SPP1 expression in the mouse uterus and placenta: Implications for implantation

Abstract Secreted phosphoprotein 1 [SPP1, also known as osteopontin (OPN)] binds integrins to mediate cell–cell and cell-extracellular matrix communication to promote cell adhesion, migration, and differentiation. Considerable evidence links SPP1 to pregnancy in several species. Current evidence suggests that SPP1 is involved in implantation and placentation in mice, but in vivo localization of SPP1 and in vivo mechanistic studies to substantiate these roles are incomplete and contradictory. We localized Spp1 mRNA and protein in the endometrium and placenta of mice throughout gestation, and utilized delayed implantation of mouse blastocysts to link SPP1 expression to the implantation chamber. Spp1 mRNA and protein localized to the endometrial luminal (LE), but not glandular epithelia (GE) in interimplantation regions of the uterus throughout gestation. Spp1 mRNA and protein also localized to uterine naturel killer (uNK) cells of the decidua. Within the implantation chamber, Spp1 mRNA localized only to intermittent LE cells, and to the inner cell mass. SPP1 protein localized to intermittent trophoblast cells, and to the parietal endoderm. These results suggest that SPP1: 1) is secreted by the LE at interimplantation sites for closure of the uterine lumen to form the implantation chamber; 2) is secreted by LE adjacent to the attaching trophoblast cells for attachment and invasion of the blastocyst; and 3) is not a component of histotroph secreted from the GE, but is secreted from uNK cells in the decidua to increase angiogenesis within the decidua to augment hemotrophic support of embryonic/fetal development of the conceptus.

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Ratio and number of inner cell mass and trophoblast cells of in vitro and in vivo produced porcine embryos

Theriogenology ◽

10.1016/0093-691x(95)92458-l ◽

1995 ◽

Vol 43 (1) ◽

pp. 304 ◽

Cited By ~ 5

Author(s):

D. Rath ◽

H. Niemann ◽

T. Tao ◽

M. Boerjan

Keyword(s):

Inner Cell Mass ◽

Cell Mass ◽

Trophoblast Cells

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Stem cell defects in parthenogenetic peri-implantation embryos

Development ◽

10.1242/dev.121.7.2069 ◽

1995 ◽

Vol 121 (7) ◽

pp. 2069-2077

Author(s):

E.D. Newman-Smith ◽

Z. Werb

Keyword(s):

Stem Cells ◽

Growth Factor ◽

Inner Cell Mass ◽

Cell Mass ◽

Cell Types ◽

Insulin Like Growth Factor ◽

Embryonic Antigen ◽

Parietal Endoderm

Mouse embryos containing only maternal chromosomes (parthenotes) develop abnormally in vivo, usually failing at the peri-implantation stage. We have analyzed the development of parthenote embryos by using an inner cell mass (ICM) outgrowth assay that mimics peri-implantation development. ICMs from normal embryos maintained undifferentiated stem cells positive for stage-specific embryonic antigen-1 and Rex-1 while differentiating into a variety of cell types, including visceral endoderm-like cells and parietal endoderm cells. In contrast, ICMs from parthenotes failed to maintain undifferentiated stem cells and differentiated almost exclusively into parietal endoderm. This suggests that parthenote ICMs have a defect that leads to differentiation, rather than maintenance, of the stem cells, and a defect that leads to a parietal endoderm fate for the stem cells. To test the hypothesis that the ICM population is not maintained owing to a lack of proliferation of the stem cells, we investigated whether mitogenic agents were able to maintain the ICM population in parthenotes. When parthenote blastocysts were supplied with the insulin-like growth factor-1 receptor (Igf-1r) and insulin-like growth factor-2 (Igf-2), two genes not detectable in parthenote blastocysts by in situ hybridization, the ICM population was maintained. Similarly, culture of parthenote blastocysts in medium conditioned by embryonic fibroblasts and supplemented with the maternal factor leukemia inhibitory factor maintained the ICM population. However, once this growth factor-rich medium was removed, the parthenote ICM cells still differentiated predominantly into parietal endoderm.(ABSTRACT TRUNCATED AT 250 WORDS)

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

Development ◽

10.1242/dev.66.1.43 ◽

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.

