Your search keyword '"Allantois"' showing total 2,532 results

1. CDX2 dose-dependently influences the gene regulatory network underlying human extraembryonic mesoderm development.

Author

Bulger, Emily, McDevitt, Todd, and Bruneau, Benoit

Subjects

Allantois, CDX2, Extraembryonic mesoderm, Gastrulation, Gastruloid, Humans, CDX2 Transcription Factor, Cell Differentiation, Embryo, Mammalian, Gene Regulatory Networks, Induced Pluripotent Stem Cells, Mesoderm, Gene Dosage

Abstract

Loss of Cdx2 in vivo leads to stunted development of the allantois, an extraembryonic mesoderm-derived structure critical for nutrient delivery and waste removal in the early embryo. Here, we investigate how CDX2 dose-dependently influences the gene regulatory network underlying extraembryonic mesoderm development. By engineering human induced pluripotent stem cells (hiPSCs) consisting of wild-type (WT), heterozygous (CDX2-Het), and homozygous null CDX2 (CDX2-KO) genotypes, differentiating these cells in a 2D gastruloid model, and subjecting these cells to single-nucleus RNA and ATAC sequencing, we identify several pathways that are dose-dependently regulated by CDX2 including VEGF and non-canonical WNT. snATAC-seq reveals that CDX2-Het cells retain a WT-like chromatin accessibility profile, suggesting accessibility alone is not sufficient to drive this variability in gene expression. Because the loss of CDX2 or TBXT phenocopy one another in vivo, we compared differentially expressed genes in our CDX2-KO to those from TBXT-KO hiPSCs differentiated in an analogous experiment. This comparison identifies several communally misregulated genes that are critical for cytoskeletal integrity and tissue permeability. Together, these results clarify how CDX2 dose-dependently regulates gene expression in the extraembryonic mesoderm and reveal pathways that may underlie the defects in vascular development and allantoic elongation seen in vivo.

Published

2024

2. Isl Identifies the Extraembryonic Mesodermal/Allantois Progenitors and is Required for Placenta Morphogenesis and Vasculature Formation.

Author

Zhu, Zeyue, Zou, Qicheng, Wang, Chunxiao, Li, Dixi, Yang, Yan, Xiao, Ying, Jin, Yao, Yan, Jie, Luo, Lina, Sun, Yunfu, and Liang, Xingqun

Subjects

*MESODERM, *PLACENTA, *MORPHOGENESIS, *YOLK sac, *VASCULAR smooth muscle, *UMBILICAL cord, *TROPHOBLAST

Abstract

The placenta links feto‐maternal circulation for exchanges of nutrients, gases, and metabolic wastes between the fetus and mother, being essential for pregnancy process and maintenance. The allantois and mesodermal components of amnion, chorion, and yolk sac are derived from extraembryonic mesoderm (Ex‐Mes), however, the mechanisms contributing to distinct components of the placenta and regulation the interactions between allantois and epithelium during chorioallantoic fusion and labyrinth formation remains unclear. Isl1 is expressed in progenitors of the Ex‐Mes and allantois the Isl1 mut mouse line is analyzed to investigate contribution of Isl1+ Ex‐Mes / allantoic progenitors to cells of the allantois and placenta. This study shows that Isl1 identifies the Ex‐Mes progenitors for endothelial and vascular smooth muscle cells, and most of the mesenchymal cells of the placenta and umbilical cord. Deletion of Isl1 causes defects in allantois growth, chorioallantoic fusion, and placenta vessel morphogenesis. RNA‐seq and CUT&Tag analyses revealed that Isl1 promotes allantoic endothelial, inhibits mesenchymal cell differentiation, and allantoic signals regulated by Isl1 mediating the inductive interactions between the allantois and chorion critical for chorionic epithelium differentiation, villous formation, and labyrinth angiogenesis. This study above reveals that Isl1 plays roles in regulating multiple genetic and epigenetic pathways of vascular morphogenesis, provides the insight into the mechanisms for placental formation, highlighting the necessity of Isl1 for placenta formation/pregnant maintenance. [ABSTRACT FROM AUTHOR]

Published

2024

3. On-field Gross Morphology Evaluation of Dromedary Camel (Camelus dromedarius) Fetal Membranes.

Author

Monaco, Davide, Castagnetti, Carolina, Lanci, Aliai, Osman, Taher Kamal, Lacalandra, Giovanni Michele, and Fusi, Jasmine

Subjects

*FETAL membranes, *MORPHOLOGY, *UMBILICAL cord, *BLOOD vessels, *PLACENTA, *CAMELS, *PARTURITION, *MARES

Abstract

Simple Summary: Simple Summary: The post-partum gross examination of the fetal membranes is an efficient tool for detecting the abnormalities that might influence the survival, health, and future development of a newborn. The routine on-field gross evaluation of the placenta performed by veterinarians could represent a valuable tool for the management of dromedary camel (Camelus dromedaries) newborns. A description of the dromedary camel placenta was therefore performed in this study. Female dromedary camel parturitions were attended and placentas were collected, cleaned of sand, and observed. The chorionic surface appeared velvety and non-uniform in color, varying from pink to pale or bright red and often with dark red areas; the latter were located mainly around the uterine body portion or in the area outside the insertion of the umbilical cord. The pregnant horn portion was always bigger in size than that of the non-pregnant portion; the uterine body portion showed variability in shape and size. The allantoic surface showed variable appearance, from pearly white, to pink or red-bluish, depending on the background color of the chorionic surface, and was characterized by the presence of several blood vessels. The dromedary camel (Camelus dromedarius) fetal membranes, commonly referred to as "the placenta", are epitheliochorial, diffuse, and microcotyledonary, similarly to the mare's placenta. The evaluation of the placenta is an essential component of the neonatal evaluation in the equine species. However, post-partum or post-abortion placental assessment in dromedary camels is unfortunately too frequently neglected and, to the best of the authors' knowledge, the dromedary camel species lacks a comprehensive description of the normal placenta's gross morphology. In order to facilitate its on-field evaluation, the current study describes the macroscopic features of the placenta of the dromedary camel after full-term pregnancy and spontaneous parturition. [ABSTRACT FROM AUTHOR]

Published

2024

4. Intra‐allantoic injection of calcium promotes hatching of chick embryos grown in shell‐less culture.

Author

Dunn, Bruce E.

Subjects

*CHICKEN embryos, *CHORIOALLANTOIS, *CALCIUM hydroxide, *CALCIUM, *EGGSHELLS

Abstract

The hatch rate of chick embryos cultured outside of the eggshell with 350 mg calcium l‐lactate hydrate (CaL) and 3.5 mL water is fourfold greater in cultures in which the chorioallantoic membrane (CAM) surrounds the egg contents by incubation day 17.5 (E17.5) an event which occurs in ovo by E13. It was first investigated whether decreasing the volume of water added with 350 mg CaL would promote CAM expansion due to the smaller volume to enclose. When 350 mg CaL was present, the CAM did not surround the egg contents by E13. By E17.5, the CAM surrounded the egg contents in 53%–74% of cultures; however, CAM expansion was not significantly different when 0, 1, 2, or 3.5 mL water was present. The hatch rate with 2 or 3.5 mL water was greater than 50% but was not improved with less water. Second, it was investigated whether CaL or water inhibits CAM expansion. In the absence of CaL, the CAM surrounded the egg contents in up to two‐thirds of cultures by E13, whether 2 mL water was present or not. Thus CaL, but not water, inhibits expansion of the CAM by E13, even though CaL promotes hatching. Finally, it was investigated whether injection of aqueous CaL into the allantoic fluid, in conjunction with not adding CaL to culture hammocks, would promote CAM expansion. Allantoic injection of CaL starting at E13 did not promote CAM expansion at E17.5 but resulted in hatch rates of approximately 30%. Allantoic injection is a novel route for supplementation of calcium in cultured chick embryos. Research Highlights: Injection of calcium l‐lactate hydrate (100 mg/mL in H2O) at incubation days 13 and E17.5 into shell‐less chick cultures resulted in a hatch rate of over 30%.Allantoic injection is a novel route by which calcium can be added to cultured embryos. [ABSTRACT FROM AUTHOR]

Published

2024

5. Origin and flow-mediated remodeling of the murine and human extraembryonic circulation systems.

Author

Van Schoor, Kristof, Bruet, Emmanuel, Jones, Elizabeth Anne Vincent, and Migeotte, Isabelle

Subjects

UMBILICAL cord, EMBRYOLOGY, MAMMALIAN embryos, BLOOD flow, CARDIOVASCULAR system

Abstract

The transduction of mechanical stimuli produced by blood flow is an important regulator of vascular development. The vitelline and umbilico-placental circulations are extraembryonic vascular systems that are required for proper embryonic development in mammalian embryos. The morphogenesis of the extraembryonic vasculature and the cardiovascular system of the embryo are hemodynamically and molecularly connected. Here we provide an overview of the establishment of the murine and human vitelline and umbilico-placental vascular systems and how blood flow influences various steps in their development. A deeper comprehension of extraembryonic vessel development may aid the establishment of stem-cell based embryo models and provide novel insights to understanding pregnancy complications related to the umbilical cord and placenta. [ABSTRACT FROM AUTHOR]

Published

2024

6. Isl Identifies the Extraembryonic Mesodermal/Allantois Progenitors and is Required for Placenta Morphogenesis and Vasculature Formation

Author

Zeyue Zhu, Qicheng Zou, Chunxiao Wang, Dixi Li, Yan Yang, Ying Xiao, Yao Jin, Jie Yan, Lina Luo, Yunfu Sun, and Xingqun Liang

Subjects

allantois, extraembryonic mesoderm, lineage, Isl1, pregnant maintenance vasculature, Science

Abstract

Abstract The placenta links feto‐maternal circulation for exchanges of nutrients, gases, and metabolic wastes between the fetus and mother, being essential for pregnancy process and maintenance. The allantois and mesodermal components of amnion, chorion, and yolk sac are derived from extraembryonic mesoderm (Ex‐Mes), however, the mechanisms contributing to distinct components of the placenta and regulation the interactions between allantois and epithelium during chorioallantoic fusion and labyrinth formation remains unclear. Isl1 is expressed in progenitors of the Ex‐Mes and allantois the Isl1 mut mouse line is analyzed to investigate contribution of Isl1+ Ex‐Mes / allantoic progenitors to cells of the allantois and placenta. This study shows that Isl1 identifies the Ex‐Mes progenitors for endothelial and vascular smooth muscle cells, and most of the mesenchymal cells of the placenta and umbilical cord. Deletion of Isl1 causes defects in allantois growth, chorioallantoic fusion, and placenta vessel morphogenesis. RNA‐seq and CUT&Tag analyses revealed that Isl1 promotes allantoic endothelial, inhibits mesenchymal cell differentiation, and allantoic signals regulated by Isl1 mediating the inductive interactions between the allantois and chorion critical for chorionic epithelium differentiation, villous formation, and labyrinth angiogenesis. This study above reveals that Isl1 plays roles in regulating multiple genetic and epigenetic pathways of vascular morphogenesis, provides the insight into the mechanisms for placental formation, highlighting the necessity of Isl1 for placenta formation/pregnant maintenance.

