The mechanism of mouse egg-cylinder morphogenesis in vitro

Development ◽  
1981 ◽  
Vol 61 (1) ◽  
pp. 277-287
Author(s):  
A. J. Copp
Keyword(s):  
Giant Cell ◽  
Cell Formation ◽  
Cell Movement ◽  
Giant Cells ◽  
Cell Number ◽  
Dependent Change ◽  
Morphogenesis In Vitro ◽  
Trophoblast Giant Cells

The number of trophoblast giant cells in outgrowths of mouse blastocysts was determined before, during and after egg-cylinder formation in vitro. Giant-cell numbers rose initially but reached a plateau 12 h before the egg cylinder appeared. A secondary increase began 24 h after egg-cylinder formation. Blastocysts whose mural trophectoderm cells were removed before or shortly after attachment in vitro formed egg cylinders at the same time as intact blastocysts but their trophoblast outgrowths contained fewer giant cells at this time. The results support the idea that egg-cylinder formation in vitro is accompanied by a redirection of the polar to mural trophectoderm cell movement which characterizes blastocysts before implantation. The resumption of giant-cell number increase in trophoblast outgrowths after egg-cylinder formation may correspond to secondary giant-cell formation in vivo. It is suggested that a time-dependent change in the strength of trophoblast cell adhesion to the substratum occurs after blastocyst attachment in vitro which restricts the further entry of polar cells into the outgrowth and therefore results in egg-cylinder formation.

In vivo and in vitro development of mouse embryos homozygous for the embryonic lethal velvet coat (Ve) mutation

Development ◽  
1981 ◽  
Vol 66 (1) ◽  
pp. 43-55
Author(s):  
J. Rossant ◽  
K. M. Vijh
Keyword(s):  
Inner Cell Mass ◽  
Cell Mass ◽  
Giant Cells ◽  
Blastocyst Stage ◽  
Parietal Endoderm ◽  
Trophoblast Giant Cells ◽  
Vitro Development ◽  
Ectoplacental Cone

Embryos homozygous for the velvet coat mutation, Ve/Ve, were recognized at 6·5 days post coitum by the reduced size of the ectodermal portions of the egg cylinder and the loose, columnar nature of the overlying endoderm. Later in development ectoderm tissues were sometimes entirely absent. Abnormalities appeared in the ectoplacental cone at 8·5 days but trophoblast giant cells and parietal endoderm appeared unaffected. Homozygotes could not be unequivocally identified at 5·5 days nor at the blastocyst stage but were recognized in blastocyst outgrowths by poor development of the inner cell mass derivatives, It has previously been suggested that Ve may exert its action at the blastocyst stage by reducing the size of the inner cell mass, but no evidence for such a reduction was found. Most of the observations on Ve/Ve homozygotes are, however, consistent with the hypothesis that Ve exerts its action primarily on later primitive ectoderm development.

Response of preimplantation rat blastocysts in vitro to extracellular uterine luminal components, serum and hormones

1977 ◽  
Vol 25 (1) ◽  
pp. 265-277
Author(s):  
M.A. Surani
Keyword(s):  
Calf Serum ◽  
Giant Cells ◽  
Biologically Active ◽  
Foetal Calf Serum ◽  
Active Components ◽  
Rat Serum ◽  
Pregnant Females ◽  
Trophoblast Giant Cells

The influence of extracellular environmental factors on preimplantation rat blastocysts was tested by determining the number of embryos which escaped from their zonae pellucidae, followed by attachment and outgrowth of trophoblast giant cells, after 72 h in culture Uterine luminal ocmponents from individual females, or hormones, were included in Dulbecco's medium which contained 4 mg/ml bovine serum albumin. In about 20% of cases, uterine fluids were embryotonic. However, uterine fluids from day-5 pregnant females, the day of implantation in the rat, were more potent in these tests than uterine fluids obtained from ovariectomized females treated with progesterone alone. The potency of a mixture of the 2 fluids was also high. Uterine fluids obtained at 14 h after an injection of oestradiol and progesterone to the ovariectomized females, were also effective in these tests. Rat serum and foetal calf serum were effective too, but steroids or insulin alone in the medium had no detectable influence on embryos. Serum or uterine luminal proteins appear to be essential for maintaining the viability of the blastocysts and for inducing the responses observed here. In the uterine fluids, some proteins released into the lumen after treatment of females with oestradiol and progesterone appear to be the biologically active components. Differences in the responses of blastocysts in vitro are compared with those in vivo.

