesonephros immunology, Mice, Organ Specificity, Protein Isoforms genetics, Protein Isoforms immunology, Proto-Oncogene Proteins genetics, Proto-Oncogene Proteins c-ets genetics, Proto-Oncogene Proteins c-ets immunology, Signal Transduction, Trans-Activators genetics, Yolk Sac cytology, Yolk Sac growth & development, Yolk Sac immunology, Zebrafish genetics, Zebrafish growth & development, Cell Lineage immunology, Gene Expression Regulation, Developmental, Gene Regulatory Networks, Macrophages immunology, Proto-Oncogene Proteins immunology, Trans-Activators immunology, Zebrafish immunology

Abstract

Macrophages are key components of the innate immune system and play pivotal roles in immune response, organ development, and tissue homeostasis. Studies in mice and zebrafish have shown that tissue-resident macrophages derived from different hematopoietic origins manifest distinct developmental kinetics and colonization potential, yet the genetic programs controlling the development of macrophages of different origins remain incompletely defined. In this study, we use zebrafish, where tissue-resident macrophages arise from the rostral blood island (RBI) and ventral wall of dorsal aorta (VDA), the zebrafish hematopoietic tissue equivalents to the mouse yolk sac and aorta-gonad-mesonephros for myelopoiesis, to address this issue. We show that RBI- and VDA-born macrophages are orchestrated by distinctive regulatory networks formed by the E-twenty-six (Ets) transcription factors Pu.1 and Spi-b, the zebrafish ortholog of mouse spleen focus forming virus proviral integration oncogene B (SPI-B), and the helix-turn-helix DNA-binding domain containing protein Irf8. Epistatic studies document that during RBI macrophage development, Pu.1 acts upstream of Spi-b, which, upon induction by Pu.1, partially compensates the function of Pu.1. In contrast, Pu.1 and Spi-b act in parallel and cooperatively to regulate the development of VDA-derived macrophages. Interestingly, these two distinct regulatory networks orchestrate the RBI- and VDA-born macrophage development largely by regulating a common downstream gene, Irf8. Our study indicates that macrophages derived from different origins are governed by distinct genetic networks formed by the same repertoire of myeloid-specific transcription factors., (© 2017 by The American Society of Hematology.)

Published

2017

19. Histomorphological changes in digestive tract of golden mahseer (Tor putitora) during different developmental stages.

Author

Sharma P, Akhtar MS, Singh AK, Das P, and Sarma D

Subjects

Animals, Cyprinidae anatomy & histology, Digestive System anatomy & histology, Female, Larva growth & development, Male, Yolk Sac anatomy & histology, Yolk Sac growth & development, Cyprinidae growth & development, Digestive System growth & development

Abstract

Histomorphological changes in digestive tract of golden mahseer (Tor putitora) were examined in larvae [starting from hatching to 45 days post-hatching (dph)], fry, fingerling, and adult. Digestive tract appeared during hatching, on the dorsal side of yolk sac, as a straight tube with a narrow lumen. Mouth opening and appearance of liver and pancreas were observed at 2 dph, and subsequently anal opening, appearance of goblet cells in esophagus, and posterior intestine were evident at 3 dph. The remodeling of oral cavity in terms of epithelial stratification, appearance of taste buds, and goblet cells were observed in a window of 4-5 dph. Intestinal folding was found to be initiated at 8 dph. From 12 to 45 dph, thickening of oral and esophageal mucosal/extramucosal layers, increase in intestinal folding, increases in the density of goblet cells in entire gut were observed. Within the same time window, other histological changes such as disappearance of vacuoles in liver, and abundance of zymogen granules in pancreas were also observed. Supranuclear vesicles in mid-to-posterior intestine were found to be prominent from first feeding to 45 dph; however, this phenomenon was no longer evident in fry and fingerling. Overall, the increase in intestinal folding and complexity of extramucosal layer were found to be continuous from the first appearance to adult, and this inferred the fact that the nutritional physiology, in terms of digestion and assimilation, progressively changes throughout the life stages of golden mahseer. Findings of this study will, therefore, help in preparing diets for different life stages of this fish, and in addition, the present information widens the understanding of digestive physiology of golden mahseer.

Published

2016

20. Pias1 is essential for erythroid and vascular development in the mouse embryo.

Author

Constanzo JD, Deng M, Rindhe S, Tang KJ, Zhang CC, and Scaglioni PP

Subjects

Animals, Cell Differentiation, Cells, Cultured, Embryonic Development genetics, Endothelial Cells cytology, Erythropoiesis genetics, Fetal Growth Retardation genetics, Fetal Growth Retardation pathology, Gene Expression Regulation, Developmental, Genes, Lethal, Germ Layers cytology, Heart embryology, Macrophages cytology, Mice, Myelopoiesis genetics, Myelopoiesis physiology, Neovascularization, Physiologic genetics, Penetrance, Protein Inhibitors of Activated STAT deficiency, Protein Inhibitors of Activated STAT genetics, Sumoylation, Transcription Factors physiology, Yolk Sac blood supply, Yolk Sac growth & development, Embryonic Development physiology, Erythropoiesis physiology, Neovascularization, Physiologic physiology, Protein Inhibitors of Activated STAT physiology

Abstract

The protein inhibitor of activated STAT-1 (PIAS1) is one of the few known SUMO E3 ligases. PIAS1 has been implicated in several biological processes including repression of innate immunity and DNA repair. However, PIAS1 function during development and tissue differentiation has not been studied. Here, we report that Pias1 is required for proper embryonic development. Approximately 90% of Pias1 null embryos die in utero between E10.5 and E12.5. We found significant apoptosis within the yolk sac (YS) blood vessels and concomitant loss of red blood cells (RBCs) resulting in profound anemia. In addition, Pias1 loss impairs YS angiogenesis and results in defective capillary plexus formation and blood vessel occlusions. Moreover, heart development is impaired as a result of loss of myocardium muscle mass. Accordingly, we found that Pias1 expression in primary myoblasts enhances the induction of cardiac muscle genes MyoD, Myogenin and Myomaker. PIAS1 protein regulation of cardiac gene transcription is dependent on transcription factors Myocardin and Gata-4. Finally, endothelial cell specific inactivation of Pias1 in vivo impairs YS erythrogenesis, angiogenesis and recapitulates loss of myocardium muscle mass. However, these defects are not sufficient to recapitulate the lethal phenotype of Pias1 null embryos. These findings highlight Pias1 as an essential gene for YS erythropoiesis and vasculogenesis in vivo., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2016

21. Early development and allometric growth patterns of the grumatã (Prochilodus vimboides Kner, 1859).

Author

Souza G, Melo EJ, Caramaschi EP, Andrade DR, and Monteiro LR

Subjects

Animals, Cell Size, Characiformes growth & development, Embryo, Nonmammalian cytology, Female, Fertilization, Larva cytology, Larva growth & development, Male, Ovum cytology, Time Factors, Yolk Sac growth & development, Characiformes embryology, Embryo, Nonmammalian embryology, Embryonic Development physiology, Ovum growth & development

Abstract

The objective of this study was to characterize the early development and allometric growth of the grumatã (Prochilodus vimboides). We describe a sample of 266 eggs and larvae obtained through induced spawning. The eggs were spherical (mean 3.7 mm diameter), exhibited a yellow yolk and were non-adhesive and pelagic after fertilization and hydration. The time elapsed between the early cleavage and post-flexion stages was considered short (328 hours, 8054 hour-degrees) in regard to the development times of other Neotropical rheophilic species, but time to hatching was considerably longer than in other Prochilodus species. The most notable anatomical changes were observed between the end of the yolk larval stage and the beginning of the pre-flexion stage, when the larvae displayed directed swimming and the digestive system became functional, enabling the transition from endogenous to exogenous feeding. After hatching, the larvae grew from 6.04 to 15.15 mm in total length average. Two growth phases were observed at this stage: a non-linear asymptotic curve in yolk-sac larvae, and a linear constant-rate growth phase after exogenous feeding started. Allometric growth related to standard length was positive for head length, negative for eye diameter, and switched between phases from negative to positive in body depth and head height. Morphological development and allometric growth in different larval phases impose drastic anatomical and physiological changes that are synchronic with habitat changes and the flood cycles during the reproductive period.