Published

2024

7. Origin and flow-mediated remodeling of the murine and human extraembryonic circulation systems

Author

Kristof Van Schoor, Emmanuel Bruet, Elizabeth Anne Vincent Jones, and Isabelle Migeotte

Subjects

embryo development, allantois, umbilical cord, yolk sac, vitelline vessels, placenta, Physiology, QP1-981

Abstract

The transduction of mechanical stimuli produced by blood flow is an important regulator of vascular development. The vitelline and umbilico-placental circulations are extraembryonic vascular systems that are required for proper embryonic development in mammalian embryos. The morphogenesis of the extraembryonic vasculature and the cardiovascular system of the embryo are hemodynamically and molecularly connected. Here we provide an overview of the establishment of the murine and human vitelline and umbilico-placental vascular systems and how blood flow influences various steps in their development. A deeper comprehension of extraembryonic vessel development may aid the establishment of stem-cell based embryo models and provide novel insights to understanding pregnancy complications related to the umbilical cord and placenta.

Published

2024

8. CDX2 dose-dependently influences the gene regulatory network underlying human extraembryonic mesoderm development

Author

Emily A. Bulger, Todd C. McDevitt, and Benoit G. Bruneau

Subjects

extraembryonic mesoderm, gastrulation, cdx2, allantois, gastruloid, Science, Biology (General), QH301-705.5

Published

2024

9. Morphogenesis stages of the embryonic development of the Levantine viper (Macrovipera lebetina obtusa Dwigubsky, 1832).

Author

Iskenderov, Tavakkul

Subjects

VIPERA lebetina, MORPHOGENESIS, EMBRYOLOGY, OVULATION, YOLK sac

Abstract

The article provides information on the embryonic development of the Levantine viper (Macrovipera lebetina obtusa Dwigubsky, 1832), its stages of morphogenesis, and the morphological variability of embryogenesis at the time of ovulation. It was determined that on the day of egg laying, the blood vessels of the provisional organs (allantois and yolk sac) were formed and covered 50-60% of the body surface of the embryo, and the embryos are already in the initial stages of embryonic development morphogenesis (spiral twist of the body and the beginning of the formation of the tongue). It was determined that the Levantine viper has already finished the 33-35 day development period (embryonic period) in the oviducts by the time of ovulation. After the egg was laid outside, the morphogenesis stages of embryonic development during the natural incubation period were determined according to the morphology of the embryos and the level of development of provisional organs, and 7 stages were described. As a result of the morphological study, 4 periods were distinguished in the embryonic development of the Levantine viper: embryo, pre-fetus and fetus (morphogenesis), and hatching periods. The article describes the morphology and development process of embryos in the stages of morphogenesis and embryonic development. [ABSTRACT FROM AUTHOR]

Published

2023

10. SLC20a1/PiT-1 is required for chorioallantoic placental morphogenesis

Author

Ana Correia-Branco, Ariel Mei, Sreehari Pillai, Nirmala Jayaraman, Radhika Sharma, Alison G Paquette, Naveen K Neradugomma, Ciara Benson, Nicholas W Chavkin, Qingcheng Mao, and Mary C Wallingford

Subjects

allantois, chorion, labyrinth, notch, phosphate, placenta, slc20a1/pit-1, tip and stalk cell, wnt, Diseases of the circulatory (Cardiovascular) system, RC666-701, Physiology, QP1-981

Abstract

The placenta mediates the transport of nutrients, such as inorganic phosphate (Pi), between the maternal and fetal circulatory systems. The placenta itself also requires high levels of nutrient uptake as it develops to provide critical support for fetal development. This study aimed to determine placental Pi transport mechanisms using in vitro and in vivo models. We observed that Pi (P33) uptake in BeWo cells is sodium dependent and that SLC20A1/Slc20a1 is the most highly expressed placental sodium-dependent transporter in mouse (microarray), human cell line (RT-PCR) and term placenta (RNA-seq), supporting that normal growth and maintenance of the mouse and human placenta requires SLC20A1/Slc20a1. Slc20a1 wild-type (Slc20a1+/+) and knockout (Slc20a1–/–) mice were produced through timed intercrosses and displayed yolk sac angiogenesis failure as expected at E10.5. E9.5 tissues were analyzed to test whether placental morphogenesis requires Slc20a1. At E9.5, the developing placenta was reduced in size in Slc20a1–/–. Multiple structural abnormalities were also observed in the Slc20a1–/– chorioallantois. We determined that monocarboxylate transporter 1 protein (MCT1+) cells were reduced in developing Slc20a1–/– placenta, confirming that Slc20a1 loss reduced trophoblast syncytiotrophoblast 1 (SynT-I) coverage. Next, we examined the cell type-specific Slc20a1 expression and SynT molecular pathways in silico and identified Notch/ Wnt as a pathway of interest that regulates trophoblast differentiation. We further observed that specific trophoblast lineages express Notch/Wnt genes that associate with endothelial cell tip-and-stalk cell markers. In conclusion, our findings support that Slc20a1 mediates the symport of Pi into SynT cells, providing critical support for their differentiation and angiogenic mimicry function at the developing maternal–fetal interface.

Published

2023

11. On-field Gross Morphology Evaluation of Dromedary Camel (Camelus dromedarius) Fetal Membranes

Author

Davide Monaco, Carolina Castagnetti, Aliai Lanci, Taher Kamal Osman, Giovanni Michele Lacalandra, and Jasmine Fusi

Subjects

dromedary camel, placenta evaluation, chorion, allantois, umbilical cord, linear measurements, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

The dromedary camel (Camelus dromedarius) fetal membranes, commonly referred to as “the placenta”, are epitheliochorial, diffuse, and microcotyledonary, similarly to the mare’s placenta. The evaluation of the placenta is an essential component of the neonatal evaluation in the equine species. However, post-partum or post-abortion placental assessment in dromedary camels is unfortunately too frequently neglected and, to the best of the authors’ knowledge, the dromedary camel species lacks a comprehensive description of the normal placenta’s gross morphology. In order to facilitate its on-field evaluation, the current study describes the macroscopic features of the placenta of the dromedary camel after full-term pregnancy and spontaneous parturition.

Published

2024

12. Dynamic 3D morphology of chick embryos and allantois depicted nondestructively by 3.0T clinical magnetic resonance imaging

Author

Lei Chen, Zhongqiang Wang, Xubin Fu, Shuncong Wang, Yuanbo Feng, Walter Coudyzer, Shugeng Wu, Haijun Zhang, Zhihong Chai, Yue Li, and Yicheng Ni

Subjects

magnetic resonance imaging (MRI), chick embryo (CE), allantois, 3D structure, Animal culture, SF1-1100

Abstract

ABSTRACT: Driven by a global trend of applying replace-reduce-refine or 3Rs’ guidance for experimental animals in life sciences, chick embryo and particularly allantois with its chorioallantoic membrane have been increasingly utilized to substitute laboratory animals, which call for more extensive and updated knowledge about this novel experimental setup. In this study, being noninvasive, nonionizing, and super-contrasting with high spatiotemporal resolutions, magnetic resonance imaging (MRI) was chosen as an imaging modality for in ovo monitoring morphologic evolution of the chick embryo, allantois, and chorioallantoic membrane longitudinally throughout embryonic day (ED) 1 until ED20. Cooled in 0°C ice bath for 60 min to reduce MRI motion artifacts, 3 chick embryos (n = 60 in total) on each ED were scanned by a clinical 3.0T MRI scanner to demonstrate 3D images of both T2- and T1-weighted imaging (T2WI, T1WI) sequences at axial, sagittal, and coronal slices. The volumes of both the entire chick embryo and allantois were semi-automatically segmented based on intensity-based thresholding and region-growing algorithms. The morphometries or quantified 3D structures were achieved by refined segmentation, and confirmed by histological analyses (one for each ED). After MRI, the rest of chick embryos (n = 40) continued for incubation. The images from ED2 to ED4 could demonstrate the structural changes of latebra, suggesting its transition into a nutrient supplying channel of yolk sac. The allantois could be recognized by MRI, and its relative volumes on each ED revealed an evolving profile peaked on ED12, with a statistically significant difference from those of earlier and later EDs (P < 0.01). The hypointensity of the yolk due to the susceptibility effect of its enriched iron content overshadowed the otherwise hyperintensity of its lipid components. The chick embryos survived prior cooling and MRI till hatching on ED21. The results could be further developed into a 3D MRI atlas of chick embryo. Clinical 3.0T MRI proved effective as a noninvasive approach to study in ovo 3D embryonic development across the full period (ED1–ED20), which can complement the present knowhow for poultry industry and biomedical science.

Published

2023

13. Plongée avec Françoise Dieterlen dans l'origine des cellules souches hématopoïétiques.

Author

Jaffredo, Thierry

Subjects

AORTA, ENDOTHELIUM

Abstract

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Published

2023

14. Mesothelial fusion mediates chorioallantoic membrane formation.

Author

Nagai, Hiroki, Tanoue, Yuki, Nakamura, Tomonori, Chan, Christopher J. J., Yamada, Shigehito, Saitou, Mitinori, Fukuda, Takaichi, and Sheng, Guojun

Subjects

*CHORIOALLANTOIS, *EMBRYOLOGY, *MORPHOGENESIS, *EPITHELIAL-mesenchymal transition, *MACAQUES, *RESPIRATORY organs

Abstract

In amniotic vertebrates (birds, reptiles and mammals), an extraembryonic structure called the chorioallantoic membrane (CAM) functions as respiratory organ for embryonic development. The CAM is derived from fusion between two pre-existing membranes, the allantois, a hindgut diverticulum and a reservoir for metabolic waste, and the chorion which marks the embryo's external boundary. Modified CAM in eutherian mammals, including humans, gives rise to chorioallantoic placenta. Despite its importance, little is known about cellular and molecular mechanisms mediating CAM formation and maturation. In this work, using the avian model, we focused on the early phase of CAM morphogenesis when the allantois and chorion meet and initiate fusion. We report here that chicken chorioallantoic fusion takes place when the allantois reaches the size of 2.5–3.0 mm in diameter and in about 6 hours between E3.75 and E4. Electron microscopy and immunofluorescence analyses suggested that before fusion, in both the allantois and chorion, an epithelial-shaped mesothelial layer is present, which dissolves after fusion, presumably by undergoing epithelial–mesenchymal transition. The fusion process per se, however, is independent of allantoic growth, circulation, or its connection to the developing mesonephros. Mesoderm cells derived from the allantois and chorion can intermingle post-fusion, and chorionic ectoderm cells exhibit a specialized sub-apical intercellular interface, possibly to facilitate infiltration of allantois-derived vascular progenitors into the chorionic ectoderm territory for optimal oxygen transport. Finally, we investigated chorioallantoic fusion-like process in primates, with limited numbers of archived human and fresh macaque samples. We summarize the similarities and differences of CAM formation among different amniote groups and propose that mesothelial epithelial–mesenchymal transition mediates chorioallantoic fusion in most amniotic vertebrates. Further study is needed to clarify tissue morphogenesis leading to chorioallantoic fusion in primates. Elucidating molecular mechanisms regulating mesothelial integrity and epithelial-mesenchymal transition will also help understand mesothelial diseases in the adult, including mesothelioma, ovarian cancer and fibrosis. This article is part of the theme issue 'Extraembryonic tissues: exploring concepts, definitions and functions across the animal kingdom'. [ABSTRACT FROM AUTHOR]

Published

2022

15. The mouse allantois: new insights at the embryonic–extraembryonic interface.

Author

Downs, Karen M.