scholarly journals Differentiation of Trophoblast Giant Cells and Their Metabolic Functions Are Dependent on Peroxisome Proliferator-Activated Receptor β/δ

2006 ◽  
Vol 26 (8) ◽  
pp. 3266-3281 ◽  
Author(s):  
Karim Nadra ◽  
Silvia I. Anghel ◽  
Elisabeth Joye ◽  
Nguan Soon Tan ◽  
Sharmila Basu-Modak ◽  
...  
Keyword(s):  
Cell Differentiation ◽  
Giant Cell ◽  
Giant Cells ◽  
Peroxisome Proliferator ◽  
Phosphatidylinositol 3 Kinase ◽  
Peroxisome Proliferator Activated Receptor ◽  
Metabolic Functions ◽  
Integrin Linked Kinase ◽  
Trophoblast Giant Cells

ABSTRACT Mutation of the nuclear receptor peroxisome proliferator-activated receptor β/δ (PPARβ/δ) severely affects placenta development, leading to embryonic death at embryonic day 9.5 (E9.5) to E10.5 of most, but not all, PPARβ/δ-null mutant embryos. While very little is known at present about the pathway governed by PPARβ/δ in the developing placenta, this paper demonstrates that the main alteration of the placenta of PPARβ/δ-null embryos is found in the giant cell layer. PPARβ/δ activity is in fact essential for the differentiation of the Rcho-1 cells in giant cells, as shown by the severe inhibition of differentiation once PPARβ/δ is silenced. Conversely, exposure of Rcho-1 cells to a PPARβ/δ agonist triggers a massive differentiation via increased expression of 3-phosphoinositide-dependent kinase 1 and integrin-linked kinase and subsequent phosphorylation of Akt. The links between PPARβ/δ activity in giant cells and its role on Akt activity are further strengthened by the remarkable pattern of phospho-Akt expression in vivo at E9.5, specifically in the nucleus of the giant cells. In addition to this phosphatidylinositol 3-kinase/Akt main pathway, PPARβ/δ also induced giant cell differentiation via increased expression of I-mfa, an inhibitor of Mash-2 activity. Finally, giant cell differentiation at E9.5 is accompanied by a PPARβ/δ-dependent accumulation of lipid droplets and an increased expression of the adipose differentiation-related protein (also called adipophilin), which may participate to lipid metabolism and/or steroidogenesis. Altogether, this important role of PPARβ/δ in placenta development and giant cell differentiation should be considered when contemplating the potency of PPARβ/δ agonist as therapeutic agents of broad application.

scholarly journals Polarized distribution of Na+,K+-ATPase in giant cells elicited in vivo and in vitro.

1989 ◽  
Vol 37 (8) ◽  
pp. 1265-1271 ◽  
Author(s):  
A Vignery ◽  
T Niven-Fairchild ◽  
D H Ingbar ◽  
M Caplan
Keyword(s):  
Plasma Membrane ◽  
Giant Cell ◽  
Giant Cells ◽  
Suitable Model ◽  
Inflammatory Reactions ◽  
Morphological Alterations ◽  
Multinucleated Cells ◽  
High Level

Giant cell formation was analyzed to determine whether it results in the high level of Na+,K+-ATPase expression that characterizes multinucleated cells such as osteoclasts. Giant cells and fusing alveolar macrophages were subjected to morphological, immunological, and biochemical studies. Both subunits of the Na+,K+-ATPase were found to be present on the plasma membrane of giant cells. Their localization was restricted to the non-adherent domain of the cell surface. Dynamic studies of giant cell differentiation demonstrated that on culture and/or multinucleation, an increase in sodium pump alpha-subunit synthesis occurred and led to a high level of expression of Na pumps. Conversely, the adherent plasma membrane of giant cells was enriched in a lysosomal membrane antigen. This study demonstrates that culture and/or multinucleation induces a significant increase in the expression of sodium pumps. The polarized distribution of these pumps and of a lysosomal component suggests that fusing macrophages undergo biochemical and morphological alterations which prepare them for a new and specialized function in chronic inflammatory reactions. Giant cells may offer a suitable model system to study the differentiation of other related multinucleated cells, such as osteoclasts.

