The extended survival of tw5/tw5 mouse embryo cells in vitro

The tw5 haplotype is a recessive mutation which is lethal when homozygous in mouse embryos following implantation. This series of studies was undertaken to determine the effect of the tw5/tw5 genotype on embryos developing in vitro. Blastocyst embryos from +/tw5 inter se matings were compared with control blastocysts obtained from matings between T/+ and +/+ females and +/tw5 males for their abilities to continue development in vitro in two culture media. The data show that there are no significant differences between the percentages of experimental and control blastocyst embryos which attach and outgrow or which contain inner cell masses on any day of culture up to equivalent gestation day 21 in either media. These findings show that the life span of cells from tw5/tw5 embryos can be extended significantly by in vitro culture.     

Developmental patterns of ornithine decarboxylase activity in organogenesis phase rat embryos in culture and in utero

Summary Ornithine decarboxylase activity was measured during organogenesis in rat embryos grown in utero and whole rat conceptuses maintained in an in vitro culture system. Ornithine decarboxylase levels in vivo showed a distinct peak at embryonic age 10.5 d. Despite identical morphology, protein content, crown rump length and numbers of somites cultured embryos displayed a different developmental pattern and possessed less than half the ODC activity of that in vivo. The data suggest that the normal embryonic programming of ODC activity is significantly altered by the culture environment and that further biochemical comparisons of embryos growing in utero and in vitro may be required to evaluate properly the applicability of this technique to detailed studies of teratogenesis and developmental biology. This work was supported by NIH-5-507-RR5359-17 and a 1980 Research Starter Grant from the Pharmaceutical Manufacturers Association Foundation.     

Embryotrophic effects of extracellular vesicles derived from outgrowth embryos in pre‐ and peri‐implantation embryonic development in mice

Recently, many studies have investigated the role of extracellular vesicles (EVs) on reproductive events, including embryo development and death, oviduct–embryo crosstalk, in vitro fertilization and others. The aim of this study was to demonstrate whether outgrowth embryo–derived EVs function as bioactive molecules and regulate mouse embryonic developmental competence in vitro and implantation potential in utero. The EVs from mouse outgrowth embryos on 7.5 days postcoitum were detected and selectively isolated to evaluate the embryotrophic functions on preimplantation embryos. Developmental outcomes such as the percentage of blastocyst formation, hatching, and trophoblastic outgrowth were assessed. Furthermore, the total cell number and apoptotic index of blastocysts, which were incubated with EVs during the culture period, were evaluated by fluorescence microscopy. Implantation potential in utero was investigated following embryo transfer. The EVs from outgrowth embryo–conditioned media have rounded membrane structures that range in diameter from 20 to 225 nm. Incubation with EVs improved preimplantation embryonic development by increasing cell proliferation and decreasing apoptosis in blastocysts. Moreover, the implantation rates following embryo transfer were significantly higher in EV–supplemented embryos compared with the control. Collectively, EVs from outgrowth embryo could enhance the embryonic developmental competence and even implantation potential in mice.     

Alterations in cell surface galactosyltransferase activity during limb chondrogenesis in brachypod mutant mouse embryos

The autosomal mutation brachypod (bpH/bpH) in the mouse affects the development of precartilage mesenchymal condensation in the limb-bud. We have previously shown that this defect is localized to the expression of terminal N-acetylglucosamine (GlcNAc) glycoproteins in the plasma membrane (Elmer and Wright, '83). The present study is focused on cell surface galactosyltransferase (GalTase), an ectoenzyme that transfers galactose to its GlcNAc substrate. Purified plasma membrane preparations derived from wild-type (+/+), heterozygote (+/bpH) and brachypod (bpH/bpH) embryonic mouse limb cells were assayed for GalTase activity during in vitro and in utero chondrogenesis using High-Performance Liquid Chromatography (HPLC). On embryonic day E12, prior to overt expression of the mutant gene, no significant difference in GalTase activity was observed. By the third day in culture, all major chondrogenic elements of the autopod were present in +/+ and +/bpH embryos, whereas the mutant autopods were markedly deficient in staining and appeared consistently shorter. The accumulation of alcianophilic cartilage matrix in the wild-type was accompanied by a 29% increase in GalTase activity, which reflected the net change (29%) observed during development from days E12 to E13 in utero. The GalTase activity for the in utero E13 mutant (13%) was significantly different from control. In culture, day E12 mutant autopods actually decreased in their GalTase level by 3 days so that the activity was reduced to only 57% of the wild-type. Though GalTase activity in the heterozygote showed an intermediate expression, optical image analysis did not reveal consistent differences in cartilage development when compared to +/+, arguing against a gene-dosage effect at the gross anatomical level. These data indicate that an increase in plasma membrane GalTase activity is a natural developmental event that occurs during limb-bud chondrogenesis and a decrease in GalTase activity contributes to the dysmorphogenesis in brachypod limb-buds.     