Published

2016

22. Pdgfrb-Cre targets lymphatic endothelial cells of both venous and non-venous origins.

Author

Ulvmar MH, Martinez-Corral I, Stanczuk L, and Mäkinen T

Subjects

Animals, Cell Lineage, Gene Targeting, Integrases genetics, Lymphatic Vessels metabolism, Mice, Transgenic, Myocytes, Smooth Muscle metabolism, Veins growth & development, Veins metabolism, Yolk Sac growth & development, Yolk Sac metabolism, Endothelial Cells metabolism, Heart growth & development, Lymphangiogenesis genetics, Receptor, Platelet-Derived Growth Factor beta genetics

Abstract

The Pdgfrb-Cre line has been used as a tool to specifically target pericytes and vascular smooth muscle cells. Recent studies showed additional targeting of cardiac and mesenteric lymphatic endothelial cells (LECs) by the Pdgfrb-Cre transgene. In the heart, this was suggested to provide evidence for a previously unknown nonvenous source of LECs originating from yolk sac (YS) hemogenic endothelium (HemEC). Here we show that Pdgfrb-Cre does not, however, target YS HemEC or YS-derived erythro-myeloid progenitors (EMPs). Instead, a high proportion of ECs in embryonic blood vessels of multiple organs, as well as venous-derived LECs were targeted. Assessment of temporal Cre activity using the R26-mTmG double reporter suggested recent occurrence of Pdgfrb-Cre recombination in both blood and lymphatic ECs. It thus cannot be excluded that Pdgfrb-Cre mediated targeting of LECs is due to de novo expression of the Pdgfrb-Cre transgene or their previously established venous endothelial origin. Importantly, Pdgfrb-Cre targeting of LECs does not provide evidence for YS HemEC origin of the lymphatic vasculature. Our results highlight the need for careful interpretation of lineage tracing using constitutive Cre lines that cannot discriminate active from historical expression. The early vascular targeting by the Pdgfrb-Cre also warrants consideration for its use in studies of mural cells. genesis 54:350-358, 2016. © 2016 The Authors. Genesis Published by Wiley Periodicals, Inc., (© 2016 The Authors. Genesis Published by Wiley Periodicals, Inc.)

Published

2016

23. The early pregnancy volume measurements in predicting pregnancy outcome.

Author

Batmaz G, Aksoy A, Aydin S, Ozcan P, Dane C, and Dane B

Subjects

Abortion, Spontaneous, Adult, Cohort Studies, Female, Gestational Age, Gestational Sac diagnostic imaging, Humans, Logistic Models, Organ Size, Pregnancy, Pregnancy Trimester, First, Prognosis, Prospective Studies, Ultrasonography, Prenatal methods, Yolk Sac diagnostic imaging, Young Adult, Crown-Rump Length, Fetal Development, Gestational Sac growth & development, Pregnancy Outcome, Yolk Sac growth & development

Abstract

Objective: The authors' aim was to develop a logistic regression model based on the ultrasonographic parameters on maternities which are showing a healthy improvement process during the first trimester of pregnancy., Material and Methods: Using 2D transvaginal ultrasound imaging, the crown rump length (CRL), yolk sac (YS), and gestational sac (GS) diameters were recorded in 225 women with gestational age < 11 weeks. Simplified V = 0.523 x length x height x width formula was used for the volume calculations. The results which ended in abortion were not included in the study., Results: Linear regression analyses between yolk sac volume (YSV), YSV = 0.026 + 0.0018 x CRL (r²: 0.15; p < 0.001), gestational sac volume (GSV), GSV= -9.6 + 1.7 x CRL (r²: 0.52; p < 0.001), and embryo volume (EV), EV = -1.64 + 0.18 x CRL (r²: 0.4; p < 0.001), and CRL was made and a linear relationship was detected. The volume measurements showed a meaningful correlation with the week of pregnancy. The space in the GS (GS volume-embryo volume) increased as the age of pregnancy became older (r² = 0.46; p < 0.001)., Discussion: The first volume value was made in the first trimester by transvaginal ultrasonography, which showed a correlation with the age of pregnancy.

Published

2016

24. Mouse prenatal platelet-forming lineages share a core transcriptional program but divergent dependence on MPL.

Author

Potts KS, Sargeant TJ, Dawson CA, Josefsson EC, Hilton DJ, Alexander WS, and Taoudi S

Subjects

Animals, Blood Platelets cytology, Cell Differentiation, Cell Lineage genetics, Embryonic Development genetics, GATA1 Transcription Factor deficiency, GATA1 Transcription Factor genetics, Gene Deletion, Hematopoietic Stem Cells cytology, Hematopoietic Stem Cells metabolism, Megakaryocytes cytology, Mice, Mice, Knockout, NF-E2 Transcription Factor, p45 Subunit deficiency, NF-E2 Transcription Factor, p45 Subunit genetics, Receptors, Thrombopoietin metabolism, Transcription, Genetic, Yolk Sac cytology, Yolk Sac growth & development, Blood Platelets metabolism, Gene Expression Regulation, Developmental, Megakaryocytes metabolism, Receptors, Thrombopoietin genetics, Thrombopoiesis genetics, Yolk Sac metabolism

Abstract

The thrombopoietic environment of the neonate is established during prenatal life; therefore, a comprehensive understanding of platelet-forming cell development during embryogenesis is critical to understanding the etiology of early-onset thrombocytopenia. The recent discovery that the first platelet-forming cells of the conceptus are not megakaryocytes (MKs) but diploid platelet-forming cells (DPFCs) revealed a previously unappreciated complexity in thrombopoiesis. This raises important questions, including the following. When do conventional MKs appear? Do pathogenic genetic lesions of adult MKs affect DPFCs? What role does myeloproliferative leukemia virus (MPL), a key regulator of adult megakaryopoiesis, play in prenatal platelet-forming lineages? We performed a comprehensive study to determine the spatial and temporal appearance of prenatal platelet-forming lineages. We demonstrate that DPFCs originate in the yolk sac and then rapidly migrate to other extra- and intraembryonic tissues. Using gene disruption models of Gata1 and Nfe2, we demonstrate that perturbing essential adult MK genes causes an analogous phenotype in the early embryo before the onset of hematopoietic stem/progenitor cell-driven (definitive) hematopoiesis. Finally, we present the surprising finding that DPFC and MK commitment from their respective precursors is MPL independent in vivo but that completion of MK differentiation and establishment of the prenatal platelet mass is dependent on MPL expression., (© 2015 by The American Society of Hematology.)

Published

2015

25. Ribonuclease like 5 regulates zebrafish yolk extension by suppressing a p53-dependent DNA damage response pathway.

Author

Zhai Y, Zhao X, Sheng J, Gao X, Ou Z, and Xu Z

Subjects

Animals, Embryo, Nonmammalian, Embryonic Development physiology, Gene Knockdown Techniques, Ribonuclease, Pancreatic genetics, Tumor Suppressor Protein p53 metabolism, Yolk Sac growth & development, Yolk Sac metabolism, Zebrafish Proteins metabolism, DNA Damage, Ribonuclease, Pancreatic metabolism, Tumor Suppressor Protein p53 genetics, Yolk Sac physiology, Zebrafish physiology, Zebrafish Proteins genetics

Abstract

Ribonuclease like 5 (Rnasel5) is a novel member of the zebrafish ribonuclease A family and its expression is increased during early embryogenesis. However, the in vivo biological function of Rnasel5 remains to be elucidated. Here, we report that knockdown of Rnasel5 by morhpolinos caused shrunken yolk extension as well as increased DNA damage at yolk syncytial layer and external tissue layers via the activation of p53 pathway. In addition, the morphological defects caused by Rnasel5 knockdown can be partially rescued by mRNA injection. Our findings provide the first functional characterization of Rnasel5 in zebrafish development and reveal its critical role in yolk extension by modulation of the p53 pathway., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015

26. Distinct Sources of Hematopoietic Progenitors Emerge before HSCs and Provide Functional Blood Cells in the Mammalian Embryo.