scholarly journals 217. PROTEINASE 3 PROMOTES MULTINUCLEATE GIANT CELL FORMATION IN GRANULOMATOSIS WITH POLYANGIITIS AND CAN BE MODELLED IN VITRO AND IN VIVO

Rheumatology ◽  
2019 ◽  
Vol 58 (Supplement_2) ◽  
Author(s):  
Scott Henderson ◽  
Maryam Khosravi ◽  
Harry Horsley ◽  
Alan Greig ◽  
Paul Frankel ◽  
...  
Keyword(s):  
Giant Cell ◽  
Granulomatosis With Polyangiitis ◽  
Cell Formation ◽  
Proteinase 3 ◽  
Multinucleate Giant Cell ◽  
Giant Cell Formation

Patterns of lactic dehydrogenase isozymes in mouse embryos over the implantation period in vivo and in vitro

Development ◽  
1976 ◽  
Vol 36 (3) ◽  
pp. 653-662
Author(s):  
Marilyn Monk ◽  
John Ansell
Keyword(s):  
Specific Activity ◽  
Inner Cell Mass ◽  
Cell Mass ◽  
Lactic Dehydrogenase ◽  
Giant Cells ◽  
Preimplantation Embryos ◽  
Blastocyst Implantation ◽  
Trophoblast Giant Cells

Following blastocyst implantation, or outgrowth in vitro, the LDH isozyme pattern changes from that of the maternally inherited B subunit isozyme form (LDH-1) to a pattern dominated by A subunits (Auerbach & Brinster, 1967, 1968). In preimplantation embryos we have also observed additional isozyme bands, as yet unidentified. An analysis of the pattern of newly synthesized LDH isozymes and specific activity of LDH in different regions of early post implantation embryos suggests that there is a sequential activation of A and B subunits, and that activity first appears in ICM- (inner cell mass) derived tissues and then in trophoblast-derived tissues. In vitro, in the absence of ICM cells, the transition of LDHisozyme pattern does not occur in outgrowing trophoblast giant cells. This suggests a possible inductive interaction between ICM and trophoblast.

scholarly journals Phagocytosis as a potential mechanism for microbial defense of mouse placental trophoblast cells

Reproduction ◽  
2004 ◽  
Vol 128 (2) ◽  
pp. 207-218 ◽  
Author(s):  
A Amarante-Paffaro ◽  
G S Queiroz ◽  
S T Corrêa ◽  
B Spira ◽  
E Bevilacqua
Keyword(s):  
Giant Cells ◽  
Interferon Γ ◽  
Immune Defense ◽  
Trophoblast Cells ◽  
Histological Techniques ◽  
Complement Component C3 ◽  
Microbial Defense ◽  
Trophoblast Giant Cells

Trophoblast giant cells are active phagocytes during implantation and post-implantation. Phagocytosis decreases during placental maturation as the phagocytic function of nutrition is gradually replaced by the direct uptake of nutrients by the labyrinth zone trophoblast. We hypothesize that, after placental maturation, trophoblast cells maintain phagocytic functions for purposes other than nutrition. This study employs histological techniques to examine the ability of trophoblast cells to phagocytose microorganisms (yeast or bacteria)–in vivoin females receiving thioglycolate to activate macrophages andin vitroin the presence of phagocytic promoters such as interferon-γ and complement component C3. Placental trophoblast cells from the second half of gestation show basal phagocytosis that can be dramatically up-regulated by these promoters when microorganisms are inoculated into pregnant animals or introduced into culture systems. Stimulated trophoblast cells phagocytosed organisms more rapidly and in greater numbers than non-stimulated trophoblast exposed to the same numbers of organisms. Taken together, our results indicate that trophoblast cells do not lose their ability to phagocytose during the placentation process, which may imply that trophoblast cells participate in embryonic and fetal innate immune defense through elimination of microorganisms present at the maternal–fetal interface.

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