264 Using in vivo RNA Interference to Investigate Ruminant Placental Function

Abstract Pregnant sheep have been used extensively for investigating pregnancy physiology, providing valuable information about the progression of ruminant pregnancy. The ability to place indwelling catheters, within both maternal and fetal vessels, allows for steady-state investigation of blood flow, nutrient uptakes and utilization, and hormone secretion, under non-stressed and non-anesthetized conditions. As such, our understanding of the in vivo physiology of pregnancy in sheep is unrivalled by any other species. However, until recently, a significant deficit existed in determining the specific function or significance of individual genes expressed by the placenta in livestock. To that end, we developed and have been using in vivo RNA interference (RNAi) within the sheep placenta to examine the function and relative importance of genes involved in conceptus development (PRR15 and LIN28), placental nutrient transport (SLC2A1 and SLC2A3), and placenta derived hormones (CSH). The lentiviral vector LL3.7 is used to generate virus that is stably integrated into the infected cell’s genome, thereby expressing a short-hairpin RNA (shRNA), that when processed within the cell, combines with the RNA Induced Silencing Complex (RISC) resulting in specific mRNA degradation or translational blockage. To accomplish in vivo RNAi, day 9 hatched and fully expanded blastocysts are infected with the lentivirus for 4–5 hours, and then surgically transferred to synchronized recipient uteri. Only the trophectoderm cells are infected by the replication deficient virus, leaving the inner cell mass unaltered, and we typically obtain 70–80% pregnancy rates following transfer of a single blastocyst. Data will be presented from two projects. One is focused on generating a deficiency in placental glucose transporters at mid-gestation, and the other on the impact of CSH RNAi during late gestation, demonstrating the utility of this experimental approach for examining gene function within the placenta of livestock. Supported by NIH-NICHD grants HD093701 and HD094952.

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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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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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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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Cosegregation of monoclonal antibody reactivity and cell behaviour in the mouse preimplantation embryo

Development ◽

10.1242/dev.70.1.261 ◽

1982 ◽

Vol 70 (1) ◽

pp. 261-278

Author(s):

Beverley J. Randle

Keyword(s):

Monoclonal Antibody ◽

Inner Cell Mass ◽

Cell Mass ◽

Antigen Expression ◽

Cell Stage ◽

Cell Behaviour ◽

Minor Population ◽

Cell Embryo ◽

Surface Labelling

Expression of an antigen, recognized by a monoclonal antibody raised against PCI 3 embryonal carcinoma, is described in mouse preimplantation embryogenesis. The antigen is found in the cytoplasm of ovulated ova and is first noted on the cell surface of the 1-cell embryo 20 h post-ovulation. Surface labelling of blastomeres is uniform until the 8-cell stage when antigen expression becomes polarized along the radial axis of the embryo. Two major populations of blastomeres are distinguishable on division to the 16-cell morula. Dissociation of morulae in calcium-free medium yields large, polar, antigen-positive cells and small apolar cells with reduced levels of detectable antigen. A third, minor population of small, antigen-negative cells is also found in vivo. Large and small blastomeres differ in their ability to relocate within the embryo when aggregated with intact 16-cell-stage embryos. The small blastomeres of the 16-cell morula contribute significantly to the inner cell mass while the large antigen-positive cells are found only in the trophectoderm.

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Derivation of human embryonic stem cell lines after blastocyst microsurgery

Biochemistry and Cell Biology ◽

10.1139/o09-188 ◽

2010 ◽

Vol 88 (3) ◽

pp. 479-490 ◽

Cited By ~ 12

Author(s):

Guoliang Meng ◽

Shiying Liu ◽

Xiangyun Li ◽

Roman Krawetz ◽

Derrick E. Rancourt

Keyword(s):