Effect of culture media on porcine embryos produced by in vitro fertilization or parthenogenetic activation after oocyte maturation with cycloheximide

This study evaluated the effects of reversible meiotic inhibition and different culture media (PZM3 or NCSU23) on production of porcine embryos by either in vitro fertilization (IVF) or parthenogenetic activation (PA). Oocytes from abattoir-derived ovaries were allocated into two groups for maturation: CHX (5 μg/ml cycloheximide for 10 h) or Control (no CHX). The percentage of metaphase II (MII) oocytes was determined at 36, 40 or 44 h of in vitro maturation. For IVF and PA, denuded oocytes were fertilized with purified sperm for 6 h or activated by electric stimuli. Zygotes were then subdivided into two culture groups: NCSU23 or PZM3. No effect of treatment with CHX and culture media was observed on cleavage (D3) and blastocyst (D7) rates in IVF and PA groups. There are no differences of quality or development rates between IVF-derived embryos cultured in NCSU23 or PZM3. However, we observed high quality PA embryos in PZM3 compared with NCSU23. Maturation arrest with CHX decreased the average blastocyst cell number in IVF while it was increased in PA embryos. As older oocytes are more effectively activated, CHX- blocked oocytes reached the mature stage faster than the control group. In conclusion, the CHX treatment for 10 h, followed by oocyte maturation for 40 h, is an efficient protocol to produce high quality parthenote embryos, especially when they are cultured in PZM3. However, this protocol is not satisfactory for IVF embryos production. In this case, a shorter maturation period could provide better embryo quality.     

An essential proline in lambda repressor is required for resistance to intracellular proteolysis

Pro78 is a solvent-exposed residue at the N-terminal end of alpha-helix 5 in the DNA binding domain of lambda repressor. Random mutagenesis experiments have suggested that Pro78 is essential [Reidhaar-Olson, J.F., & Sauer, R.T. (1990) Proteins: Struct., Funct., Genet. (in press)]. To investigate the requirement for proline at this position, we constructed and studied the properties of a set of ten position 78 mutant proteins. All of these mutants have decreased intracellular activities and are expressed at significantly lower levels than wild type. Pulse-chase experiments show that the mutant proteins are rapidly degraded in the cell; the mutants examined had half-lives of 11-35 min, whereas the wild-type protein has a half-life of greater than 10 h. The rapid degradation of position 78 mutants is not suppressed by mutations that affect known Escherichia coli proteases. The Pro78----Ala mutant could be overexpressed in a dnaJ- strain and was purified. This mutant has full DNA binding activity in vitro, suggesting that its folded structure and ability to form active dimers are similar to those of wild type. The PA78 mutant (Tm = 48 degrees C) is less thermally stable than wild type (Tm = 55 degrees C). Double-mutant studies show that this instability contributes to but is not the main cause of its rapid intracellular degradation and also suggest that proteolysis proceeds from the denatured forms of proteins containing the PA78 substitution. The PA78 mutation does not appear to introduce a new cleavage site for cellular proteases, nor does the mutation enhance susceptibility to proteases such as thermolysin and trypsin in vitro.(ABSTRACT TRUNCATED AT 250 WORDS)     

The effect of fibroblast growth factors (FGF-2, FGF-4) on the development of parthenogenetic mouse embryos

We studied the effects of two growth factors, FGF-2 and FGF-4, on development of diploid parthenogenetic mouse embryos (CBA x C57BL/6)F1. Parthenogenetic embryos were treated with FGF-2 or FGF-4 in vitro at the morula stage and, after they reached the blastocyst stage, transplanted into the uteri of pseudopregnant females. FGF-2 and FGF-4 did not affect the number of blastocysts formed in vitro or implantation into the uterus. However, FGF-2 and FGF-4 at optimal doses decreased the mortality rate of parthenogenetic embryos at the early postimplantation stages and increased twofold the number of embryos that developed in utero to the somite stages: 42 and 36%, respectively, versus 20% in the control. The results obtained suggest that the treatment of parthenogenetic mouse embryos with FGF-2 or FGF-4 modulate the effects of genomic imprinting and prolong the development of parthenogenetic embryos at the postimplantation stages.     