Subjects

*MESODERM, *MICE, *CORD blood, *RARE diseases, *ENDODERM, *CHORION, *UMBILICAL cord

Abstract

During the early development of Placentalia, a distinctive projection emerges at the posterior embryonic–extraembryonic interface of the conceptus; its fingerlike shape presages maturation into the placental umbilical cord, whose major role is to shuttle fetal blood to and from the chorion for exchange with the mother during pregnancy. Until recently, the biology of the cord's vital vascular anlage, called the body stalk/allantois in humans and simply the allantois in rodents, has been largely unknown. Here, new insights into the development of the mouse allantois are featured, from its origin and mechanism of arterial patterning through its union with the chorion. Key to generating the allantois and its critical functions are the primitive streak and visceral endoderm, which together are sufficient to create the entire fetal–placental connection. Their newly discovered roles at the embryonic–extraembryonic interface challenge conventional wisdom, including the physical limits of the primitive streak, its function as sole purveyor of mesoderm in the mouse, potency of visceral endoderm, and the putative role of the allantois in the germ line. With this working model of allantois development, understanding a plethora of hitherto poorly understood orphan diseases in humans is now within reach. This article is part of the theme issue 'Extraembryonic tissues: exploring concepts, definitions and functions across the animal kingdom'. [ABSTRACT FROM AUTHOR]

Published

2022

16. The Allantois and Urachus: Histological Study Using Human Embryo and Fetuses.

Author

Liu, Xuelai, Xie, Xianghui, Jin, Zhe-Wu, Wang, Huan, Song, Yanbiao, Zhao, Peng, and Li, Long

Subjects

*HUMAN embryos, *UMBILICAL cord, *FETUS, *ABDOMEN, *GESTATIONAL age

Abstract

Relatively little is known about allantois and urachal development in early humans. Serial sagittal histological sections from eight human embryos and fetuses were examined to determine allantois development. At gestational age 6–7 weeks, the primitive allantois consists of an enlarged tube located between the umbilical cord and abdominal cavity, whereas the urachus is not yet developed. At 8 weeks, the allantois gradually withdraws from the distal to the proximal end of the umbilical cord, and both the proximal allantois and the rectum (hindgut) start to develop into the cloaca. At 10 weeks, the allantois was located mostly in the abdominal cavity. The urachus forms from the distal end of the allantois and develops into a closed fibrous cord between the base of the urinary bladder and the umbilicus. The urogenital sinus forms from the proximal end of the allantois. [ABSTRACT FROM AUTHOR]

Published

2022

17. Analysis of Placental Arteriovenous Formation Reveals New Insights Into Embryos With Congenital Heart Defects.

Author

Kalisch-Smith, Jacinta I., Morris, Emily C., Strevens, Mary A. A., Redpath, Andia N., Klaourakis, Kostantinos, Szumska, Dorota, Outhwaite, Jennifer E., Sun, Xin, Vieira, Joaquim Miguel, Smart, Nicola, De Val, Sarah, Riley, Paul R., and Sparrow, Duncan B.

Subjects

CONGENITAL heart disease, PLACENTA, NEOVASCULARIZATION, HEART abnormalities, CARDIOVASCULAR system, ENDOTHELIAL cells

Abstract

The placental vasculature provides the developing embryo with a circulation to deliver nutrients and dispose of waste products. However, in the mouse, the vascular components of the chorio-allantoic placenta have been largely unexplored due to a lack of well-validated molecular markers. This is required to study how these blood vessels form in development and how they are impacted by embryonic or maternal defects. Here, we employed marker analysis to characterize the arterial/arteriole and venous/venule endothelial cells (ECs) during normal mouse placental development. We reveal that placental ECs are potentially unique compared with their embryonic counterparts. We assessed embryonic markers of arterial ECs, venous ECs, and their capillary counterparts—arteriole and venule ECs. Major findings were that the arterial tree exclusively expressed Dll4 , and venous vascular tree could be distinguished from the arterial tree by Endomucin (EMCN) expression levels. The relationship between the placenta and developing heart is particularly interesting. These two organs form at the same stages of embryogenesis and are well known to affect each other's growth trajectories. However, although there are many mouse models of heart defects, these are not routinely assessed for placental defects. Using these new placental vascular markers, we reveal that mouse embryos from one model of heart defects, caused by maternal iron deficiency, also have defects in the formation of the placental arterial, but not the venous, vascular tree. Defects to the embryonic cardiovascular system can therefore have a significant impact on blood flow delivery and expansion of the placental arterial tree. [ABSTRACT FROM AUTHOR]

Published

2022

18. Analysis of Placental Arteriovenous Formation Reveals New Insights Into Embryos With Congenital Heart Defects

Author

Jacinta I. Kalisch-Smith, Emily C. Morris, Mary A. A. Strevens, Andia N. Redpath, Kostantinos Klaourakis, Dorota Szumska, Jennifer E. Outhwaite, Xin Sun, Joaquim Miguel Vieira, Nicola Smart, Sarah De Val, Paul R. Riley, and Duncan B. Sparrow

Subjects

placenta, endothelial, labyrinth, allantois, iron deficiency, congenital heart defects, Genetics, QH426-470

Abstract

The placental vasculature provides the developing embryo with a circulation to deliver nutrients and dispose of waste products. However, in the mouse, the vascular components of the chorio-allantoic placenta have been largely unexplored due to a lack of well-validated molecular markers. This is required to study how these blood vessels form in development and how they are impacted by embryonic or maternal defects. Here, we employed marker analysis to characterize the arterial/arteriole and venous/venule endothelial cells (ECs) during normal mouse placental development. We reveal that placental ECs are potentially unique compared with their embryonic counterparts. We assessed embryonic markers of arterial ECs, venous ECs, and their capillary counterparts—arteriole and venule ECs. Major findings were that the arterial tree exclusively expressed Dll4, and venous vascular tree could be distinguished from the arterial tree by Endomucin (EMCN) expression levels. The relationship between the placenta and developing heart is particularly interesting. These two organs form at the same stages of embryogenesis and are well known to affect each other’s growth trajectories. However, although there are many mouse models of heart defects, these are not routinely assessed for placental defects. Using these new placental vascular markers, we reveal that mouse embryos from one model of heart defects, caused by maternal iron deficiency, also have defects in the formation of the placental arterial, but not the venous, vascular tree. Defects to the embryonic cardiovascular system can therefore have a significant impact on blood flow delivery and expansion of the placental arterial tree.

Published

2022

19. Urachal Anomalies

Author

Fahmy, Mohamed and Fahmy, Mohamed

Published

2018

20. Mesothelial fusion mediates chorioallantoic membrane formation

Author

Hiroki Nagai, Yuki Tanoue, Tomonori Nakamura, Christopher J. J. Chan, Shigehito Yamada, Mitinori Saitou, Takaichi Fukuda, and Guojun Sheng

Subjects

Mammals, Oxygen, Allantois, Animals, Humans, Chorion, General Agricultural and Biological Sciences, General Biochemistry, Genetics and Molecular Biology, Chorioallantoic Membrane, Epithelium

Abstract

In amniotic vertebrates (birds, reptiles and mammals), an extraembryonic structure called the chorioallantoic membrane (CAM) functions as respiratory organ for embryonic development. The CAM is derived from fusion between two pre-existing membranes, the allantois, a hindgut diverticulum and a reservoir for metabolic waste, and the chorion which marks the embryo's external boundary. Modified CAM in eutherian mammals, including humans, gives rise to chorioallantoic placenta. Despite its importance, little is known about cellular and molecular mechanisms mediating CAM formation and maturation. In this work, using the avian model, we focused on the early phase of CAM morphogenesis when the allantois and chorion meet and initiate fusion. We report here that chicken chorioallantoic fusion takes place when the allantois reaches the size of 2.5–3.0 mm in diameter and in about 6 hours between E3.75 and E4. Electron microscopy and immunofluorescence analyses suggested that before fusion, in both the allantois and chorion, an epithelial-shaped mesothelial layer is present, which dissolves after fusion, presumably by undergoing epithelial–mesenchymal transition. The fusion process per se , however, is independent of allantoic growth, circulation, or its connection to the developing mesonephros. Mesoderm cells derived from the allantois and chorion can intermingle post-fusion, and chorionic ectoderm cells exhibit a specialized sub-apical intercellular interface, possibly to facilitate infiltration of allantois-derived vascular progenitors into the chorionic ectoderm territory for optimal oxygen transport. Finally, we investigated chorioallantoic fusion-like process in primates, with limited numbers of archived human and fresh macaque samples. We summarize the similarities and differences of CAM formation among different amniote groups and propose that mesothelial epithelial–mesenchymal transition mediates chorioallantoic fusion in most amniotic vertebrates. Further study is needed to clarify tissue morphogenesis leading to chorioallantoic fusion in primates. Elucidating molecular mechanisms regulating mesothelial integrity and epithelial-mesenchymal transition will also help understand mesothelial diseases in the adult, including mesothelioma, ovarian cancer and fibrosis. This article is part of the theme issue ‘Extraembryonic tissues: exploring concepts, definitions and functions across the animal kingdom’.

Published

2023

21. Optoacoustic imaging based on the interferometric measurement of surface displacement.

Author

Carp, Stefan A and Venugopalan, Vasan

Subjects

Allantois, Chorion, Chick Embryo, Animals, Image Interpretation, Computer-Assisted, Imaging, Three-Dimensional, Interferometry, Phantoms, Imaging, Surface Properties, Algorithms, Acoustics, Elasticity, Optics and Photonics, optoacoustic tomography, thermoelastic expansion, Mach-Zehnder interferometer, surface displacement, Image Interpretation, Computer-Assisted, Imaging, Three-Dimensional, Phantoms, Optics, Optical Physics, Opthalmology and Optometry, Biomedical Engineering

Abstract

We present images of tissue phantoms and chicken chorio-allantoic membrane vasculature using a novel optoacoustic tomography technique based on the time-resolved interferometric measurement of laser-induced thermoelastic expansion. Our imaging system is based on a modified Mach-Zehnder interferometer that provides surface displacement measurements with a temporal resolution of 4 ns and a displacement sensitivity of 0.3 nm. The images are reconstructed from surface displacement measurements made at several locations following irradiation of the sample with Q-switched Nd:YAG (lambda=532, 1064 nm) laser pulses using a delay and sum beam-forming algorithm. The images shown demonstrate the ability of our method to provide better than 200-microm lateral and 30-microm axial resolution at depths exceeding ten transport mean free paths in highly scattering in-vitro and in-vivo model systems.