Author

McGrath KE, Frame JM, Fegan KH, Bowen JR, Conway SJ, Catherman SC, Kingsley PD, Koniski AD, and Palis J

Subjects

Animals, Blood Cells cytology, Cell Lineage, Embryo, Mammalian, Gene Expression Regulation, Developmental, Mice, Yolk Sac cytology, Yolk Sac growth & development, Embryonic Development genetics, Embryonic Stem Cells, Hematopoiesis, Hematopoietic Stem Cells

Abstract

Hematopoietic potential arises in mammalian embryos before adult-repopulating hematopoietic stem cells (HSCs). At embryonic day 9.5 (E9.5), we show the first murine definitive erythro-myeloid progenitors (EMPs) have an immunophenotype distinct from primitive hematopoietic progenitors, maturing megakaryocytes and macrophages, and rare B cell potential. EMPs emerge in the yolk sac with erythroid and broad myeloid, but not lymphoid, potential. EMPs migrate to the fetal liver and rapidly differentiate, including production of circulating neutrophils by E11.5. Although the surface markers, transcription factors, and lineage potential associated with EMPs overlap with those found in adult definitive hematopoiesis, they are present in unique combinations or proportions that result in a specialized definitive embryonic progenitor. Furthermore, we find that embryonic stem cell (ESC)-derived hematopoiesis recapitulates early yolk sac hematopoiesis, including primitive, EMP, and rare B cell potential. EMPs do not have long-term potential when transplanted in immunocompromised adults, but they can provide transient adult-like RBC reconstitution., (Copyright © 2015 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2015

27. Direct Effects of Microalgae and Protists on Herring (Clupea harengus) Yolk Sac Larvae.

Author

Illing B, Moyano M, Niemax J, and Peck MA

Subjects

Animals, Fishes parasitology, Larva parasitology, Protozoan Infections parasitology, Swimming, Yolk Sac parasitology, Dinoflagellida pathogenicity, Fishes growth & development, Larva growth & development, Microalgae pathogenicity, Yolk Sac growth & development

Abstract

This study investigated effects of microalgae (Rhodomonas baltica) and heterotrophic protists (Oxyrrhis marina) on the daily growth, activity, condition and feeding success of Atlantic herring (Clupea harengus) larvae from hatch, through the end of the endogenous (yolk sac) period. Yolk sac larvae were reared in the presence and absence of microplankton and, each day, groups of larvae were provided access to copepods. Larvae reared with microalgae and protists exhibited precocious (2 days earlier) and ≥ 60% increased feeding incidence on copepods compared to larvae reared in only seawater (SW). In the absence and presence of microalgae and protists, life span and growth trajectories of yolk sac larvae were similar and digestive enzyme activity (trypsin) and nutritional condition (RNA-DNA ratio) markedly declined in all larvae directly after yolk sac depletion. Thus, microplankton promoted early feeding but was not sufficient to alter life span and growth during the yolk sac phase. Given the importance of early feeding, field programs should place greater emphasis on the protozooplankton-ichthyoplankton link to better understand match-mismatch dynamics and bottom-up drivers of year class success in marine fish.

Published

2015

28. Boric acid inhibits germination and colonization of Saprolegnia spores in vitro and in vivo.

Author

Ali SE, Thoen E, Evensen Ø, and Skaar I

Subjects

Animals, Fish Diseases parasitology, Fresh Water, In Vitro Techniques, Infections parasitology, Saprolegnia drug effects, Spores drug effects, Spores pathogenicity, Yolk Sac drug effects, Yolk Sac growth & development, Yolk Sac parasitology, Zygote drug effects, Zygote parasitology, Boric Acids pharmacology, Fish Diseases prevention & control, Infections drug therapy, Insecticides pharmacology, Saprolegnia physiology, Spores growth & development, Zygote growth & development

Abstract

Saprolegnia infections cause severe economic losses among freshwater fish and their eggs. The banning of malachite green increased the demand for finding effective alternative treatments to control the disease. In the present study, we investigated the ability of boric acid to control saprolegniosis in salmon eggs and yolk sac fry. Under in vitro conditions, boric acid was able to decrease Saprolegnia spore activity and mycelial growth in all tested concentrations above 0.2 g/L, while complete inhibition of germination and growth was observed at a concentration of 0.8 g/L. In in vivo experiments using Atlantic salmon eyed eggs, saprolegniosis was controlled by boric acid at concentrations ranging from 0.2-1.4 g/L during continuous exposure, and at 1.0-4.0 g/L during intermittent exposure. The same effect was observed on salmon yolk sac fry exposed continuously to 0.5 g/L boric acid during the natural outbreak of saprolegniosis. During the experiments no negative impact with regard to hatchability and viability was observed in either eggs or fry, which indicate safety of use at all tested concentrations. The high hatchability and survival rates recorded following the in vivo testing suggest that boric acid is a candidate for prophylaxis and control of saprolegniosis.

Published

2014

29. Delayed feeding after hatch caused compensatory increases in blood glucose concentration in fed chicks from low but not high body weight lines.

Author

Zhao X, Sumners LH, Gilbert ER, Siegel PB, Zhang W, and Cline M

Subjects

Age Factors, Animals, Body Weight, Chickens metabolism, Female, Homeostasis, Liver growth & development, Male, Organ Size, Pancreas growth & development, Sex Factors, Time Factors, Yolk Sac growth & development, Blood Glucose analysis, Chickens genetics, Chickens growth & development, Food Deprivation physiology, Selection, Genetic

Abstract

This experiment used 2 lines of chickens that have been selected 54 generations for either low (LWS) or high (HWS) 8-wk BW from the same founder population, sublines (HWR and LWR) in which selection was relaxed in generation 43 in the selected lines, and crosses (HL and LH) made from generation 54 of HWS and LWS. For 8-wk BW, the difference between lines LWS and HWS in generation 54 was approximately 10-fold, whereas for the relaxed contemporary lines they were approximately 7-fold. Three trials were designed to measure developmental, nutritional, and genetic aspects of blood glucose homeostasis during the first 2 wk posthatch. In trial 1, we measured BW, whole blood glucose (BG), and weights (relative to BW) of liver, pancreas, and yolk sac of chicks fed from day of hatch to d 15. In trial 2, we compared those traits in chicks feed-delayed 72 h posthatch and in chicks without feed delay. In trial 3, we evaluated the effect of a 16-h fast on BW and BG on d 3, 8, and 15. There were higher levels of BG in HWS than LWS, and males than females in the fed state. Delayed access to feed for 72 h after hatch was associated with a dramatic reduction in BG. Feeding triggered a compensatory response whereby LWS displayed greater BG but smaller pancreases (% BW; d 15), compared with the controls. There were maternal effects for BW in both fed and fasted states and the reciprocal crosses exhibited heterosis for BG in the fasted state. These results show that chickens selected for high or low BW differ in BG regulation during the early posthatch period.

Published

2014

30. The corn snake yolk sac becomes a solid tissue filled with blood vessels and yolk-rich endodermal cells.

Author

Elinson RP and Stewart JR

Subjects

Animals, Yolk Sac blood supply, Colubridae embryology, Yolk Sac growth & development

Abstract

The amniote egg was a key innovation in vertebrate evolution because it supports an independent existence in terrestrial environments. The egg is provisioned with yolk, and development depends on the yolk sac for the mobilization of nutrients. We have examined the yolk sac of the corn snake Pantherophis guttatus by the dissection of living eggs. In contrast to the familiar fluid-filled sac of birds, the corn snake yolk sac invades the yolk mass to become a solid tissue. There is extensive proliferation of yolk-filled endodermal cells, which associate with a meshwork of blood vessels. These novel attributes of the yolk sac of corn snakes compared with birds suggest new pathways for the evolution of the amniote egg.