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Correlative scanning electron, transmission electron, and light microscopic studies of the in vitro development of mouse embryos on a plastic substrate at the implantation stage

Development ◽

10.1242/dev.56.1.23 ◽

1980 ◽

Vol 56 (1) ◽

pp. 23-39

Author(s):

Matthew A. Gonda ◽

Yu-Chih Hsu

Keyword(s):

Inner Cell Mass ◽

Cell Mass ◽

Plastic Substrate ◽

Trophoblast Cells ◽

Electron Transmission ◽

Transmission Electron ◽

Development In Vitro ◽

Scanning Electron

Correlative scanning electron, transmission electron, and light microscopy were utilized to study the morphogenic events occurring during mouse blastocyst outgrowth and earlyegg- cylinder development in vitro. After hatching and attachment of blastocysts on theplastic surface, the blastocoelic cavity collapses as the mural trophoblasts spread and migrate outward. The inner cell mass is covered with a differentiated endoderm on the blastocoelic cavity side and by the polar trophoblasts on the medium sideat this stage. As the endodermcovered inner cell mass proliferates, being physically restricted from further downward expansion by the plastic coverslip and by lack of space in the collapsed blastocoelic cavity, it migrates upward and protrudes into the culture medium in a breakbetween the polar and mural trophoblast cells. Polar trophoblast cellsapposed to the base of the egg cylinder continue to proliferate forming the ectoplacental cone. Thus, the early egg cylinder lacking a trophoblast barrier begins inverting its growth pattern from towards the culture dish surface to a more upright position. Egg-cylinder development in vitro from the inner cell mass and polar trophoblast cells closely paralleled in vivo. The functional nature of variousembryonic cell types observed in these embryos was revealed by scanning electron microscopy. These studies as well as those of Wiley and Pedersen (1977) suggest that blastocysts can serve as a source of in vitro developing early mouse egg cylinders that appear to resemble their in vivo counterparts and can be used in experimental studies of mouse embryogenesis.

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276 EXPRESSION OF CD9 AND ALPHA6-INTEGRIN IN PORCINE BLASTOCYSTS

Reproduction Fertility and Development ◽

10.1071/rdv21n1ab276 ◽

2009 ◽

Vol 21 (1) ◽

pp. 235 ◽

Cited By ~ 1

Author(s):

M. D. Goissis ◽

F. R. O. de Barros ◽

M. G. Marques ◽

C. M. Mendes ◽

M. P. Milazzotto ◽

...

Keyword(s):

Inner Cell Mass ◽

Rna Extraction ◽

Cell Mass ◽

Embryonic Stem ◽

Trophoblast Cells ◽

Pcr Products ◽

Nucleotide Database ◽

First Time

Establishment of embryonic stem cell (ESC) culture in pigs has not been achieved. Verification of pluripotency markers is necessary for validation of a pluripotent cell line. Not all markers observed in ESC from other species are characterized in swine embryos. The objective of this study was to characterize CD9 and α6-integrin expression in porcine blastocysts and to derive porcine ESC using Matrigel. In vitro or in vivo porcine blastocysts were submitted to total RNA extraction for RT-PCR, fixation for immunocytochemistry or immunosurgery for culture of inner cell mass. Expression of Oct-4, CD9, and α6-integrin was detected by PCR. CD9 and α6-integrin PCR products had their nucleotide sequence assessed and compared with public nucleotide database. CD9 product was identical to CD9 porcine sequences and α6-integrin product was similar to human and equine α6-integrin. Immunocytochemistry revealed Oct-4 expression in cytoplasm of the inner cell mass (ICM) and trophoblast cells. CD9 and α6-integrin were observed preferentially on trophoblast cells. No ESC colonies were obtained using co-culture on mouse embryonic fibroblasts (MEF) or on Matrigel. This study describes for the first time expression of CD9 and α6-integrin in porcine blastocysts. Financial support: Fapesp 05/57314-0.