Stem Cells ◽

Embryonic Stem Cells ◽

Cell Lines ◽

Clinical Medicine ◽

Inner Cell Mass ◽

Cell Mass ◽

Embryonic Stem ◽

Hesc Lines

Embryonic stem cells (ESCs) are derived from the inner cell mass (ICM) of the blastocyst. Because of their ability to differentiate into a variety of cell types, human embryonic stem cells (hESCs) provide an unlimited source of cells for clinical medicine and have begun to be used in clinical trials. Presently, although several hundred hESC lines are available in the word, only few have been widely used in basic and applied research. More and more hESC lines with differing genetic backgrounds are required for establishing a bank of hESCs. Here, we report the first Canadian hESC lines to be generated from cryopreserved embryos and we discuss how we navigated through the Canadian regulatory process. The cryopreserved human zygotes used in this study were cultured to the blastocyst stage, and used to isolate ICM via microsurgery. Unlike previous microsurgery methods, which use specialized glass or steel needles, our method conveniently uses syringe needles for the isolation of ICM and subsequent hESC lines. ICM were cultured on MEF feeders in medium containing FBS or serum replacer (SR). Resulting outgrowths were isolated, cut into several cell clumps, and transferred onto fresh feeders. After more than 30 passages, the two hESC lines established using this method exhibited normal morphology, karyotype, and growth rate. Moreover, they stained positively for a variety of pluripotency markers and could be differentiated both in vitro and in vivo. Both cell lines could be maintained under a variety of culture conditions, including xeno-free conditions we have previously described. We suggest that this microsurgical approach may be conducive to deriving xeno-free hESC lines when outgrown on xeno-free human foreskin fibroblast feeders.

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Simultaneous gene quantitation of multiple genes in individual bovine nuclear transfer blastocysts

Reproduction ◽

10.1530/rep.1.0966 ◽

2007 ◽

Vol 133 (1) ◽

pp. 231-242 ◽

Cited By ~ 43

Author(s):

Craig Smith ◽

Debbie Berg ◽

Sue Beaumont ◽

Neil T Standley ◽

David N Wells ◽

...

Keyword(s):

Gene Expression ◽

Nuclear Transfer ◽

Inner Cell Mass ◽

Cell Mass ◽

Ectopic Expression ◽

Cell Number ◽

Transcript Levels ◽

Multiple Genes

During somatic cell nuclear transfer (NT), the transcriptional status of the donor cell has to be reprogrammed to reflect that of an embryo. We analysed the accuracy of this process by comparing transcript levels of four developmentally important genes (Oct4,Otx2,Ifitm3,GATA6), a gene involved in epigenetic regulation (Dnmt3a) and three housekeeping genes (β-actin, β-tubulinandGAPDH) in 21 NT blastocysts with that in genetically half-identicalin vitroproduced (IVP,n=19) andin vivo(n=15) bovine embryos. We have optimised an RNA-isolation and SYBR-green-based real-time RT-PCR procedure allowing the reproducible absolute quantification of multiple genes from a single blastocyst. Our data indicated that transcript levels did not differ significantly between stage and grade-matched zona-free NT and IVP embryos except for Ifitm3/Fragilis, which was expressed at twofold higher levels in NT blastocysts.Ifitm3expression is confined to the inner cell mass at day 7 blastocysts and to the epiblast in day 14 embryos. No ectopic expression in the trophectoderm was seen in NT embryos. Gene expression in NTand IVP embryos increased between two- and threefold for all eight genes from early to late blastocyst stages. This increase exceeded the increase in cell number over this time period indicating an increase in transcript number per cell. Embryo quality (morphological grading) was correlated to cell number for NT and IVP embryos with grade 3 blastocysts containing 30% fewer cells. However, only NT embryos displayed a significant reduction in gene expression (50%) with loss of quality. Variability in gene expression levels was not significantly different in NT, IVP orin vivoembryos but differed among genes, suggesting that the stringency of regulation is intrinsic to a gene and not affected by culture or nuclear transfer.Oct4levels exhibited the lowest variability. Analysing the total variability of all eight genes for individual embryos revealed thatin vivoembryos resembled each other much more than did NT and IVP blastocysts. Furthermore,in vivoembryos, consisting of 1.5-fold more cells, generally contained two- to fourfold more transcripts for the eight genes than did their cultured counterparts. Thus, culture conditions (in vivoversusin vitro) have greater effects on gene expression than does nuclear transfer when minimising genetic heterogeneity.

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Early Embryonic Lethality of Mice Lacking the Essential Protein SNEV

Molecular and Cellular Biology ◽

10.1128/mcb.01188-06 ◽

2007 ◽

Vol 27 (8) ◽

pp. 3123-3130 ◽

Cited By ~ 26

Author(s):

Klaus Fortschegger ◽

Bettina Wagner ◽

Regina Voglauer ◽

Hermann Katinger ◽

Maria Sibilia ◽

...