Published

2014

31. Development and morphology of the inverted yolk sac in the guinea pig (Cavia porcellus).

Author

Vasconcelos BG, Favaron PO, Miglino MA, and Mess AM

Subjects

Animals, Female, Gestational Age, Placentation physiology, Pregnancy, Guinea Pigs anatomy & histology, Guinea Pigs embryology, Pregnancy, Animal, Yolk Sac anatomy & histology, Yolk Sac growth & development

Abstract

Although the guinea pig is an important animal model for human placentation, aspects of fetal nutrition are not fully understood, especially in regard to the yolk sac that is regarded to be essential for early development of the embryo. We investigated differentiation by means of histology, histochemistry, immunohistochemistry, and transmission electron microscopy. Data suggest that the guinea pig's yolk sac was not sufficiently developed to facilitate substantial fetal nutrition in early pregnancy. On Day 12, it was a flat, inverted, but avascular structure. This was followed by differentiation to form the typical, highly villous and vascularized condition of advanced gestation. Finally, the yolk sac degenerated toward term. We suggest that the guinea pig and other caviomorphs rely predominantly on hemotrophic nutrition via the placenta even in very early pregnancy. In contrast to the general pattern of mammals, histiotrophic nutrition via yolk sac routes seems to be most essential during mid-gestation., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published

2013

32. Inhibition of glutathione biosynthesis alters compartmental redox status and the thiol proteome in organogenesis-stage rat conceptuses.

Author

Harris C, Shuster DZ, Roman Gomez R, Sant KE, Reed MS, Pohl J, and Hansen JM

Subjects

Animals, Cysteine metabolism, Glutathione antagonists & inhibitors, Glutathione Disulfide metabolism, Organogenesis physiology, Proteome analysis, Rats, Reactive Oxygen Species metabolism, Sulfhydryl Compounds metabolism, Yolk Sac growth & development, Yolk Sac metabolism, Embryo, Mammalian metabolism, Glutathione biosynthesis, Oxidation-Reduction, Oxidative Stress, Proteins metabolism

Abstract

Developmental signals that control growth and differentiation are regulated by environmental factors that generate reactive oxygen species (ROS) and alter steady-state redox environments in tissues and fluids. Protein thiols are selectively oxidized and reduced in distinct spatial and temporal patterns in conjunction with changes in glutathione/glutathione disulfide (GSH/GSSG) and cysteine/cystine (Cys/CySS) redox potentials (E(h)) to regulate developmental signaling. The purpose of this study was to measure compartment-specific thiol redox status in cultured organogenesis-stage rat conceptuses and to evaluate the impact of thiol oxidation on the redox proteome. The visceral yolk sac (VYS) has the highest initial (0 h) total intracellular GSH (GSH+2GSSG) concentration (5.5 mM) and the lowest Eh (-223 mV) as determined by HPLC analysis. Total embryo (EMB) GSH concentrations ranged lower (3.2 mM) and were only slightly more oxidized than the VYS. Total GSH concentrations in yolk sac fluid (YSF) and amniotic fluid (AF) are >500-fold lower than in tissues and are highly oxidized (YSF E(h)=-121 mV and AF E(h)=-49 mV). Steady-state total Cys concentrations (Cys+2CySS) were significantly lower than GSH in tissues but were otherwise equal in VYS and EMB near 0.5 mM. On gestational day 11, total GSH and Cys concentrations in EMB and VYS increase significantly over the 6h time course while E(h) remains relatively constant. The Eh (GSH/GSSG) in YSF and AF become more reduced over time while E(h) (Cys/CySS) become more oxidized. Addition of L-buthionine-S,R-sulfoximine (BS0) to selectively inhibit GSH synthesis and mimic the effects of some GSH-depleting environmental chemicals significantly decreased VYS and EMB GSH and Cys concentrations and increased Eh over the 6h exposure period, showing a greater overall oxidation. In the YSF, BSO caused a significant increase in total Cys concentrations to 1.7 mM but did not significantly change the E(h) for Cys/CySS. A significant net oxidation was seen in the BSO-treated AF compartment after 6 h. Biotinylated iodoacetamide (BIAM) labeling of proteins revealed the significant thiol oxidation of many EMB proteins following BSO treatment. Quantitative changes in the thiol proteome, associated with developmentally relevant pathways, were detected using isotope coded affinity tag (ICAT) labeling and mass spectroscopy. Adaptive pathways were selectively enriched with increased concentrations of proteins involved in mRNA processing (splicesome) and mRNA stabilization (glycolysis, GAPDH), as well as protein synthesis (aminoacyl-tRNA) and protein folding (antigen processing, Hsp70, protein disulfide isomerase). These results show the ability of chemical and environmental modulators to selectively alter compartmental intracellular and extracellular GSH and Cys concentrations and change their corresponding E(h) within the intact viable conceptus. The altered E(h) were also of sufficient magnitude to alter the redox proteome and change relative protein concentrations, suggesting that the mechanistic links through which environmental factors inform and regulate developmental signaling pathways may be discovered using systems developmental biology techniques., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published

2013

33. Does low gas permeability of rigid-shelled gekkotan eggs affect embryonic development?

Author

Andrews RM, Thompson MB, and Greene VW

Subjects

Animals, Chorioallantoic Membrane growth & development, Chorioallantoic Membrane metabolism, Extraembryonic Membranes metabolism, Female, Lizards embryology, Oviposition, Pregnancy, Water, Yolk Sac cytology, Yolk Sac growth & development, Yolk Sac metabolism, Egg Shell metabolism, Embryo, Nonmammalian, Embryonic Development, Ovum metabolism, Oxygen metabolism

Abstract

Parchment-shelled eggs are characteristic of most squamates, including the basal clades of gekkotan lizards. The majority of gekkotan lizards, however, produce rigid-shelled eggs that are highly impermeable to gas exchange; eggs are laid in dry sites and experience a net loss of water during incubation. We tested the hypothesis that the 1,000-fold lower rate of oxygen diffusion through the shells of rigid- compared to parchment-shelled eggs imposes a physiological cost on development. To do this, we contrasted species with rigid and with parchment shells with regards to (1) rates of embryonic metabolism and (2) rates and patterns of development of the yolk sac and chorioallantois, the vascularized extra-embryonic membranes that transport oxygen to embryonic tissues. Metabolic rates of embryos from the rigid-shelled eggs of Gehyra variegata did not differ from those of the parchment-shelled eggs of Oedura lesueurii. Moreover, maximum metabolic rates of gekkotans with rigid shells did not differ from those of gekkotan or scincid lizards with parchment shells. In contrast, the yolk sac covered more of the surface area of the egg at oviposition, and the chorioallantois reached its full extent earlier for the species with rigid shelled eggs (Chondrodactylus turneri, G. variegata) than for the species with parchment-shelled eggs (Eublepharis macularius, O. lesueurii). Differences in the temporal patterns of yolk sac and chorioallantois development would thus serve to compensate for low rates of oxygen diffusion through rigid shells of gekkotans., (Copyright © 2013 Wiley Periodicals, Inc.)