Expression of plasminogen activators in preimplantation rat embryos developed <Emphasis Type="Italic">in vivo</Emphasis> and <Emphasis Type="Italic">in vitro</Emphasis>

Background  

Embryo implantation plays a major role in embryogenesis and the outcome of pregnancy. Plasminogen activators (PAs) have been implicated in mammalian fertilization, early stages of development and embryo implantation. The invasion of trophoblast cells into the endometrium during the implantation process can be blocked by inhibitors of serine proteases, illustrating the role of these enzymes in the invasion process. As in vitro developing embryos resulted in lower implantation rate than those developed in vivo we assume that a reduced PAs activity may lead to it. There is hardly any information regarding qualitative or quantitative differences in expression of PAs in preimplantation embryos, or comparisons between in vivo and in vitro developed embryos. The purpose of this study was to assess the expression of urokinase type (uPA) and tissue type (tPA) plasminogen activators in in vivo and in vitro preimplantation development in rat embryos using immunofluorescence confocal microscopy and computerized image analysis.     

Bovine embryos produce a urokinase-type plasminogen activator.

The type of plasminogen activator (PA) secreted by bovine embryos was identified. Day 12-14 embryos were collected from estrus-synchronized, superovulated, and naturally mated crossbred beef cows. Embryos were left intact (E) or microdissected into component embryonic discs (ED) and trophoblastic vesicles (TV). Intact embryos, ED, and TV were pre-cultured for 2 days in Minimum Essential Medium Alpha (MEM alpha) with 10% heat-inactivated fetal calf serum, washed in serum-free MEM alpha, and cultured individually for 5 days in 50 microliters microdrops of MEM alpha with 15 mg/ml bovine serum albumin. At 24 hr intervals, E, ED, and TV were observed for tissue morphology and transferred to fresh microdrops, and medium was recovered and frozen at -20 degrees C. At the end of culture, blastocoelic fluid (BF) and embryonic tissues were recovered and frozen at -20 degrees C. Plasminogen activator concentrations in medium, tissues, and BF were determined by using a caseinolytic assay. Antibodies to urokinase-type PA (anti-uPA) and tissue-type PA (anti-tPA), and the urokinase inhibitor, amiloride (AMR), were used to identify the type of PA produced by bovine embryonic tissues. Intact embryos and TV released more PA (P less than 0.05) than ED, and tissues exhibiting expanded blastocoels released less PA (P less than 0.05) than tissues with collapsed blastocoels. Blastocoelic fluid from TV exhibited more PA (P less than 0.05) activity than from ED. Treatment with anti-uPA decreased PA activity (P less than 0.05) in pooled medium and tissues from E compared to treatment with nonspecific immunoglobulins and anti-tPA.(ABSTRACT TRUNCATED AT 250 WORDS)     

Plasminogen activator activity is associated with neural crest cell motility in tissue culture

We have examined the possibility that proteases such as plasminogen activator (PA) contribute to the extraordinary motile capability of neural crest cells. We show that trunk neural crest cells that migrate from isolated neural tubes in vitro produce PA and that the level of cell-associated PA increases dramatically after 8 days in culture. This increase is not the result of differentiation or time in culture, because neural crest cell clusters that form on top of the neural tube and differentiate into pigment cells but are immotile produce very low levels of PA. If these clusters are removed from the neural tube and replated on a plastic substratum where they migrate, the level of PA associated with the cells increases dramatically, suggesting that PA production is associated with motility. Inhibitors of PA/plasmin activity significantly reduce neural crest cell motility in vitro, further supporting the idea that proteases are important in neural crest cell migration.     