Published

2007

22. Dynamic 3D morphology of chick embryos and allantois depicted nondestructively by 3.0T clinical magnetic resonance imaging

Author

Chen, Lei, Wang, Zhongqiang, Fu, Xubin, Wang, Shuncong, Feng, Yuanbo, Coudyzer, Walter, Wu, Shugeng, Zhang, Haijun, Chai, Zhihong, Li, Yue, and Ni, Yicheng

Subjects

magnetic resonance imaging (MRI), allantois, 3D structure, chick embryo (CE)

Abstract

Driven by a global trend of applying replace-reduce-refine or 3Rs' guidance for experimental animals in life sciences, chick embryo and particularly allantois with its chorioallantoic membrane have been increasingly utilized to substitute laboratory animals, which call for more extensive and updated knowledge about this novel experimental setup. In this study, being noninvasive, nonionizing, and super-contrasting with high spatiotemporal resolutions, magnetic resonance imaging (MRI) was chosen as an imaging modality for in ovo monitoring morphologic evolution of the chick embryo, allantois, and chorioallantoic membrane longitudinally throughout embryonic day (ED) 1 until ED20. Cooled in 0°C ice bath for 60 min to reduce MRI motion artifacts, 3 chick embryos (n = 60 in total) on each ED were scanned by a clinical 3.0T MRI scanner to demonstrate 3D images of both T2- and T1-weighted imaging (T2WI, T1WI) sequences at axial, sagittal, and coronal slices. The volumes of both the entire chick embryo and allantois were semi-automatically segmented based on intensity-based thresholding and region-growing algorithms. The morphometries or quantified 3D structures were achieved by refined segmentation, and confirmed by histological analyses (one for each ED). After MRI, the rest of chick embryos (n = 40) continued for incubation. The images from ED2 to ED4 could demonstrate the structural changes of latebra, suggesting its transition into a nutrient supplying channel of yolk sac. The allantois could be recognized by MRI, and its relative volumes on each ED revealed an evolving profile peaked on ED12, with a statistically significant difference from those of earlier and later EDs (P < 0.01). The hypointensity of the yolk due to the susceptibility effect of its enriched iron content overshadowed the otherwise hyperintensity of its lipid components. The chick embryos survived prior cooling and MRI till hatching on ED21. The results could be further developed into a 3D MRI atlas of chick embryo. Clinical 3.0T MRI proved effective as a noninvasive approach to study in ovo 3D embryonic development across the full period (ED1-ED20), which can complement the present knowhow for poultry industry and biomedical science. ispartof: Poult Sci vol:102 issue:9 pages:102902- ispartof: location:England status: Published online

Published

2023

23. An Interesting and Rare Case of Urachal Adenocarcinoma Enteric Type with Review of Literature

Author

P Manjusha Mullappali, Sandhya Sundaram, Lawrence D Cruze, S Rajendiran, and T Chandru

Subjects

allantois, haematuria, papillary growth, urachus, Medicine

Abstract

The urachus is a tubular structure that connects the bladder and allantois in the embryonic development, which involutes after third trimester. Urachal tumours are extremely rare and accounts of about 0.3-0.7% of all the bladder malignancies. We report here a case of 65-year-old male who was a known case of type II Diabetes, presented with complaints of haematuria for one and a half month. On abdominal ultrasonography and computed tomography, showed a pedunculated mass measuring 3×2 cm in the bladder wall protruding into the bladder. Cystoscopy was done, a papillary growth was noted in the dome of the bladder. Cystoscopically guided biopsy was done which showed enteric type adenocarcinoma. The surgical specimen showed urachus adenocarcinoma of enteric type Stage IIIA in the Sheldon System. This case has six months of follow-up without any recurrence or metastasis.

Published

2019

24. CDX2 dose-dependently influences the gene regulatory network underlying human extraembryonic mesoderm development.

Author

Bulger EA, McDevitt TC, and Bruneau BG

Abstract

Proper regulation of gene dosage is critical for the development of the early embryo and the extraembryonic tissues that support it. Specifically, loss of Cdx2 in vivo leads to stunted development of the allantois, an extraembryonic mesoderm-derived structure critical for nutrient delivery and waste removal in the early embryo. In this study, we investigate how CDX2 dose-dependently influences the gene regulatory network underlying extraembryonic mesoderm development. We generate an allelic series for CDX2 in human induced pluripotent stem cells (hiPSCs) consisting of WT, heterozygous, and homozygous null CDX2 genotypes, differentiate these cells in a 2D gastruloid model, and subject these cells to multiomic single nucleus RNA and ATAC sequencing. We identify several genes that CDX2 dose-dependently regulate cytoskeletal integrity and adhesiveness in the extraembryonic mesoderm population, including regulators of the VEGF, canonical WNT, and non-canonical WNT signaling pathways. Despite these dose-dependent gene expression patterns, snATAC-seq reveals that heterozygous CDX2 expression is capable of inducing a WT-like chromatin accessibility profile, suggesting accessibility is not sufficient to drive gene expression when the CDX2 dosage is reduced. Finally, because the loss of CDX2 or TBXT phenocopy one another in vivo , we compare differentially expressed genes in our CDX2 knock-out model to those from TBXT knock-out hiPSCs differentiated in an analogous experiment. This comparison identifies several communally misregulated genes that are critical for cytoskeletal integrity and tissue permeability, including ANK3 and ANGPT1 . Together, these results clarify how CDX2 dose-dependently regulates gene expression in the extraembryonic mesoderm and suggest these genes may underlie the defects in vascular development and allantoic elongation seen in the absence or reduction of CDX2 in vivo ., Competing Interests: COMPETING INTERESTS B.G.B. is a founder, shareholder, and advisor of Tenaya Therapeutics and is an advisor for Silver Creek Pharmaceuticals. T.C.M. is an employee at Genentech and is an advisor for Vitra Labs. The work presented here is not related to the interests of these commercial entities.

Published

2024

25. Photodynamic parameters in the chick chorioallantoic membrane (CAM) bioassay for topically applied photosensitizers

Author

Hammer-Wilson, Marie J, Akian, Lori, Espinoza, Jenny, Kimel, Sol, and Berns, Michael W

Subjects

Chemical Sciences, Physical Chemistry, Brain Disorders, Administration, Topical, Allantois, Animals, Chickens, Chorion, Microscopy, Video, Photochemotherapy, Photosensitizing Agents, 5-aminolevulinic acid, benzoporphyrin derivative monoacid ring A, lutetium texaphyrin, photodynamic therapy, Photofrin, sulfonated chloro-aluminum phthalocyanine, vascular damage, Other Physical Sciences, Biochemistry and Cell Biology, Biophysics, Physical chemistry

Abstract

The relative efficacy of Photofrin-based photodynamic therapy (PDT) has been compared with that of the second-generation photosensitizers 5-aminolevulinic acid (ALA), sulfonated chloro-aluminum phthalocyanine (AlPcSn), benzoporphyrin derivative monoacid ring A (BPD-MA), and lutetium texaphyrin (Lutex). PDT-induced vascular damage in the chick chorioallantoic membrane (CAM) is measured following topical application of the photosensitizers. In order to make meaningful comparisons, care is taken to keep treatment variables the same. These include light dose (5 and 10 J/cm2), power density (33 and 100 mW/cm2), and drug uptake time (30 and 90 min). The drug dose ranges from 0.1 microgram/cm2 for BPD to 5000 micrograms/cm2 for ALA. Results are also analyzed statistically according to CAM vessel type (arterioles versus venules), vessel diameter, and vessel development (embryonic age). For each photosensitizer, the order of importance for the various PDT parameters is found to be unique. The differences between the sensitizers are most likely due to variation in biophysical and biochemical characteristics, biodistribution, and uptake kinetics.

Published

1999

26. Systemic application of photosensitizers in the chick chorioallantoic membrane (CAM) model: photodynamic response of CAM vessels and 5-aminolevulinic acid uptake kinetics by transplantable tumors

Author

Hornung, Rene, Hammer-Wilson, Marie J, Kimel, Sol, Liaw, Lih-Huei, Tadir, Yona, and Berns, Michael W

Subjects

Chemical Sciences, Physical Chemistry, Cancer, Allantois, Aminolevulinic Acid, Animals, Biological Transport, Carcinoma, Squamous Cell, Cell Division, Chick Embryo, Chorion, Female, Kinetics, Metalloporphyrins, Ovarian Neoplasms, Photosensitizing Agents, Porphyrins, Rats, Rats, Inbred F344, Tumor Cells, Cultured, chick chorioallantoic membrane, rat ovarian cancer, second-generation photosensitizers, photodynamic therapy, laser-induced fluorescence diagnostics, Other Physical Sciences, Biochemistry and Cell Biology, Biophysics, Physical chemistry

Abstract

The aim of this study is to modify the chick chorioallantoic membrane (CAM) model into a whole-animal tumor model for photodynamic therapy (PDT). By using intraperitoneal (i.p.) photosensitizer injection of the chick embryo, use of the CAM for PDT has been extended to include systemic delivery as well as topical application of photosensitizers. The model has been tested for its capability to mimic an animal tumor model and to serve for PDT studies by measuring drug fluorescence and PDT-induced effects. Three second-generation photosensitizers have been tested for their ability to produce photodynamic response in the chick embryo/CAM system when delivered by i.p. injection: 5-aminolevulinic acid (ALA), benzoporphyrin derivative monoacid ring A (BPD-MA), and Lutetium-texaphyrin (Lu-Tex). Exposure of the CAM vasculature to the appropriate laser light results in light-dose-dependent vascular damage with all three compounds. Localization of ALA following i.p. injections in embryos, whose CAMs have been implanted with rat ovarian cancer cells to produce nodules, is determined in real time by fluorescence of the photoactive metabolite protoporphyrin IX (PpIX). Dose-dependent fluorescence in the normal CAM vasculature and the tumor implants confirms the uptake of ALA from the peritoneum, systemic circulation of the drug, and its conversion to PpIX.

Published

1999

27. The Microbiome of Reproductive Tissues, and Amniotic and Allantoic Fluid of Pregnant Gilts During Mid- and Late Gestation.

Author

Hickman-Brown, Kyle J., Smith, Molly S., McAnally, Brooke E., Cain, Joe, Seo, Heewon, Bazer, Fuller W., Johnson, Greg, Wiegert, Jeffrey G., and Poole, Rebecca K.