Published

2013

34. Development of yolk sac inversion in Galea spixii and Cavia porcellus (Rodentia, Caviidae).

Author

de Oliveira MF, do Vale AM, Favaron PO, Vasconcelos BG, de Oliveira GB, Miglino MA, and Mess A

Subjects

Animals, Female, Guinea Pigs, Pregnancy, Placentation, Rodentia growth & development, Yolk Sac growth & development

Abstract

Caviomorph development includes an inverted yolk sac. Since principle processes are not understood, we investigated its differentiation in Galea and re-examined material from the guinea pig. Galea showed the typical caviomorph conditions in blastocyst development and the nature of the definitive yolk sac, formed of the visceral layer that became villous, proliferative, vascularized and attached to the uterus and placenta. In contrast to what was known before, in both species parts of the parietal yolk sac and a yolk sac cavity were temporarily present. Data suggest that early yolk sac development in caviomorphs is more complex than thought before., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2012

35. Frequency of a persistent yolk sac and its relationship with the gestational outcome.

Author

Tan S, Pektas MK, Ozcan AS, Akçay Y, Ozat M, and Arslan H

Subjects

Adult, Chi-Square Distribution, Female, Humans, Pregnancy, Pregnancy Outcome, Pregnancy Trimester, First, Prospective Studies, Time Factors, Yolk Sac growth & development, Ultrasonography, Prenatal, Yolk Sac diagnostic imaging

Abstract

Objectives: This study aimed to determine the frequency of a persistent yolk sac in pregnancies at 12 to 13 weeks and to investigate whether a persistent yolk sac is associated with an adverse gestational outcome., Methods: This study reviewed a total of 282 women who had normal singleton pregnancies with a gestational age of 12 weeks to 13 weeks 6 days and who were consecutively admitted to the study center for first-trimester screening (for chromosomal abnormalities) between April 2010 and February 2011. A persistent yolk sac has been defined as a yolk sac that has achieved a diameter of 5.6 mm or greater without losing its internal pressure at the 12th week of pregnancy or later., Results: A persistent yolk sac was detected by sonography in 25 pregnancies. The average diameter of the persistent yolk sacs ± SD was 6.3 ± 0.2 mm (range, 5.6-8.0 mm). The frequency of a persistent yolk sac in pregnancies at 12 weeks was significantly higher than that at 13 weeks (P = .017). A persistent yolk sac was not associated with adverse perinatal outcomes, including abnormal sonographic findings, isolated structural defects, poor obstetric outcomes, and perinatal mortality., Conclusions: Although yolk sacs mostly disappear toward the end of the first gestational trimester, they may sometimes persist even to the 13th week of gestation. The persistence of the yolk sac seems to be unrelated to an adverse perinatal outcome.

Published

2012

36. Chorioallantoic and yolk sac placentation in the plains viscacha (Lagostomus maximus) - a caviomorph rodent with natural polyovulation.

Author

Flamini MA, Portiansky EL, Favaron PO, Martins DS, Ambrósio CE, Mess AM, Miglino MA, and Barbeito CG

Subjects

Animals, Female, Placenta anatomy & histology, Placenta cytology, Pregnancy, Trophoblasts cytology, Yolk Sac growth & development, Ovulation physiology, Placentation, Pregnancy, Animal physiology, Rodentia physiology

Abstract

Objectives: Reproduction in the plains viscacha is characterized by the polyovulation of hundreds of oocytes, the loss of implantation and the development of 1-3 offspring. Our goal was to determine whether placental development was affected by these specializations., Study Design: Thirteen placentas from early pregnancy to near-term pregnancy were analyzed using histological, immunohistochemical and transmission electron microscopy., Results: An inverted, villous yolk sac was present. Placentas were formed by the trophospongium, labyrinth and subplacenta. A lobulated structure with a hemomonochorial barrier was established early in pregnancy. Proliferating trophoblast that was clustered at the outer border and inside the labyrinth was responsible for placental growth. Trophoblast invasion resulted from the cellular trophoblast and syncytial streamers derived from the subplacenta. Different from other caviomorphs, numerous giant cells were observed., Conclusions: The principle processes of placentation in caviomorphs follow an extraordinarily stable pattern that is independent of specializations, such as polyovulation., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2011

37. Ikaros interacts with P-TEFb and cooperates with GATA-1 to enhance transcription elongation.

Author

Bottardi S, Zmiri FA, Bourgoin V, Ross J, Mavoungou L, and Milot E

Subjects

Animals, Cell Line, DNA Helicases metabolism, Humans, Ikaros Transcription Factor genetics, Locus Control Region, Mice, Mice, Knockout, Nuclear Proteins metabolism, Positive Transcriptional Elongation Factor B metabolism, Promoter Regions, Genetic, RNA Polymerase II metabolism, Transcription Factors metabolism, Transcription, Genetic, Yolk Sac anatomy & histology, Yolk Sac growth & development, gamma-Globulins genetics, gamma-Globulins metabolism, Cyclin-Dependent Kinase 9 metabolism, Erythroid Cells metabolism, GATA1 Transcription Factor metabolism, Ikaros Transcription Factor metabolism, Transcriptional Activation

Abstract

Ikaros is associated with both gene transcriptional activation and repression in lymphocytes. Ikaros acts also as repressor of human γ-globin (huγ-) gene transcription in fetal and adult erythroid cells. Whether and eventually, how Ikaros can function as a transcriptional activator in erythroid cells remains poorly understood. Results presented herein demonstrate that Ikaros is a developmental-specific activator of huγ-gene expression in yolk sac erythroid cells. Molecular analysis in primary cells revealed that Ikaros interacts with Gata-1 and favors Brg1 recruitment to the human β-globin Locus Control Region and the huγ-promoters, supporting long-range chromatin interactions between these regions. Additionally, we demonstrate that Ikaros contributes to transcription initiation and elongation of the huγ-genes, since it is not only required for TBP and RNA Polymerase II (Pol II) assembly at the huγ-promoters but also for conversion of Pol II into the elongation-competent phosphorylated form. In agreement with the latter, we show that Ikaros interacts with Cyclin-dependent kinase 9 (Cdk9), which contributes to efficient transcription elongation by phosphorylating the C-terminal domain of the large subunit of Pol II on Serine 2, and favours Cdk9 recruitment to huγ-promoters. Our results show that Ikaros exerts dual functionality during gene activation, by promoting efficient transcription initiation and elongation., (© The Author(s) 2011. Published by Oxford University Press.)

Published

2011

38. Structural components and morphogenetic mechanics of the zebrafish yolk extension, a developmental module.

Author

Virta VC and Cooper MS

Subjects

Animals, Biological Evolution, Body Patterning, Phylogeny, Zebrafish, Embryo, Nonmammalian, Embryonic Development, Yolk Sac growth & development

Abstract

The yolk extension (YE) appears to be a novel developmental module that has been inserted into the phylotypic period of teleostean development, specifically in the order Cypriniformes. The zebrafish YE informs the study of morphogenetic movements reshaping ventral tissues because (1) this trait is easily visible, so disruptions are easy to score; (2) its ontogenesis occurs quickly; and (3) the yolk cell isolates the tissues elongating the ventrum from the rest of the embryo, serving as a three-dimensional in vivo "tissue culture." We determined that three histological compartments comprise the structural components of the YE: (1) the internal yolk cell; (2) the mesendodermal mantle external to the yolk cell; and (3) the external embryonic integument, consisting of an embryonic epidermis plus enveloping layer cells. These structural components interact with one another in a hierarchical manner, resulting in the morphogenesis of the elongated and tubular embryonic zebrafish ventrum as the cylindrical YE forms. Time-lapse videomicroscopy and experimental manipulation show that the yolk mass is a cohesive, viscoelastic foam, which resists compression. Moreover, as the mesodermal mantle participates in tubulation of the posterior trunk, Kupffer's Vesicle, the organ of laterality in teleosts, separates from the posterior pole of the yolk syncytial layer. Additionally, the embryonic integument becomes contractile over the posterior yolk cell, constricting the yolk mass to form the YE. These findings constitute an initial assessment of the morphogenetic mechanics underlying formation of the YE developmental module in zebrafish., (Copyright © 2010 Wiley-Liss, Inc., A Wiley Company.)