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The development of trophoblast in vitro from blastocysts containing varying amounts of inner cell mass

Development ◽

10.1242/dev.33.1.177 ◽

1975 ◽

Vol 33 (1) ◽

pp. 177-185

Author(s):

J. D. Ansell ◽

M. H. L. Snow

Keyword(s):

Giant Cell ◽

Cell Transformation ◽

Inner Cell Mass ◽

Cell Mass ◽

Calf Serum ◽

Foetal Calf Serum ◽

Trophoblast Cells ◽

Intact Mouse

When intact mouse blastocysts are cultured in vitro in medium supplemented with foetal calf serum, trophoblast cells proliferate and undergo giant cell transformation such as occurs in vivo. If the amount of inner cell mass in the blastocyst is decreased by culture with [3H]-thymidine then giant cell transformation occurs normally but proliferation is reduced. In the absence of inner cell mass no proliferation occurs, and giant cell transformation is more rapid than in undamaged blastocysts.

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The preimplantation pig embryo: cell number and allocation to trophectoderm and inner cell mass of the blastocyst in vivo and in vitro

Development ◽

10.1242/dev.102.4.793 ◽

1988 ◽

Vol 102 (4) ◽

pp. 793-803 ◽

Cited By ~ 3

Author(s):

V.E. Papaioannou ◽

K.M. Ebert

Keyword(s):

Inner Cell Mass ◽

Cell Mass ◽

Staining Technique ◽

Cell Number ◽

Total Cell ◽

Differential Staining ◽

Morphological Development ◽

Total Cell Number

Total cell number as well as differential cell numbers representing the inner cell mass (ICM) and trophectoderm were determined by a differential staining technique for preimplantation pig embryos recovered between 5 and 8 days after the onset of oestrus. Total cell number increased rapidly over this time span and significant effects were found between embryos of the same chronological age from different females. Inner cells could be detected in some but not all embryos of 12–16 cells. The proportion of inner cells was low in morulae but increased during differentiation of ICM and trophectoderm in early blastocysts. The proportion of ICM cells then decreased as blastocysts expanded and hatched. Some embryos were cultured in vitro and others were transferred to the oviducts of immature mice as a surrogate in vivo environment and assessed for morphology and cell number after several days. Although total cell number did not reach in vivo levels, morphological development and cell number increase was sustained better in the immature mice than in vitro. The proportion of ICM cells in blastocysts formed in vitro was in the normal range.

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The control of trophoblastic growth in the guinea pig

Development ◽

10.1242/dev.60.1.405 ◽

1980 ◽

Vol 60 (1) ◽

pp. 405-418

Author(s):

E. B. Ilgren

Keyword(s):

Guinea Pig ◽

Inner Cell Mass ◽

Cell Mass ◽

The Other ◽

In Vivo Analysis

The growth of mouse trophectoderm depends upon the presence of the inner cell mass. Whether this applies to other species of mammals is not known. To investigate this problem, the guinea pig was selected for two reasons. Firstly, the growth of guinea-pig trophoblast resembles that of man. Secondly, earlier studies suggest that the proliferation of guinea-pig trophectoderm may not be under ICM control. Therefore, in the present study, the guinea-pig blastocyst was cut microsurgically to yield two tissue fragments. These contained roughly equal numbers of trophectodermal cells, one fragment being composed only of trophectoderm and the other containing ICM tissue as well. Subsequently, the growth of these mural and polar fragments was followed in vitro since numerous technical difficulties make an in vivo analysis of this problem impracticable. In a manner similar to the mouse, the isolated mural trophectoderm of the guinea pig stopped dividing and became giant. In contrast, guinea-pig polar fragments formed egg-cylinder-like structures. The latter contained regions structurally similar to two presumptive polar trophectodermal derivatives namely the ectoplacental and extraembryonic ectodermal tissues. These findings suggest that guinea-pig trophectodermal growth may occur in a manner similar to the mouse and thus be under ICM control.