Subjects

*AMNIOTIC liquid, *YORKSHIRE swine, *SOWS, *SURGICAL swabs, *PREGNANCY outcomes, *PREGNANCY, *ENDOMETRIUM

Abstract

The differences between the microbial communities in reproductive tissues, and amniotic and allantoic fluids of cattle have previously been investigated. Our objective was to provide insight into microbial differences across reproductive tissues in gilts during mid- and late-gestation. Specifically, we characterized the microbiomes of the vagina, cervix, endometrium, chorion, and allantoic and amniotic fluids. Duroc x Landrace x Yorkshire gilts (n = 12) free of physical, health or reproductive-related issues were euthanized and hysterectomized at either mid-gestation (d 60, n = 6) or late-gestation (d 90, n = 6). A sterile swab was rotated 8 times to collect samples from the mucosal surface of individual tissues and immediately placed in microcentrifuge tubes for storage (-80°C) until sequencing. To sample the endometrium and cervix, a 1 cm incision was made to expose the endometrium and interdigitating prominences, whereas for vaginal sampling, sterile swabs were inserted 6 inches past the vulva and then rotated. For collection of samples of chorion, an incision was made in the endometrium, exposing the chorioallantois to allow sampling of both the chorion-endometrial and chorion-allantois sides. For allantoic and amniotic fluids, 5 mL samples were collected and placed immediately in a sterile 10 mL conical tube and stored (-80°C) for subsequent analyses. Bacterial DNA was extracted and genome sequencing targeting the V4 hypervariable region of the 16S rRNA gene was conducted by FERA Diagnostics and Biologicals Corp. Data were analyzed statistically using the GLM procedure in SAS. Across all samples, abundances of the phylum Firmicutes was affected by stage of pregnancy with greater relative abundance at d 90 compared with d 60 (52.23 ± 2.85% vs 42.60 ± 3.14%, respectively; P = 0.03). Within this phylum and across all samples, the relative abundance of the genus Lactobacillus differed due to stage of pregnancy with a greater relative abundance at d 90 compared with d 60 (19.33 ± 2.37% vs 12.14 ± 2.61%, respectively; P = 0.05). Lactobacillus was most abundant in allantoic fluid when compared with all other samples (P < 0.01). The relative abundance of the genus Streptococcus, within the phylum Firmicutes, was less in amniotic and allantoic fluid compared with the cervix and vagina (P < 0.01). The phylum Bacteroidetes tended to differ by sample type (P = 0.06) with amniotic fluid having the lowest relative abundance. Within this phylum, the relative abundance of the genus Prevotella was also least in amniotic fluid (P < 0.01). These results suggest that microbial communities of reproductive tissues and fluids differ between mid- and late-gestation in pregnant gilts. Additional research on reproductive microbiomes in swine, and other livestock species, is required to develop methods to modulate bacteria and improve reproductive performance and successful outcomes of pregnancy. [ABSTRACT FROM AUTHOR]

Published

2023

28. TMED2/emp24 is required in both the chorion and the allantois for placental labyrinth layer development.

Author

Hou, Wenyang and Jerome-Majewska, Loydie A.

Subjects

*MEMBRANE proteins, *CHORION, *PLACENTAL labyrinth, *MESSENGER RNA, *GENE expression

Abstract

Abstract TMED2, a member of the transmembrane emp24 domain (TMED) family, is required for transport of cargo proteins between the ER and Golgi. TMED2 is also important for normal morphogenesis of mouse embryos and their associated placenta, and in fact Tmed2 homozygous mutant embryos arrest at mid-gestation due to a failure of placental labyrinth layer formation. Differentiation of the placental labyrinth layer depends on chorioallantoic attachment (contact between the chorion and allantois), and branching morphogenesis (mingling of cells from these two tissues). Since Tmed2 mRNA was found in both the chorion and allantois, and 50% of Tmed2 homozygous mutant embryos failed to undergo chorioallantoic attachment, the tissue-specific requirement of Tmed2 during placental labyrinth layer formation remained a mystery. Herein, we report differential localization of TMED2 protein in the chorion and allantois, abnormal ER retention of Fibronectin in Tmed2 homozygous mutant allantoises and cell-autonomous requirement for Tmed2 in the chorion for chorioallantoic attachment and fusion. Using an ex vivo model of explanted chorions and allantoises, we showed that chorioallantoic attachment failed to occur in 50% of samples when homozygous mutant chorions were recombined with wild type allantoises. Furthermore, though expression of genes associated with trophoblast differentiation was maintained in Tmed2 mutant chorions with chorioallantoic attachment, expression of these genes was attenuated. In addition, Tmed2 homozygous mutant allantoises could undergo branching morphogenesis, however the region of mixing between mutant and wild type cells was reduced, and expression of genes associated with trophoblast differentiation was also attenuated. Our data also suggest that Fibronectin is a cargo protein of TMED2 and indicates that Tmed2 is required cell-autonomously and non-autonomously in the chorion and the allantois for placental labyrinth layer formation. [ABSTRACT FROM AUTHOR]

Published

2018

29. Optical Doppler Tomography: Imaging in vivo Blood Flow Dynamics Following Pharmacological Intervention and Photodynamic Therapy

Author

Chen, Zhongping, Milner, Thomas E, Wang, Xiaojun, Srinivas, Shyam, and Nelson, J Stuart

Subjects

Biological Sciences, Chemical Sciences, Physical Sciences, Biomedical Imaging, Allantois, Animals, Chick Embryo, Chorion, Doppler Effect, Hemorheology, Photochemotherapy, Rats, Splanchnic Circulation, Tomography, Biophysics, Biological sciences, Chemical sciences, Physical sciences

Abstract

A noninvasive optical technique has been developed for imaging in vivo blood flow dynamics and vessel structure with high spatial resolution. The technique is based on optical Doppler tomography, which combines Doppler velocimetry with optical coherence tomography to measure blood flow velocity at discrete spatial locations in turbid biological tissue. Applications of this technique for monitoring changes in blood flow dynamics and vessel structure following pharmacological intervention and photodynamic therapy are demonstrated.

Published

1998

30. Expression of SPARC during development of the chicken chorioallantoic membrane: evidence for regulated proteolysis in vivo.

Author

Iruela-Arispe, ML, Lane, TF, Redmond, D, Reilly, M, Bolender, RP, Kavanagh, TJ, and Sage, EH

Subjects

Biochemistry and Cell Biology, Biological Sciences, Underpinning research, 1.1 Normal biological development and functioning, Allantois, Amino Acid Sequence, Animals, Capillaries, Cell Adhesion, Chick Embryo, Chorion, Endopeptidases, Endothelium, Vascular, Extracellular Space, Fibrinolysin, Gene Expression Regulation, Developmental, Microscopy, Confocal, Molecular Sequence Data, Morphogenesis, Osteonectin, Peptide Fragments, Medical and Health Sciences, Developmental Biology, Biochemistry and cell biology

Abstract

SPARC is a secreted glycoprotein that has been shown to disrupt focal adhesions and to regulate the proliferation of endothelial cells in vitro. Moreover, peptides resulting from the proteolysis of SPARC exhibit angiogenic activity. Here we describe the temporal synthesis, turnover, and angiogenic potential of SPARC in the chicken chorioallantoic membrane. Confocal immunofluorescence microscopy revealed specific expression of SPARC protein in endothelial cells, and significantly higher levels of SPARC were observed in smaller newly formed blood vessels in comparison to larger, developmentally older vessels. SPARC mRNA was detected at the earliest stages of chorioallantoic membrane morphogenesis and reached maximal levels at day 13 of embryonic development. Interestingly, steady-state levels of SPARC mRNA did not correlate directly with protein accumulation; moreover, the protein appeared to undergo limited degradation during days 10-15. Incubation of [125I]-SPARC with chorioallantoic membranes of different developmental ages confirmed that extracellular proteolysis occurred during days 9-15, but not at later stages (e.g., days 17-21). Comparison of peptides produced by incubation with chorioallantoic membranes with those generated by plasmin showed an identical pattern of proteolysis. Plasmin activity was present throughout development, and in situ zymography identified sites of plasminogen activator activity that corresponded to areas exhibiting high levels of SPARC expression. Synthetic peptides from a plasmin-sensitive region of SPARC, between amino acids 113-130, stimulated angiogenesis in the chorioallantoic membrane in a dose-dependent manner; in contrast, intact SPARC was inactive in similar assays. We have shown that SPARC is expressed in endothelial cells of newly formed blood vessels in a manner that is both temporally and spatially restricted. Between days 9 and 15 of chorioallantoic membrane development, the protein undergoes proteolytic cleavage that is mediated, in part, by plasmin. SPARC peptides released specifically by plasmin induce angiogenesis in vivo. We therefore propose that SPARC acts as an intrinsic regulator of angiogenesis in vivo.

Published

1995

31. 5-ALA-mediated fluorescence of musculoskeletal tumors in a chick chorio-allantoic membrane model: preclinical in vivo qualification analysis as a fluorescence-guided surgery agent in Orthopedic Oncology

Author

Wiebke K. Guder, Wolfgang Hartmann, Clarissa Buhles, Maike Burdack, Maike Busch, Nicole Dünker, Jendrik Hardes, Uta Dirksen, Sebastian Bauer, and Arne Streitbürger

Subjects

5-Aminolevulinic acid, Medizin, Contrast Media, Chick chorio-allantoic membrane model, Chick Embryo, Diseases of the musculoskeletal system, Sensitivity and Specificity, Fluorescence, Allantois, Animals, Orthopedic Procedures, Orthopedics and Sports Medicine, Fluorescent Dyes, Orthopedic surgery, Musculoskeletal tumor, Sarcoma, Aminolevulinic Acid, Photodynamic detection, Surgical Oncology, Tumor fluorescence, Photochemotherapy, Surgery, Computer-Assisted, RC925-935, Surgery, RD701-811, Research Article

Abstract

Background Fluorescence-guided surgery (FGS) with 5-aminolevulinic acid (5-ALA) and other contrast agents has shown its efficacy in improving resection margins, local recurrence and survival rates in several medical disciplines. It is the objective of this study to analyze the engraftment rate of musculoskeletal tumor specimens on the chick chorio-allantoic membrane (CAM), the rate of tumor fluorescence (PDD), and the effects of photodynamic therapy (PDT) after exposure of tumors to 5-ALA in an in vivo environment. Methods A total of 486 CAMs were inoculated with macroscopic tumor grafts (n = 26; n = 478 eggs) and primary cell culture suspensions (n = 2; n = 8 eggs) from 26 patients on day 10 of egg development. On day 16, 2 mg/200 µl 5-ALA were topically applied per egg. After 4 h of incubation, Protoporphyrin IX was excited using blue light (420 ± 10 nm). Tumor fluorescence (PDD) was photo-documented. A subgroup of specimens was additionally exposed to red light (635 nm ± 10 nm; PDT). After the termination of the experiment, CAM-grown tumors were histopathologically analyzed. Results Benign and borderline tumors (chondroblastoma, giant cell tumor of bone and atypical chondrogenic tumor) presented with high rates of detectable fluorescence. Comparable results were found for chondrosarcoma, osteosarcoma and Ewing’s sarcoma among bone and dedifferentiated liposarcoma, myxofibrosarcoma and undifferentiated pleomorphic sarcoma among soft tissue sarcomas. Overall, tumor fluorescence was negative for 20.2%, single-positive (+) for 46.9% and double-positive (++) for 32.9% of macroscopic xenografts, and negative in 20% and (+) in 80% of primary cell culture tumors. Macroscopic tumor xenografts (n = 478) were identified as viable in 14.8%, partially viable in 2.9% and partially to completely regressive in 45.2%. All (n = 8) tumors grown from primary cell culture were viable. After PDT, tumor samples were found viable in 5.5%, partially viable in 5.5% and partially to completely regressive in 68%. Egg survival increased with decreasing PDT doses. Conclusions The CAM model proves to be a suitable in vivo model for the investigation of short-term observation questions in musculoskeletal tumors. The findings of this study warrant further investigation of PDT effects on musculoskeletal tumors and a possible incorporation of 5-ALA FGS in clinical Orthopedic Oncology care.