Published

2011

39. VEGFR-3 ligand-binding and kinase activity are required for lymphangiogenesis but not for angiogenesis.

Author

Zhang L, Zhou F, Han W, Shen B, Luo J, Shibuya M, and He Y

Subjects

Animals, Dimerization, Embryo, Mammalian blood supply, Ligands, Mice, Mitogen-Activated Protein Kinase 1 metabolism, Mitogen-Activated Protein Kinase 3 metabolism, Models, Animal, Point Mutation, Protein Structure, Tertiary, Signal Transduction, Vascular Endothelial Growth Factor A pharmacology, Vascular Endothelial Growth Factor Receptor-2 metabolism, Vascular Endothelial Growth Factor Receptor-3 genetics, Vascular Endothelial Growth Factor Receptor-3 physiology, Yolk Sac blood supply, Yolk Sac growth & development, Lymphangiogenesis, Vascular Endothelial Growth Factor Receptor-3 metabolism

Abstract

Although VEGFR-3 deficiency disrupts blood vascular development during early embryogenesis, the underlying mechanism was not clear. To characterize its function in angiogenesis and lymphangiogenesis, we employed two genetically modified mouse models in this study, targeting the coding region for the ligand-binding domain (Vegfr3(ΔLBD)) or the tyrosine kinase domain with an inactivation point mutation (Vegfr3(TKmut)). We show that lymphatic growth was disrupted in Vegfr3(ΔLBD/ΔLBD) and Vegfr3(TKmut/TKmut) mice, but blood vessels developed normally in both embryo and yolk sac. Interestingly, in Vegfr3(ΔLBD/ΔLBD) but not Vegfr3(TKmut/TKmut) mice, lymph sac was present but there was lack of lymphangiogenic sprouting. We further demonstrate that both the wild-type and mutant forms of VEGFR-3 could form heterodimers with VEGFR-2, and decreased the level of phospho-VEGFR-2 and the downstream phospho-Erk1/2 in endothelial cells when they were treated with VEGF-A. These findings indicate that signaling mediated via VEGFR-3 activation by its cognate ligands (VEGF-C/-D) is not required for angiogenesis, and that VEGFR-3 may play a role in this process by modulating VEGFR-2-mediated signals.

Published

2010

40. Normal ranges of embryonic length, embryonic heart rate, gestational sac diameter and yolk sac diameter at 6-10 weeks.

Author

Papaioannou GI, Syngelaki A, Poon LC, Ross JA, and Nicolaides KH

Subjects

Adult, Body Mass Index, Cross-Sectional Studies, Female, Gestational Sac diagnostic imaging, Humans, Organ Size, Pregnancy, Pregnancy Trimester, First, Reference Values, Ultrasonography, Prenatal, United Kingdom, Yolk Sac diagnostic imaging, Crown-Rump Length, Gestational Age, Gestational Sac growth & development, Heart Rate, Fetal, Yolk Sac growth & development

Abstract

Objectives: To construct normal ranges for embryonic crown-rump length (CRL), heart rate (HR), gestational sac diameter (GSD) and yolk sac diameter (YSD) at 6-10 weeks of gestation., Methods: We examined 4,698 singleton pregnancies with ultrasound measurements of CRL, HR, GSD and YSD at 6-10 weeks and CRL at 11-13 weeks resulting in the live birth after 36 weeks of phenotypically normal neonates with birth weight above the 5th centile. Gestational age was derived from CRL at the 11- to 13-week scan using the formula of Robinson and Fleming. Regression analysis was used to establish normal ranges of CRL, fetal HR, GSD and YSD with gestation, and fetal HR, GSD and YSD with CRL., Results: At 6-10 weeks there were significant quadratic associations between CRL, GSD, YSD and gestation and between HR, GSD, YSD and CRL, and a cubic association between HR and gestation. The estimated gestation from CRL was the same as that of Robinson and Fleming for a CRL of 10.2-36.5 mm, but the formula of Robinson and Fleming underestimated the gestation by 1 day for a CRL 7.4-10.2 mm and this increased to 9 days for a CRL of 1 mm., Conclusion: This study established normal ranges for early pregnancy biometry., (Copyright © 2010 S. Karger AG, Basel.)

Published

2010

41. Reference intervals of gestational sac, yolk sac and embryo volumes using three-dimensional ultrasound.

Author

Bagratee JS, Regan L, Khullar V, Connolly C, and Moodley J

Subjects

Adult, Birth Weight physiology, Cross-Sectional Studies, Crown-Rump Length, Embryo, Mammalian anatomy & histology, Female, Gestational Age, Humans, Imaging, Three-Dimensional, Organ Size, Pregnancy, Pregnancy Outcome, Pregnancy Trimester, First, Reference Values, Regression Analysis, Yolk Sac growth & development, Embryo, Mammalian diagnostic imaging, Ultrasonography, Prenatal methods, Yolk Sac diagnostic imaging

Abstract

Objectives: To create reference intervals of gestational sac volume (GSV), yolk sac volume (YSV), embryo volume (EV), crown-rump length (CRL) and gestational sac diameter (GSD) in the first trimester of pregnancy using three-dimensional ultrasound., Methods: Women in the first trimester of pregnancy were invited to participate in the study. Inclusion criteria were well-established dates, and that the women were non-smokers and healthy, without any medical disorders. Three-dimensional ultrasound volumetric data (GSV, YSV, EV) were collected together with standard two-dimensional measurements of CRL and GSD. For each measurement separate regression models were fitted to estimate the mean and SD at each gestational age. The 5(th), 50(th) and 95(th) centiles were derived using a combination of these regression models., Results: One hundred and sixty-six women at between 6 and 12 weeks' gestation were scanned once. The mean ( +/- SD) maternal age was 29.4 ( +/- 5) years. There were no miscarriages and no congenital abnormalities were noted. Mean gestational age at delivery was 39.3 ( +/- 1.4) weeks and mean birth weight was 3.3 ( +/- 0.4) kg. The CRL centiles fitted a cubic model and the GSD centiles fitted a linear model. The centiles for YSV fitted a quadratic model on the modified log-transformed data. The centiles for GSV and EV were modeled using quantile regression., Conclusion: Reference intervals and centile charts for first-trimester GSV, YSV and EV have been created in addition to CRL and GSD using rigorous methodology., (Copyright (c) 2009 ISUOG. Published by John Wiley & Sons, Ltd.)

Published

2009

42. Assessment of digestive enzymes activity during the fry development of the endangered Caspian brown trout Salmo caspius.

Author

Zamani A, Hajimoradloo A, Madani R, and Farhangi M

Subjects

Animals, Yolk Sac growth & development, Digestion, Gastrointestinal Tract enzymology, Trout growth & development

Abstract

The study of digestive enzymes activity at Salmo caspius fry showed that enzymes were available at the moment of mouth opening on the first day post hatching (dph) and the activity of enzymes showed no significant difference from the hatching day 28 dph. An increased activity was seen between 32 and 43 dph and this activity was significantly higher than the activity during the first 28 days. In the primary stages after yolk sac resorption (43-58 dph), enzymes activity showed an increased profile, however none of them showed a significant difference between 43 and 58 dph.