Keyword(s):

Matrix Protein ◽

Replicative Senescence ◽

Inner Cell Mass ◽

Umbilical Vein ◽

Cell Mass ◽

Preimplantation Embryos ◽

Proliferative Potential ◽

Mouse Development

ABSTRACT SNEV (Prp19, Pso4, NMP200) is a nuclear matrix protein known to be involved in pre-mRNA splicing, ubiquitylation, and DNA repair. In human umbilical vein endothelial cells, SNEV overexpression delayed the onset of replicative senescence. Here we analyzed the function of the mouse SNEV gene in vivo by employing homologous recombination in mice and conclude that SNEV is indispensable for early mouse development. Mutant preimplantation embryos initiated blastocyst formation but died shortly thereafter. Outgrowth of SNEV-null blastocysts showed a lack of proliferation of cells of the inner cell mass, which subsequently underwent cell death. While SNEV-heterozygous mice showed no overt phenotype, heterozygous mouse embryonic fibroblast cell lines with reduced SNEV levels displayed a decreased proliferative potential in vitro. Our experiments demonstrate that the SNEV protein is essential, functionally nonredundant, and indispensable for mouse development.

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185 THE PORCINE EPIBLAST AND NOT THE INNER CELL MASS HAS DEVELOPED CONVENTIONAL PATHWAYS FOR REGULATION OF PLURIPOTENCY

Reproduction Fertility and Development ◽

10.1071/rdv21n1ab185 ◽

2009 ◽

Vol 21 (1) ◽

pp. 191

Author(s):

V. J. Hall ◽

J. Christensen ◽

P. Maddox-Hyttel

Keyword(s):

Stem Cells ◽

Embryonic Stem Cells ◽

Inner Cell Mass ◽

Cell Mass ◽

Embryonic Stem ◽

Positive Control ◽

Total Rna ◽

Weak Expression ◽

Whole Transcriptome

Pluripotency in mice and human embryonic stem cells is regulated by a number of transcription factors, notably including Oct-4, Sox-2, and Nanog. However, in the pig, previous research indicates that Oct-4 protein and mRNA is not specifically localized to the inner cell mass (ICM) of the zona-intact (ZI) blastocyst. Levels of expression of Nanog mRNA, on the other hand, appear to be low in the ZI blastocyst, and protein has not been detected. Similarly, Sox-2 expression in the ZI blastocyst is relatively low and not specific to the ICM. In this study, we investigated the mRNA expression of Oct-4, Sox-2, and Nanog in D6/D7-derived ZI porcine in vivo-derived blastocysts compared with epiblasts mechanically isolated from hatched D10/D11 in vivo-derived blastocysts. We then investigated components involved in pathways important for regulating pluripotency, including JAK/STAT (i.e. gp130, LIFr), FGF (i.e. bFGF, FGFr1, FGFr2), and BMP (bmp4, smad4) signaling pathways and their downstream targets, stat3, c-myc, c-fos, by using RT-PCR. Sows were artificially inseminated, and embryos were flushed from uteri following slaughter. Single D6/D7 blastocysts (n = 3), single mechanically isolated D10/D11 epiblasts (n = 3), endometrium, and oviduct total RNA was isolated using the RNeasy Micro Kit (Qiagen, Valencia, CA, USA). Total RNA from the blastocysts and epiblasts was then amplified to form cDNA using the QuantiTect Whole Transcriptome kit (Qiagen). Positive control tissues (oviduct and endometrium) were reverse transcribed using the RevertAid First Strand cDNA synthesis kit (Fermentas, Burlington, Ontario, Canada). Primers were designed to span introns in highly homologous sequences to human mRNA. Primers were tested in both oviduct and endometrium tissue, and products were sequenced to confirm specificity. PCR was performed at 55°C for 35 cycles. Results indicate that D6/D7 blastocysts only expressed Oct-4 and not Nanog and Sox-2. In contrast, all 3 transcripts were expressed in D10/D11 epiblasts. The D10/D11 epiblasts also expressed LIFr, bFGF, FGFr1, FGFr2, bmp4, smad4, stat3, c-myc, and c-fos. The cytokine receptor gp130 was only weakly expressed in a single epiblast. In contrast, the earlier stage D6/D7 blastocysts failed to express these messengers with the exception of weak expression of gp130 in all 3 blastocysts, and only a single blastocyst expressed LIFr, smad4, c-myc, and c-fos. In conclusion, this study indicates that the ICM of the porcine D6/D7 ZI blastocyst has not developed pluripotency signaling as observed in mice and humans at this developmental stage. Furthermore, without expression of gp130, the JAK/STAT pathway is unlikely to play a role in regulating pluripotency in the epiblast. It is likely that the later stage epiblast may be more amenable for the derivation of porcine embryonic stem cells.

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