Published

2022

32. Differential Vascular Response to Laser Photothermolysis

Author

Milner, Thomas E, Nelson, J Stuart, Berns, Michael W, Hammer-Wilson, Marie, Kimel, SOL, Svaasand, Lars O, and Schell, Michael J

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Allantois, Animals, Blood Vessels, Chick Embryo, Chorion, Hot Temperature, Laser Coagulation, Models, Biological, Time Factors, ARTERIES AND VEINS, CAM, HEMOSTASIS, PULSED DYE LASER, Oncology and Carcinogenesis, Dermatology & Venereal Diseases, Clinical sciences

Abstract

Individual blood vessels in the chick choriallantoic membrane were selectively coagulated through photothermolysis, using pulsed laser irradiation at 585 nm. Pulse durations were chosen to be 0.45 ms and 10 ms, which correspond to the thermal relaxation times in blood vessels of 30 microns and 150 microns diameter, respectively. The short pulses, at a light fluence F = 3 Jcm-2, caused permanent occlusion of vessels of 40 microns diameter or less, whereas larger caliber vessels (60-120 microns) required F = 4-5 Jcm-2. The long-duration pulses, at F = 7 Jcm-2, caused coagulation of the larger diameter vessels; the small-caliber vessels and capillaries showed resistance to photothermolysis and required multiple exposures to achieve coagulation. The fluence versus diameter (F versus d) relationship for coagulation was calculated for the two pulse durations. The energy deposited in a cylindrical absorber of diameter d by an optical field, incident perpendicular to the vessel, was expressed analytically and compared with the energy required to coagulate a blood vessel of the same lumen dimeter. When thermal diffusion is incorporated into the model, our findings can be accounted for quantitatively. This information will be of use for improving the laser treatment of port wine stains and other vasculopathies. A surprising observation was that arterioles were damaged at lower incident energy densities than venules having the same lumen diameter, despite the fact that absorbance in oxygen-rich and oxygen-poor blood is the same at 585 nm.

Published

1994

33. Differential vascular response to laser photothermolysis.

Author

Kimel, S, Svaasand, LO, Hammer-Wilson, M, Schell, MJ, Milner, TE, Nelson, JS, and Berns, MW

Subjects

Blood Vessels, Allantois, Chorion, Chick Embryo, Animals, Laser Coagulation, Models, Biological, Time Factors, Hot Temperature, ARTERIES AND VEINS, CAM, HEMOSTASIS, PULSED DYE LASER, Models, Biological, Dermatology & Venereal Diseases, Clinical Sciences, Oncology and Carcinogenesis

Abstract

Individual blood vessels in the chick choriallantoic membrane were selectively coagulated through photothermolysis, using pulsed laser irradiation at 585 nm. Pulse durations were chosen to be 0.45 ms and 10 ms, which correspond to the thermal relaxation times in blood vessels of 30 microns and 150 microns diameter, respectively. The short pulses, at a light fluence F = 3 Jcm-2, caused permanent occlusion of vessels of 40 microns diameter or less, whereas larger caliber vessels (60-120 microns) required F = 4-5 Jcm-2. The long-duration pulses, at F = 7 Jcm-2, caused coagulation of the larger diameter vessels; the small-caliber vessels and capillaries showed resistance to photothermolysis and required multiple exposures to achieve coagulation. The fluence versus diameter (F versus d) relationship for coagulation was calculated for the two pulse durations. The energy deposited in a cylindrical absorber of diameter d by an optical field, incident perpendicular to the vessel, was expressed analytically and compared with the energy required to coagulate a blood vessel of the same lumen dimeter. When thermal diffusion is incorporated into the model, our findings can be accounted for quantitatively. This information will be of use for improving the laser treatment of port wine stains and other vasculopathies. A surprising observation was that arterioles were damaged at lower incident energy densities than venules having the same lumen diameter, despite the fact that absorbance in oxygen-rich and oxygen-poor blood is the same at 585 nm.

Published

1994

34. The Allantois and Urachus: Histological Study Using Human Embryo and Fetuses

Author

Zhe Wu Jin, Yanbiao Song, Xianghui Xie, Peng Zhao, Long Li, Huan Wang, and Xuelai Liu

Subjects

Fetus, Urinary bladder, Umbilicus, business.industry, Umbilicus (mollusc), Urinary Bladder, Infant, Allantois, General Medicine, Abdominal cavity, Anatomy, Umbilical cord, Urachus, Umbilical Cord, Pathology and Forensic Medicine, medicine.anatomical_structure, Cloaca (embryology), Pediatrics, Perinatology and Child Health, medicine, Humans, business

Abstract

Relatively little is known about allantois and urachal development in early humans. Serial sagittal histological sections from eight human embryos and fetuses were examined to determine allantois development. At gestational age 6-7 weeks, the primitive allantois consists of an enlarged tube located between the umbilical cord and abdominal cavity, whereas the urachus is not yet developed. At 8 weeks, the allantois gradually withdraws from the distal to the proximal end of the umbilical cord, and both the proximal allantois and the rectum (hindgut) start to develop into the cloaca. At 10 weeks, the allantois was located mostly in the abdominal cavity. The urachus forms from the distal end of the allantois and develops into a closed fibrous cord between the base of the urinary bladder and the umbilicus. The urogenital sinus forms from the proximal end of the allantois.

Published

2021

35. Dynamic 3D morphology of chick embryos and allantois depicted nondestructively by 3.0T clinical magnetic resonance imaging.

Author

Chen L, Wang Z, Fu X, Wang S, Feng Y, Coudyzer W, Wu S, Zhang H, Chai Z, Li Y, and Ni Y

Subjects

Chick Embryo, Animals, Magnetic Resonance Imaging veterinary, Magnetic Resonance Imaging methods, Chorioallantoic Membrane, Iron, Chickens, Allantois

Abstract

Driven by a global trend of applying replace-reduce-refine or 3Rs' guidance for experimental animals in life sciences, chick embryo and particularly allantois with its chorioallantoic membrane have been increasingly utilized to substitute laboratory animals, which call for more extensive and updated knowledge about this novel experimental setup. In this study, being noninvasive, nonionizing, and super-contrasting with high spatiotemporal resolutions, magnetic resonance imaging (MRI) was chosen as an imaging modality for in ovo monitoring morphologic evolution of the chick embryo, allantois, and chorioallantoic membrane longitudinally throughout embryonic day (ED) 1 until ED20. Cooled in 0°C ice bath for 60 min to reduce MRI motion artifacts, 3 chick embryos (n = 60 in total) on each ED were scanned by a clinical 3.0T MRI scanner to demonstrate 3D images of both T2- and T1-weighted imaging (T2WI, T1WI) sequences at axial, sagittal, and coronal slices. The volumes of both the entire chick embryo and allantois were semi-automatically segmented based on intensity-based thresholding and region-growing algorithms. The morphometries or quantified 3D structures were achieved by refined segmentation, and confirmed by histological analyses (one for each ED). After MRI, the rest of chick embryos (n = 40) continued for incubation. The images from ED2 to ED4 could demonstrate the structural changes of latebra, suggesting its transition into a nutrient supplying channel of yolk sac. The allantois could be recognized by MRI, and its relative volumes on each ED revealed an evolving profile peaked on ED12, with a statistically significant difference from those of earlier and later EDs (P < 0.01). The hypointensity of the yolk due to the susceptibility effect of its enriched iron content overshadowed the otherwise hyperintensity of its lipid components. The chick embryos survived prior cooling and MRI till hatching on ED21. The results could be further developed into a 3D MRI atlas of chick embryo. Clinical 3.0T MRI proved effective as a noninvasive approach to study in ovo 3D embryonic development across the full period (ED1-ED20), which can complement the present knowhow for poultry industry and biomedical science., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2023

36. The mouse allantois: new insights at the embryonic–extraembryonic interface

Author

Karen M. Downs

Subjects

Mesoderm, Mice, Primitive Streak, Allantois, Pregnancy, Placenta, Animals, Humans, Female, Embryo, Mammalian, General Agricultural and Biological Sciences, General Biochemistry, Genetics and Molecular Biology

Abstract

During the early development of Placentalia, a distinctive projection emerges at the posterior embryonic–extraembryonic interface of the conceptus; its fingerlike shape presages maturation into the placental umbilical cord, whose major role is to shuttle fetal blood to and from the chorion for exchange with the mother during pregnancy. Until recently, the biology of the cord's vital vascular anlage, called the body stalk/allantois in humans and simply the allantois in rodents, has been largely unknown. Here, new insights into the development of the mouse allantois are featured, from its origin and mechanism of arterial patterning through its union with the chorion. Key to generating the allantois and its critical functions are the primitive streak and visceral endoderm, which together are sufficient to create the entire fetal–placental connection. Their newly discovered roles at the embryonic–extraembryonic interface challenge conventional wisdom, including the physical limits of the primitive streak, its function as sole purveyor of mesoderm in the mouse, potency of visceral endoderm, and the putative role of the allantois in the germ line. With this working model of allantois development, understanding a plethora of hitherto poorly understood orphan diseases in humans is now within reach. This article is part of the theme issue ‘Extraembryonic tissues: exploring concepts, definitions and functions across the animal kingdom’.

Published

2022

37. Extragonadal primordial germ cells or placental progenitor cells?

Author

Downs, Karen M.

Subjects

*GERM cells, *PLACENTAL hormones, *REGENERATION (Biology), *PROGENITOR cells, *YOLK sac

Abstract

Primordial germ cells (PGCs), the precursors of the gametes, are now claimed to segregate within the extra-embryonic tissues of three species of placental mammals. In this brief Commentary, I raise the question of whether the so-called PGCs are not PGCs at all, but rather, progenitor cells that build the fetal–placental interface in Placentalia. [ABSTRACT FROM AUTHOR]

Published

2018

38. Visceral endoderm and the primitive streak interact to build the fetal-placental interface of the mouse gastrula.

Author

Rodriguez, Adriana M. and Downs, Karen M.

Subjects

*ENDODERM, *GASTRULATION, *FETAL development, *MESODERM, *HEDGEHOG signaling proteins, *EPITHELIAL cells, *MESENCHYMAL stem cells

Abstract

Hypoblast/visceral endoderm assists in amniote nutrition, axial positioning and formation of the gut. Here, we provide evidence, currently limited to humans and non-human primates, that hypoblast is a purveyor of extraembryonic mesoderm in the mouse gastrula. Fate mapping a unique segment of axial extraembryonic visceral endoderm associated with the allantoic component of the primitive streak, and referred to as the “AX”, revealed that visceral endoderm supplies the placentae with extraembryonic mesoderm. Exfoliation of the AX was dependent upon contact with the primitive streak, which modulated Hedgehog signaling. Resolution of the AX’s epithelial-to-mesenchymal transition (EMT) by Hedgehog shaped the allantois into its characteristic projectile and individualized placental arterial vessels. A unique border cell separated the delaminating AX from the yolk sac blood islands which, situated beyond the limit of the streak, were not formed by an EMT. Over time, the AX became the hindgut lip, which contributed extensively to the posterior interface, including both embryonic and extraembryonic tissues. The AX, in turn, imparted antero-posterior (A-P) polarity on the primitive streak and promoted its elongation and differentiation into definitive endoderm. Results of heterotopic grafting supported mutually interactive functions of the AX and primitive streak, showing that together, they self-organized into a complete version of the fetal-placental interface, forming an elongated structure that exhibited A-P polarity and was composed of the allantois, an AX-derived rod-like axial extension reminiscent of the embryonic notochord, the placental arterial vasculature and visceral endoderm/hindgut. [ABSTRACT FROM AUTHOR]