Published

2009

43. Growth and development of the placenta in the capybara (Hydrochaeris hydrochaeris).

Author

Kanashiro C, Santos TC, Miglino MA, Mess AM, and Carter AM

Subjects

Animals, Body Size, Chorioallantoic Membrane cytology, Chorioallantoic Membrane growth & development, Chorioallantoic Membrane physiology, Decidua cytology, Decidua growth & development, Decidua physiology, Embryo Implantation physiology, Female, Gestational Age, Limb Buds, Placentation, Pregnancy, Yolk Sac cytology, Yolk Sac growth & development, Yolk Sac physiology, Models, Animal, Placenta cytology, Placenta physiology, Pregnancy, Animal physiology, Rodentia physiology

Abstract

Background: The guinea pig is an attractive model for human pregnancy and placentation, mainly because of its haemomonochorial placental type, but is rather small in size. Therefore, to better understand the impact of body mass, we studied placental development in the capybara which has a body mass around 50 kg and a gestation period of around 150 days. We paid attention to the development of the lobulated arrangement of the placenta, the growth of the labyrinth in the course of gestation, the differentiation of the subplacenta, and the pattern of invasion by extraplacental trophoblast., Methods: Material was collected from six animals at pregnancy stages ranging from the late limb bud stage to mid gestation. Methods included latex casts, standard histology, immunohistochemistry for cytokeratin, vimentin, alpha-smooth muscle actin, and proliferating cell nuclear antigen as well as transmission electron microscopy., Results: At the limb bud stage, the placenta was a pad of trophoblast covered by a layer of mesoderm from which fetal vessels were beginning to penetrate at folds in the surface. By 70 days, the placenta comprised areas of labyrinth (lobes) separated by interlobular areas. Placental growth resulted predominantly from proliferation of cellular trophoblast situated in nests at the fetal side of the placenta and along internally directed projections on fetal mesenchyme. Additional proliferation was demonstrated for cellular trophoblast within the labyrinth.Already at the limb bud stage, there was a prominent subplacenta comprising cellular and syncytial trophoblast with mesenchyme and associated blood vessels. At 90 days, differentiation was complete and similar to that seen in other hystricognath rodents. Overlap of fetal vessels and maternal blood lacunae was confirmed by latex injection of the vessels. At all stages extraplacental trophoblast was associated with the maternal arterial supply and consisted of cellular trophoblast and syncytial streamers derived from the subplacenta., Conclusion: All important characteristics of placental development and organization in the capybara resembled those found in smaller hystricognath rodents including the guinea pig. These features apparently do not dependent on body size. Clearly, placentation in hystricognaths adheres to an extraordinarily stable pattern suggesting they can be used interchangeably as models of human placenta.

Published

2009

44. Development of the inverted visceral yolk sac in three species of caviids (Rodentia, Caviomorpha, Caviidae).

Author

Miglino MA, Franciolli AL, de Oliveira MF, Ambrósio CE, Bonatelli M, Machado MR, and Mess A

Subjects

Animals, Female, Maternal-Fetal Exchange physiology, Models, Biological, Pregnancy, Viscera embryology, Viscera ultrastructure, Placentation physiology, Pregnancy, Animal, Rodentia physiology, Yolk Sac growth & development, Yolk Sac ultrastructure

Abstract

Guinea pig related rodents possess numerous derived placental characters. We attempt to identify diversity within the visceral yolk sac and its association with the chorioallantoic placenta in three species of caviids, two of them possessing a capsule formed by the decidua that covers the chorioallantoic placenta. The results verify that in early pregnancy all three species have an inverted yolk sac placenta. In advanced pregnancy the species differ: Galea spixii, as representative without a capsule, bear a yolk sac in apposition to the chorioallantoic placenta with signs of exchange activity until term. Galea is similar to other caviomorphs in this respect. In Dasyprocta leporina and Cuniculus paca, the representatives possessing a capsule, the yolk sac endoderm lacks signs of substance exchange. Evidently, the presence of a capsule prevents such an interaction. The variations established here must be considered if animal models for human placentation are required which have restricted access to the chorioallantoic placenta from the outside.

Published

2008

45. Yolk sac size and embryonic heart rate as prognostic factors of first trimester pregnancy outcome.

Author

Varelas FK, Prapas NM, Liang RI, Prapas IM, and Makedos GA

Subjects

Abortion, Spontaneous pathology, Adult, Crown-Rump Length, Embryonic Development physiology, Female, Gestational Age, Humans, Organ Size, Pregnancy, Pregnancy Outcome, Prognosis, Prospective Studies, ROC Curve, Abortion, Spontaneous physiopathology, Heart Rate, Fetal, Pregnancy Trimester, First physiology, Yolk Sac growth & development

Abstract

Objectives: To investigate embryonic heart rate (EHR) and yolk sac diameter (YSD) during the first trimester and their role as prognostic markers of first trimester pregnancy outcome., Study Design: Prospective cohort study involving 219 women conducted in the 4th Academic Department of Obstetrics and Gynaecology, Aristotle University of Thessaloniki, Greece. Gestational age (GA) was determined ultrasonographically based on gestational sac diameter and crown-rump length. EHR and YSD were evaluated during the first 12 weeks and subsequently compared between the pregnancies that continued beyond the first trimester and those that resulted in spontaneous abortion. Receiver-operating characteristic (ROC) curves were used for the evaluation of the prognostic value of the combination of gestational age with embryonic heart rate and yolk sac diameter., Results: The EHR and YSD were significantly correlated to advancing gestational age (p<0.001) in pregnancies continuing beyond 12 weeks. Pregnancies that resulted in spontaneous abortion exhibited a statistically significant lower EHR (p<0.001), smaller YSD (p=0.001) or absent yolk sac. ROC curve analysis demonstrated the predictive value of the combination of GA with EHR (area under the ROC curve: 0.971, p<0.001) and GA with YSD (area under the ROC curve: 0.858, p<0.001) for first trimester pregnancy outcome., Conclusions: EHR and YSD progressively increase in healthy pregnancies during the first trimester. Embryonic bradycardia and absence of yolk sac or even a smaller yolk sac diameter than expected for any gestational age are predictors of poor pregnancy outcome during the first 12 weeks.

Published

2008

46. Tissue-specific expression of aryl hydrocarbon receptor and putative developmental regulatory modules in Baltic salmon yolk-sac fry.

Author

Vuori KA, Nordlund E, Kallio J, Salakoski T, and Nikinmaa M

Subjects

Animals, Baltic States, Cell Differentiation, Cell Movement, Cell Proliferation, Gene Expression Regulation, Developmental physiology, Humans, Hydrocarbons, Aromatic pharmacokinetics, Mice, Neurons cytology, Neurons physiology, Receptors, Aryl Hydrocarbon genetics, Tissue Distribution, Water Pollutants, Chemical pharmacokinetics, Yolk Sac embryology, Yolk Sac growth & development, Gene Expression Regulation, Developmental drug effects, Hydrocarbons, Aromatic toxicity, Neurons drug effects, Receptors, Aryl Hydrocarbon metabolism, Salmo salar embryology, Salmo salar growth & development, Water Pollutants, Chemical toxicity, Yolk Sac drug effects

Abstract

The aryl hydrocarbon receptor (AhR) is an ancient protein that is conserved in vertebrates and invertebrates, indicating its important function throughout evolution. AhR has been studied largely because of its role in toxicology-gene expression via AhR is induced by many aromatic hydrocarbons in mammals. Recently, however, it has become clear that AhR is involved in various aspects of development such as cell proliferation and differentiation, and cell motility and migration. The mechanisms by which AhR regulates these various functions remain poorly understood. Across-species comparative studies of AhR in invertebrates, non-mammalian vertebrates and mammals may help to reveal the multiple functions of AhR. Here, we have studied AhR during larval development of Baltic salmon (Salmon salar). Our results indicate that AhR protein is expressed in nervous system, liver and muscle tissues. We also present putative regulatory modules and module-matching genes, produced by chromatin immunoprecipitation (ChIP) cloning and in silico analysis, which may be associated with evolutionarily conserved functions of AhR during development. For example, the module NFKB-AHRR-CREB found from salmon ChIP sequences is present in human ULK3 (regulating formation of granule cell axons in mouse and axon outgrowth in Caernohabditis elegans) and SRGAP1 (GTPase-activating protein involved in the Slit/Robo pathway) promoters. We suggest that AhR may have an evolutionarily conserved role in neuronal development and nerve cell targeting, and in Wnt signaling pathway.

Published

2008

47. Real-time polymerase chain reaction, in situ hybridization and immunohistochemical localization of insulin-like growth factor-I and myostatin during development of Dicentrarchus labrax (Pisces: Osteichthyes).