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Use of chemically defined system for the direct comparison of inner cell mass and trophectoderm distribution in murine, porcine and bovine embryos

Zygote ◽

10.1017/s0967199400003890 ◽

1997 ◽

Vol 5 (4) ◽

pp. 309-320 ◽

Cited By ~ 49

Author(s):

Rabindranath de la Fuente ◽

W. Allan King

Keyword(s):

Inner Cell Mass ◽

Cell Mass ◽

Cell Number ◽

Total Cell ◽

Differential Staining ◽

Similar Proportion ◽

Bovine Embryos ◽

Total Cell Number ◽

Cell Numbers

SummaryThe mammalian blastocyst comprises an inner cell mass (ICM) and a trophectoderm cell layer. In this study the allocation of blastomeres to either cell lineage was compared between murine, porcine and bovine blastocysts. Chemical permeation of trophectoderm cells by the Ca2+ ionophore A23187 in combination with DNA-specific fluorochromes resulted in the differential staining of trophectoderm and ICM. Confocal microscopy confirmed the exclusive permeation of trophectoderm and the internal localisation of intact ICM cells in bovine blastocysts. Overall, differential cell counts were obtained in approximately 85% of the embryos assessed. Mean (±SEM) total cell numbers were 72.2 ± 3.1 and 93.1±5 for in vivo derived murine (n = 41) and porcine (n = 21) expanded blastocysts, respectively. Corresponding ICM cell number counts revealed ICM/total cell number ratios of 0.27 and 0.21, respectively. Comparison of in vivo (n = 20) and in vitro derived bovine embryos on day 8 (n = 29) or day 9 (n = 29) revealed a total cell number of 195.25±9.9, 166.14±9.9 and 105±6.7 at the expanded blastocyst stage with corresponding ICM/total cell ratios of 0.27, 0.23 and 0.23, respectively. While total cell numbers differed significantly among the three groups of bovine embryos (p<0.05), the ICM/total cell ratio did not. These results indicate that a similar proportion of cells is allocated to the ICM among blastocysts of genetically divergent species.

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Investigation of cell lineage and differentiation in the extraembryonic endoderm of the mouse embryo

Development ◽

10.1242/dev.68.1.175 ◽

1982 ◽

Vol 68 (1) ◽

pp. 175-198

Author(s):

R. L. Gardner

Keyword(s):

Inner Cell Mass ◽

Cell Mass ◽

Cell Lineage ◽

Early Embryo ◽

Visceral Endoderm ◽

Primitive Endoderm ◽

Developmental Potential ◽

Extraembryonic Endoderm ◽

Parietal Endoderm ◽

Endodermal Cells

The technique of injecting genetically labelled cells into blastocysts was used in an attempt to determine whether the parietal and visceral endoderm originate from the same or different cell populations in the early embryo. When the developmental potential of 5th day primitive ectoderm and primitive endoderm cells was compared thus, only the latter were found to colonize the extraembryonic endoderm. Furthermore, single primitive endoderm cells yielded unequivocal colonization of both the parietal and the visceral endoderm in a proportion of chimaeras. However, in the majority of primitive endodermal chimaeras, donor cells were detected in the parietal endoderm only, cases of exclusively visceral colonization being rare. Visceral endoderm cells from 6th and 7th day post-implantation embryos also exhibited a striking tendency to contribute exclusively to the parietal endoderm following blastocyst injection. The above findings lend no support to a recent proposal that parietal and visceral endoderm are derived from different populations of inner cell mass cells. Rather, they suggest that the two extraembryonic endoderm layers originate from a common pool of primitive endoderm cells whose direction of differentiation depends on their interactions with non-endodermal cells.

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