Published

2017

39. Phylogeny and evolutionary history of the amniote egg

Author

James R. Stewart, J. Matthias Starck, and Daniel G. Blackburn

Subjects

0106 biological sciences, 0301 basic medicine, Extraembryonic Membranes, Biology, 010603 evolutionary biology, 01 natural sciences, Internal fertilization, 03 medical and health sciences, Pregnancy, Phylogenetics, biology.animal, medicine, Animals, Yolk sac, Phylogeny, Yolk Sac, Amnion, Vertebrate, Allantois, Chorion, biology.organism_classification, 030104 developmental biology, medicine.anatomical_structure, Anamniotes, Evolutionary biology, Vertebrates, embryonic structures, Female, Animal Science and Zoology, Amniote, Developmental Biology

Abstract

We review morphological features of the amniote egg and embryos in a comparative phylogenetic framework, including all major clades of extant vertebrates. We discuss 40 characters that are relevant for an analysis of the evolutionary history of the vertebrate egg. Special attention is given to the morphology of the cellular yolk sac, the eggshell, and extraembryonic membranes. Many features that are typically assigned to amniotes, such as a large yolk sac, delayed egg deposition, and terrestrial reproduction have evolved independently and convergently in numerous clades of vertebrates. We use phylogenetic character mapping and ancestral character state reconstruction as tools to recognize sequence, order, and patterns of morphological evolution and deduce a hypothesis of the evolutionary history of the amniote egg. Besides amnion and chorioallantois, amniotes ancestrally possess copulatory organs (secondarily reduced in most birds), internal fertilization, and delayed deposition of eggs that contain an embryo in the primitive streak or early somite stage. Except for the amnion, chorioallantois, and amniote type of eggshell, these features evolved convergently in almost all major clades of aquatic vertebrates possibly in response to selective factors such as egg predation, hostile environmental conditions for egg development, or to adjust hatching of young to favorable season. A functionally important feature of the amnion membrane is its myogenic contractility that moves the (early) embryo and prevents adhering of the growing embryo to extraembryonic materials. This function of the amnion membrane and the liquid-filled amnion cavity may have evolved under the requirements of delayed deposition of eggs that contain developing embryos. The chorioallantois is a temporary embryonic exchange organ that supports embryonic development. A possible evolutionary scenario is that the amniote egg presents an exaptation that paved the evolutionary pathway for reproduction on land. As shown by numerous examples from anamniotes, reproduction on land has occurred multiple times among vertebrates-the amniote egg presenting one "solution" that enabled the conquest of land for reproduction.

Published

2021

40. STELLA collaborates in distinct mesendodermal cell subpopulations at the fetal-placental interface in the mouse gastrula.

Author

Wolfe, Adam D., Rodriguez, Adriana M., and Downs, Karen M.

Subjects

*GASTRULATION, *CELL populations, *PLACENTA physiology, *PROGENITOR cells, *LABORATORY mice

Abstract

The allantois-derived umbilical component of the chorio-allantoic placenta shuttles fetal blood to and from the chorion, thereby ensuring fetal-maternal exchange. The progenitor populations that establish and supply the fetal-umbilical interface lie, in part, within the base of the allantois, where the germ line is claimed to segregate from the soma. Results of recent studies in the mouse have reported that STELLA (DPPA-3, PGC7) co-localizes with PRDM1 (BLIMP1), the bimolecular signature of putative primordial germ cells (PGCs) throughout the fetal-placental interface. Thus, if PGCs form extragonadally within the posterior region of the mammal, they cannot be distinguished from the soma on the basis of these proteins. We used immunohistochemistry, immunofluorescence, and confocal microscopy of the mouse gastrula to co-localize STELLA with a variety of gene products, including pluripotency factor OCT-3/4, mesendoderm-associated T and MIXl1, mesendoderm- and endoderm-associated FOXa2 and hematopoietic factor Runx1 . While a subpopulation of cells localizing OCT-3/4 was always found independently of STELLA, STELLA always co-localized with OCT-3/4. Despite previous reports that T is involved in specification of the germ line, co-localization of STELLA and T was detected only in a small subset of cells in the base of the allantois. Slightly later in the hindgut lip, STELLA+/(OCT-3/4+) co-localized with FOXa2, as well as with RUNX1, indicative of definitive endoderm and hemangioblasts, respectively. STELLA was never found with MIXl1. On the basis of these and previous results, we conclude that STELLA identifies at least five distinct cell subpopulations within the allantois and hindgut, where they may be involved in mesendodermal differentiation and hematopoiesis at the posterior embryonic-extraembryonic interface. These data provide a new point of departure for understanding STELLA's potential roles in building the fetal-placental connection. [ABSTRACT FROM AUTHOR]

Published

2017

41. Incubation relative humidity induces renal morphological and physiological remodeling in the embryo of the chicken (Gallus gallus domesticus).

Author

Bolin, Greta, Dubansky, Benjamin, and Burggren, Warren W.

Subjects

*OSMOREGULATION, *CHICKEN hatcheries, *CHICKENS, *OXYGEN consumption, *BIRDS, *PHYSIOLOGY, CHICKEN embryology

Abstract

The metanephric kidneys of the chicken embryo, along with the chorioallantoic membrane, process water and ions to maintain osmoregulatory homeostasis. We hypothesized that changes in relative humidity (RH) and thus osmotic conditions during embryogenesis would alter the developmental trajectory of embryonic kidney function. White leghorn chicken eggs were incubated at one of 25–30% relative humidity, 55–60% relative humidity, and 85–90% relative humidity. Embryos were sampled at days 10, 12, 14, 16, and 18 to examine embryo and kidney mass, glomerular characteristics, body fluid osmolalities, hematological properties, and whole embryo oxygen consumption. Low and especially high RH elevated mortality, which was reflected in a 10–20% lower embryo mass on D18. Low RH altered several glomerular characteristics by day 18, including increased numbers of glomeruli per kidney, increased glomerular perfusion, and increased total glomerular volume, all indicating potentially increased functional kidney capacity. Hematological variables and plasma and amniotic fluid osmolalities remained within normal physiological values. However, the allantoic, amniotic and cloacal fluids had a significant increase in osmolality at most developmental points sampled. Embryonic oxygen consumption increased relative to control at both low and high relative humidities on Day 18, reflecting the increased metabolic costs of osmotic stress. Major differences in both renal structure and performance associated with changes in incubation humidity occurred after establishment of the metanephric kidney and persisted into late development, and likely into the postnatal period. These data indicate that the avian embryo deserves to be further investigated as a promising model for fetal programming of osmoregulatory function, and renal remodeling during osmotic stress. [ABSTRACT FROM AUTHOR]

Published

2017

42. The use of semi-quantitative tests at Cesarean section delivery for the differentiation of canine fetal fluids from maternal urine on the basis of biochemical characteristics.

Author

Balogh, Orsolya, Roch, Marie, Keller, Stefanie, Michel, Erika, and Reichler, Iris M.

Subjects

*CESAREAN section, *AMNIOTIC liquid, *URINALYSIS, *VAGINAL discharge, *FETAL membranes

Abstract

In dogs, there is no diagnostic test to identify and differentiate fetal fluids from maternal urine in the event that a clear–yellowish vulvar discharge is observed pre-whelping. The objective of this study was to find a test that could easily and accurately identify rupture of the fetal membranes preceding parturition. Maternal urine, and amniotic fluid (AMF) and allantoic fluid (ALF) from only one fetus per bitch, were collected intraoperatively during Cesarean section. Specific gravity (SG) was analyzed with a refractometer, whereas the presence of leukocytes, protein, glucose, ketones, bilirubin, urobilinogen, nitrite, erythrocyte/hemoglobin (Hb), and the pH were assessed using a urine dipstick (Combur-Test ® ). Combined calcium and magnesium (Ca/Mg) content were evaluated with the Total Hardness Test. The AmniSure test, which detects rupture of fetal membranes in women on the basis of the presence of human placental alpha microglobulin-1, was also performed on canine AMF, ALF, and urine. Data were analyzed using the Fisher's exact test, Wilcoxon signed-rank test, and Pearson's correlation. Sensitivity, specificity, and positive and negative likelihood ratios (LR) were calculated for parameters with significant difference between urine and both fetal fluids. Maternal urine had higher SG and lower leukocyte, protein, Hb, and Ca/Mg content than AMF and ALF. Glucose was more often present in AMF (n = 17) and ALF (n = 12) than in urine (n = 1), whereas ketone bodies were rarely detected in ALF compared with urine. Bilirubin content was higher in urine and ALF than in AMF. AMF pH was less variable and higher than the pH of ALF or urine. The AmniSure was negative in all samples tested. Sensitivity and specificity for SG and for the detection of leukocytes, protein, glucose, Hb, Ca/Mg, and glucose without ketones in urine and fetal fluids were between 42% to 100% and 65% to 100%, respectively. Best positive LR was achieved for the detection of glucose without ketones and best negative LR for SG of 1.022 or less. In conclusion, the AmniSure test, which is used in humans with high diagnostic accuracy, cannot identify AMF and ALF in dogs. On the basis of our results in 26 dogs undergoing Cesarean section, the presence or absence of fetal fluids could be best determined by a positive glucose test without ketone bodies or by SG higher than 1.022, respectively. These tests may serve as additional tools to recognize parturition if clear–yellowish vulvar discharge is present in a term pregnant bitch, but their accuracy and practicability in the clinical setting need to be confirmed. [ABSTRACT FROM AUTHOR]

Published

2017

43. PRDM1/BLIMP1 is widely distributed to the nascent fetal-placental interface in the mouse gastrula.

Author

Mikedis, Maria M. and Downs, Karen M.

Abstract

Background: PRDM1 is a transcriptional repressor that contributes to primordial germ cell (PGC) development. During early gastrulation, epiblast-derived PRDM1 is thought to be restricted to a lineage-segregated germ line in the allantois. However, given recent findings that PGCs overlap an allantoic progenitor pool that contributes widely to the fetal-umbilical interface, posterior PRDM1 may also contribute to soma. Results: Within the posterior mouse gastrula (early streak, 12-s stages, embryonic days ∼6.75-9.0), PRDM1 localized to all tissues containing putative PGCs; however, PRDM1 was also found in all three primary germ layers, their derivatives, and two presumptive growth centers, the allantoic core domain and ventral ectodermal ridge. While PRDM1 and STELLA colocalized predominantly within the hindgut, where putative PGCs reside, other colocalizing cells were found in non-PGC sites. Additional PRDM1 and STELLA cells were found independent of each other throughout the posterior region, including the hindgut. The Prdm1-Cre-driven reporter supported PRDM1 localization in the majority of sites; however, some Prdm1 descendants were found in sites independent of PRDM1 protein, including allantoic mesothelium and hindgut endoderm. Conclusions: Posterior PRDM1 contributes more broadly to the developing fetal-maternal connection than previously recognized, and PRDM1 and STELLA, while overlapping in putative PGCs, also co-localize in several other tissues. Developmental Dynamics 246:50-71, 2017. © 2016 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2017

44. An Interesting and Rare Case of Urachal Adenocarcinoma Enteric Type with Review of Literature.

Author

MULLAPPALI, P. MANJUSHA, SUNDARAM, SANDHYA, CRUZE, LAWRENCE D., RAJENDIRAN, S., and CHANDRU, T.