Author

Patruno M, Sivieri S, Poltronieri C, Sacchetto R, Maccatrozzo L, Martinello T, Funkenstein B, and Radaelli G

Subjects

Animals, Bass genetics, Bass growth & development, Cartilage growth & development, Cartilage metabolism, Epithelium growth & development, Epithelium metabolism, Fish Proteins genetics, Gene Expression Regulation, Developmental, Immunohistochemistry, In Situ Hybridization, Insulin-Like Growth Factor I genetics, Intestinal Mucosa metabolism, Intestines growth & development, Larva genetics, Larva growth & development, Larva metabolism, Liver growth & development, Liver metabolism, Muscles metabolism, Myostatin, Reverse Transcriptase Polymerase Chain Reaction, Transforming Growth Factor beta genetics, Yolk Sac growth & development, Yolk Sac metabolism, Bass metabolism, Fish Proteins metabolism, Insulin-Like Growth Factor I metabolism, Transforming Growth Factor beta metabolism

Abstract

The distribution of insulin-like growth factor-I (IGF-I) and myostatin (MSTN) was investigated in sea bass (Dicentrarchus labrax) by real-time polymerase chain reaction (PCR), in situ hybridization (ISH) and immunohistochemistry. Real-time PCR indicated that IGF-I mRNA increased from the second day post-hatching and that this trend became significant from day 4. ISH confirmed a strong IGF-I mRNA expression from the first week post-hatching, with the most abundant expression being detected in the liver of larvae and adults. Real-time PCR also showed that the level of MSTN mRNA increased significantly from day 25. The expression of MSTN mRNA was higher in muscle and almost absent in other anatomical regions in both larvae and adults. Interestingly, the lateral muscle showed a quantitative differential expression of IGF-I and MSTN mRNAs in red and white muscle, depending on the developmental stage examined. IGF-I immunoreactivity was detected in developing intestine at hatching and in skeletal muscle, skin and yolk sac. MSTN immunostaining was evident in several tissues and organs in both larvae and adults. Both IGF-I and MSTN proteins were detected in the liver from day 4 post-hatching and, subsequently, in the kidney and heart muscle from day 10. Our results suggest, on the basis of a combined methodological approach, that IGF-I and MSTN are involved in the regulation of somatic growth in the sea bass.

Published

2008

48. Effects of temperature on embryonic development of the veiled chameleon, Chamaeleo calyptratus.

Author

Andrews RM

Subjects

Animals, Cell Differentiation, Chorioallantoic Membrane cytology, Chorioallantoic Membrane growth & development, Embryo, Nonmammalian cytology, Embryonic Development, Lizards growth & development, Time Factors, Yolk Sac cytology, Yolk Sac growth & development, Chorioallantoic Membrane embryology, Lizards embryology, Temperature, Yolk Sac embryology

Abstract

Temperature dependence of development of the chameleon, Chamaeleo calyptratus, was assessed from observations on eggs incubated at 25, 28 and 30 degrees C. Overall, differentiation, growth in mass, and growth of the yolk sac and chorioallantois were the slowest at 25 degrees C but did not differ between 28 and 30 degrees C. The relative area of the yolk sac (YS), chorioallantoic membrane (CAM), and their precursor, the area opaca vasculosa (AV) was used to characterize developmental phases. During Phase 1, only the AV was present; development was characterized by differentiation with little increase in the size of the embryo. During Phase 2, the vascularized YS and CAM grew from about 10 to 100% coverage of the surface of the shell during a period of about two weeks. Differentiation and growth of the embryo were accordingly rapid. During Phase 3, the YS and CAM were fixed in size and the remainder of development was relatively slow. Characterization of embryonic development with respect to the relative area of the AV-YS-CAM highlighted the functional linkage between development and the systems that provide nutrients to embryos.

Published

2007

49. Localized rbp4 expression in the yolk syncytial layer plays a role in yolk cell extension and early liver development.

Author

Li Z, Korzh V, and Gong Z

Subjects

Animals, Body Patterning, Embryo, Nonmammalian, Liver metabolism, Oligonucleotides, Antisense, RNA, Messenger biosynthesis, Reverse Transcriptase Polymerase Chain Reaction, Sequence Analysis, DNA, Yolk Sac growth & development, Zebrafish genetics, Gene Expression Regulation, Developmental, Liver embryology, Retinol-Binding Proteins, Plasma genetics, Yolk Sac metabolism, Zebrafish embryology, Zebrafish Proteins genetics

Abstract

Background: The number of genes characterized in liver development is steadily increasing, but the origin of liver precursor cells and the molecular control of liver formation remain poorly understood. Existing theories about formation of zebrafish visceral organs emphasize either their budding from the endodermal rod or formation of independent anlage followed by their later fusion, but none of these is completely satisfactory in explaining liver organogenesis in zebrafish., Results: Expression of a gene encoding the retinol binding protein 4 (Rbp4) was analyzed in zebrafish. rbp4, which is expressed mainly in the liver in adults, was shown to be expressed in the yolk syncytial layer (YSL) during early embryogenesis. At 12-16 hpf rbp4 expression was restricted to the ventro-lateral YSL and later expanded to cover the posterior YSL. We demonstrated that rbp4 expression was negatively regulated by Nodal and Hedgehog (Hh) signalling and positively controlled by retinoic acid (RA). Knockdown of Rbp4 in the YSL resulted in shortened yolk extension as well as the formation of two liver buds, which could be due to impaired migration of liver progenitor cells. rbp4 appears also to regulate the extracellular matrix protein Fibronectin1 (Fn1) specifically in the ventro-lateral yolk, indicating a role of Fn1 in liver progenitor migration. Since exocrine pancreas, endocrine pancreas, intestine and heart developed normally in Rbp4 morphants, we suggest that rbp4 expression in the YSL is required only for liver development., Conclusion: The characteristic expression pattern of rbp4 suggests that the YSL is patterned despite its syncytial nature. YSL-expressed Rbp4 plays a role in formation of both yolk extension and liver bud, the latter may also require migration of liver progenitor cells.

Published

2007

50. Changes in expression and localization of GPRC5B and RARalpha in the placenta and yolk sac during middle to late gestation in mice.

Author

Imanishi S, Sugimoto M, Morita M, Kume S, and Manabe N

Subjects

Animals, Female, Mice, Placenta chemistry, Placenta metabolism, RNA, Messenger analysis, RNA, Messenger metabolism, Receptors, G-Protein-Coupled analysis, Receptors, G-Protein-Coupled genetics, Receptors, Retinoic Acid analysis, Receptors, Retinoic Acid genetics, Retinoic Acid Receptor alpha, Yolk Sac chemistry, Yolk Sac metabolism, Placentation, Pregnancy metabolism, Receptors, G-Protein-Coupled metabolism, Receptors, Retinoic Acid metabolism, Yolk Sac growth & development

Abstract

The mRNA expression of GPRC5B, an orphan G protein-coupled receptor, is induced by retinoic acid (RA). Because RA plays critical roles in embryonic development, reproductive functions, metabolism and homeostasis, GPRC5B is also considered crucial in these physiological events. We investigated the changes in expression of GPRC5B and RA receptor (RAR) alpha mRNAs and immunohistochemical localization of their proteins in the murine placenta and yolk sac at 13.5, 15.5 and 17.5 days post coitus. Stable levels of GPRC5B and RARalpha mRNAs were detected in the placenta and yolk sac. In the placenta, GPRC5B was present in maternal and fetal vascular endothelial cells, stromal cells, fibroblast-like cells and glycogen cells. A strong reaction to RARalpha was detected in maternal and fetal vascular endothelial cells and stromal cells. The levels of GPRC5B and RARalpha proteins in maternal and fetal vascular endothelial cells decreased with gestation. In the yolk sac, GPRC5B and RARalpha proteins were detected in vascular endothelial cells, but their levels did not change during the gestation period. These findings indicate that GPRC5B is involved in RA-dependent morphogenesis/angiogenesis and regulation of extracellular matrix synthesis in the murine placenta and yolk sac.

Published

2007