Subjects

*TYPE 2 diabetes, *LITERATURE reviews, *ADENOCARCINOMA, *EMBRYOLOGY, *COMPUTED tomography

Abstract

The urachus is a tubular structure that connects the bladder and allantois in the embryonic development, which involutes after third trimester. Urachal tumours are extremely rare and accounts of about 0.3-0.7% of all the bladder malignancies. We report here a case of 65-year-old male who was a known case of type II Diabetes, presented with complaints of haematuria for one and a half month. On abdominal ultrasonography and computed tomography, showed a pedunculated mass measuring 3×2 cm in the bladder wall protruding into the bladder. Cystoscopy was done, a papillary growth was noted in the dome of the bladder. Cystoscopically guided biopsy was done which showed enteric type adenocarcinoma. The surgical specimen showed urachus adenocarcinoma of enteric type Stage IIIA in the Sheldon System. This case has six months of follow-up without any recurrence or metastasis. [ABSTRACT FROM AUTHOR]

Published

2019

45. Uncommon Location of an Urachal Cyst-A Case Report

Author

Sangeeta Saxena, Radhey Sankhala, Arpit Samdani, Dharmraj Meena, and Umesh Kumar Saini

Subjects

adult, allantois, umbilicus, Medical physics. Medical radiology. Nuclear medicine, R895-920, Surgery, RD1-811

Abstract

Umbilicus is gateway of physiologically and anatomically different body structure in intrauterine period, urachus is one of them. Urachal cysts are extremely rare and even more uncommon in adults, as it is usually diagnosed in children. Diagnosis remain herculean in adults because of nonspecific symptoms, rarity of lesion and a wide umbilical pathologies as a differential diagnosis. We presenting a case of an adult 20 years old girl with on and off abdomen pain for few years, presenting to us with chief complaint of burning micturition. Radiological and laboratory investigations and surgical finding lead us to diagnosis of urachal cyst. Patient had no history of any umbilical discharge, considering her age and cyst location, urachal anomalies were kept as rare differential diagnosis. In this case location of cyst was atypical, therefore high index of suspicion and knowledge of umbilical anatomy and related pathologies is needed to achieve a diagnosis. Complete surgical excision is the treatment of choice.

Published

2016

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

Author

Karen M. Downs

Subjects

Fetal Proteins, 0301 basic medicine, Cancer Research, Erythroblasts, Chromosomal Proteins, Non-Histone, Placenta, Biology, Mice, 03 medical and health sciences, 0302 clinical medicine, Placentalia, Allantois, Pregnancy, Genetics, medicine, Animals, Molecular Biology, Yolk Sac, Blood Cells, Endoderm, Gene Expression Regulation, Developmental, Cell Biology, Hematology, Cell biology, Patched-1 Receptor, Haematopoiesis, 030104 developmental biology, Hypoblast, medicine.anatomical_structure, 030220 oncology & carcinogenesis, embryonic structures, Female, T-Box Domain Proteins, Octamer Transcription Factor-3, Placental blood, Extra embryonic

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.

Published

2020

47. Foetal development of endocrine organs in dog

Author

Julianna Thuróczy

Subjects

medicine.medical_specialty, medicine.medical_treatment, Endocrine System, Biology, Fetal Development, 03 medical and health sciences, Dogs, 0302 clinical medicine, Endocrinology, Pregnancy, Internal medicine, medicine, Animals, Endocrine system, reproductive and urinary physiology, 030219 obstetrics & reproductive medicine, Amnion, Adrenal cortex, Insulin, Thyroid, 0402 animal and dairy science, Allantois, 04 agricultural and veterinary sciences, Fluid compartments, Amniotic Fluid, Fetal Blood, 040201 dairy & animal science, medicine.anatomical_structure, embryonic structures, Female, Animal Science and Zoology, Pancreas, Biotechnology

Abstract

The canine adenohypophysis starts to be identifiable from 25 day of pregnancy. ACTH-immunoreactive cells migrate until day 38 after which the number of ACTH-producing cells increases but their distribution does not change. The STH- and LH-producing cells first appear on day 38 of pregnancy. The primordium of the adrenal glands appears as a slender structure on day 27 and forms the definitive cortical structure on day 35. The histological pattern of the foetal adrenal cortex differs from the post-natal structure in so far as the three cortical zones (definitive zone, transitional zone and foetal zone) extend from the outside towards the inside of gland. The mass of foetal and neonatal adrenals is more than 10 times larger than the adult adrenals relative to body weight. The cortisol concentration in the amnion is slightly lower than in the allantois but the foetal serum cortisol concentration is significantly higher than in the maternal and foetal fluid compartments. The thyroxine concentrations in the allantois and amnion fluids exceed the foetal serum concentrations except in the ninth week of pregnancy, but thyroxine levels in foetal fluids and serum are below the physiological levels of adult animals. The exocrine and endocrine functions of the pancreas develop and act in parallel. Pancreatic cells are first detected at 30 days when the branched structure is clearly detectable immunohistochemically, and at that time, insulin-positive β-cells and α-cells are visible as well. The foetal serum glucose concentration exceeds the healthy adult range, but the glucose concentration in the allantois and amnion fluid remains below the physiological blood glucose concentration of mature dogs. The insulin concentration in the allantois fluid greatly exceeds the foetal serum and amnion insulin concentrations.

Published

2020

48. Isolation and Propagation of Coronaviruses in Embryonated Eggs

Author

Guy, James S.

Subjects

Embryonated egg, animal structures, Turkey, Allantoic, viruses, Infectious bronchitis virus, Chick Embryo, Chicken, Article, Viral Tropism, Allantois, embryonic structures, Coronavirus, Turkey, Animals, Amniotic, Amnion

Abstract

The embryonated egg is a complex structure comprised of an embryo and its supporting membranes (chorioallantoic, amniotic, and yolk). The developing embryo and its membranes provide a diversity of cell types that allow for the successful replication of a wide variety of different viruses. Within the family Coronaviridae the embryonated egg has been used as a host system primarily for two avian coronaviruses within the genus Gammacoronavirus, infectious bronchitis virus (IBV) and turkey coronavirus (TCoV). IBV replicates well in the embryonated chicken egg, regardless of inoculation route; however, the allantoic route is favored as the virus replicates well in epithelium lining the chorioallantoic membrane, with high virus titers found in these membranes and associated allantoic fluids. TCoV replicates only in epithelium lining the embryo intestines and bursa of Fabricius; thus, amniotic inoculation is required for isolation and propagation of this virus. Embryonated eggs also provide a potential host system for detection, propagation, and characterization of other, novel coronaviruses.

Published

2020

49. Equine hydrallantois is associated with impaired angiogenesis in the placenta

Author

Hossam El-Sheikh Ali, Peter Daels, Alan T. Loynachan, Kirsten E. Scoggin, Pouya Dini, Mariano Carossino, Barry A. Ball, and Karen E. Wolfsdorf

Subjects

Polyhydramnios, Vascular Endothelial Growth Factor A, Placenta Diseases, Angiogenesis, Placenta, Andrology, Allantois, Pregnancy, Interstitial fluid, Edema, medicine, Animals, Horses, Vascular Endothelial Growth Factor Receptor-1, Neovascularization, Pathologic, Chemistry, Obstetrics and Gynecology, Transplacental, Hypoxia (medical), Vascular Endothelial Growth Factor Receptor-2, Chorioallantoic membrane, HIF1A, medicine.anatomical_structure, Reproductive Medicine, Pregnancy, Animal, Female, Horse Diseases, medicine.symptom, Microvascular Density, Developmental Biology

Abstract

Introduction Hydrallantois is the excessive accumulation of fluid in the allantoic cavities during the last trimester of pregnancy, leading to abdominal wall hernias, cardiovascular shock, abortion, and dystocia. It has been postulated that hydrallantois is associated with structural and/or functional changes in the chorioallantoic membrane. In the present study, we hypothesized that angiogenesis is impaired in the hydrallantoic placenta. Method Capillary density in the hydrallantoic placenta was evaluated in the chorioallantois via immunohistochemistry for Von Willebrand Factor. Moreover, the expression of angiogenic genes was compared between equine hydrallantois and age-matched, normal placentas. Results In the hydrallantoic samples, edema was the main pathological finding. The capillary density was significantly lower in the hydrallantoic samples than in normal placentas. The reduction in the number of vessels was associated with abnormal expression of a subset of angiogenic and hypoxia-associated genes including VEGF, VEGFR1, VEGFR2, ANGPT1, eNOS and HIF1A. We believe that the capillary density and the abnormal expression of angiogenic genes leads to tissue hypoxia (high expression of HIF1A) and edema. Finally, we identified a lower expression of genes associated with steroidogenic enzyme (CYP19A1) and estrogen receptor signaling (ESR2) in the hydrallantoic placenta. Discussion Based on the presented data, we believe that formation of edema is due to disrupted vascular development (low number of capillaries) and hypoxia in the hydrallantoic placenta. The edema leads to further hypoxia and consequently, causes an increase in vessel permeability which leads to a gradual increase in interstitial fluid accumulation, resulting in an insufficient transplacental exchange rate and accumulation of fluid in the allantoic cavity.

Published

2020

50. A Synergistic Relationship between Polycaprolactone and Natural Polymers Enhances the Physical Properties and Biological Activity of Scaffolds

Author

Nupur Kohli, Laurent Bozec, Jeviya Mohanakrishnan, Elena García-Gareta, Benyamin Rahmani, Poojitha Rajasekar, and Prasad Sawadkar

Subjects

Scaffold, Materials science, Cell Survival, Polymers, Polyesters, Neovascularization, Physiologic, Biocompatible Materials, Chick Embryo, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Regenerative medicine, chemistry.chemical_compound, Tissue engineering, Allantois, Animals, Humans, General Materials Science, Cell Proliferation, chemistry.chemical_classification, Fibrin, Tissue Engineering, Tissue Scaffolds, biology, Mesenchymal stem cell, Cell Differentiation, Mesenchymal Stem Cells, Biological activity, Chorion, Polymer, 021001 nanoscience & nanotechnology, Elastin, 0104 chemical sciences, chemistry, Polycaprolactone, biology.protein, Biophysics, Collagen, 0210 nano-technology

Abstract

Biomaterials for tissue engineering include natural and synthetic polymers, but their clinical application is still limited due to various disadvantages associated with the use of these polymers. This uncertainty of the polymeric approach in tissue engineering launches an opportunity to address a key question: can we eliminate the disadvantages of both natural and synthetic polymers by combining them to form a synergistic relationship? To answer this question, we fabricated scaffolds from elastin, collagen, fibrin, and electrospun polycaprolactone (PCL) with different ratios. The material characterization of these scaffolds investigated degradation, water contact angle, angiogenesis by an ex ovo chorion allantoic membrane (CAM) assay, and mechanical and structural properties. Biological activity and specific differentiation pathways (MSC, adipogenic, osteogenic, myogenic, and chondrogenic) were studied by using human adipose-derived stem cells. Results indicated that all composite polymers degraded at a different rate, thus affecting their mechanical integrity. Cell-based assays demonstrated continual proliferative and viable properties of the cells on all seeded scaffolds with the particular initiation of a differentiation pathway among which the PCL/collagen/fibrin composite was the most angiogenic material with maximum vasculature. We were able to tailor the physical and biological properties of PCL-based composites to form a synergistic relationship for various tissue regeneration applications.

Published

2020