Invasiveness of mouse embryos to human ovarian cancer cells HO8910PM and the role of MMP-9

ABSTRACT: Background Our previous work found that mouse embryos could invade malignant cancer cells. In the process of implantation, embryo trophoblast cells express matrix metalloproteinases and the invasive ability of trophoblast cells is proportional to matrix metalloproteinase-9 protein expression. So the purpose of this study is to observe the effects of mouse embryos on human ovarian cancer cells in the co-culture environment in vitro and explore the possible mechanism of matrix metalloproteinase-9. Methods Several groups of human ovarian cancer cells HO8910PM were co-cultured with mouse embryos for different time duration, after which the effects of mouse embryos on morphology and growth behavior of HO8910PM were observed under the light microscope real-time or by H.E staining. Apoptosis was detected under laser confocal microscope by Annexin V-EGFP/PI staining in situ. Invasion ability of tumor cells was studied by transwell experiments. After matrix metalloproteinase 9 (MMP -9) activity was inhibited by MMP-9 Inhibitor I, the interaction between mouse embryos and human ovarian cancer cells HO8910PM was observed. Results Mouse embryos were able to invade co-cultured human ovarian cancer cell layer which extended in the bottom of the culture dish, and gradually pushed away tumor cells to form their own growth space. The number of apoptosis tumor cells surrounding the embryo increased under laser confocal microscope. After co-cultured with mouse embryos, tumor cells invasive ability was lowered compared with the control group. After MMP-9 activity was inhibited, the interaction between mouse embryos and HO8910PM cells had no significant difference compared with the normal MMP-9 activity group. Conclusion Mouse embryos were able to invade human ovarian cancer cells in vitro and form their own growth space, promote apoptosis of human ovarian cancer cells and lower their invasive ability. The mouse embryo was still able to invade human ovarian cancer cells after MMP-9 activity was inhibited.     

Implantation and invasiveness of mouse blastocysts on uterine monolayers

We have utilized monolayers of mouse uterine cells as a substratum for blastocyst implantation in vitro. In this system, blastocysts attach, and trophoblast cells initially grow out in an invasive manner, displacing the cells of the monolayer. A similar phenomenon is observed when any of a number of established cell types constitute the monolayer. After 5 to 6 days in culture, trophoblast cells lose their invasive capacity, although viability is unaffected. These events appear to be analogous to those taking place during implantation in utero or in ectopic sites. After treatment with dextran-norit, progesterone and estrogen can no longer be detected in fetal calf serum by a sensitive radioimmunoassay. Nevertheless, blastocysts can implant normally in medium supplemented with treated serum, indicating the likelihood that, unlike implantation in vivo, progesterone and estrogen are not required for the analogous event in vitro.     

Expression and localization of SWAP-70 in human fetomaternal interface and placenta during tubal pregnancy and normal placentation.

SWAP-70 has been demonstrated as a multiple functional signaling protein involved in formation of membrane ruffling induced by signal cascade of tyrosine kinase growth factor receptors. In the present study, the spatial and temporal expression pattern of SWAP-70 on human fetomaternal interface was investigated using specimens collected from tubal and normal pregnancies by in situ hybridization, immunohistochemistry, and Western blotting. Data showed an intense expression of SWAP-70 in trophoblasts at weeks 3-6 of fallopian implantation and at weeks 6-7 of normal pregnancy. The most intense expression was exhibited by those highly motile and invasive extravillous trophoblasts. From gestational week 8 on, the level of SWAP-70 in trophoblasts decreased significantly, and the signal was restricted in villous cytotrophoblast cells. In the in vitro cultured human trophoblast cell line, B6Tert-1, colocalization of SWAP-70 with F-actin was verified. Data in human placenta were similar to what we recently reported on rhesus monkey fetomaternal interface. Our results suggest that SWAP-70 may be involved in regulating migration and invasion of trophoblast cells during the processes of embryonic implantation and placentation in primates.     

Polarized release of human cytomegalovirus from placental trophoblasts

Human cytomegalovirus (HCMV) is a ubiquitous infectious pathogen that, when transmitted to the fetus in utero, can result in numerous sequelae, including late-onset sensorineural damage. The villous trophoblast, the cellular barrier between maternal blood and fetal tissue in the human placenta, is infected by HCMV in vivo. Primary trophoblasts cultured on impermeable surfaces can be infected by HCMV, but release of progeny virus is delayed and minimal. It is not known whether these epithelial cells when fully polarized can release HCMV and, if so, if release is from the basal membrane surface toward the fetus. We therefore ask whether, and in which direction, progeny virus release occurs from HCMV-infected trophoblasts cultured on semipermeable (3.0-microm-pore-size) membranes that allow functional polarization. We show that infectious HCMV readily diffuses across cell-free 3.0-microm-pore-size membranes and that apical infection of confluent and multilayered trophoblasts cultured on these membranes reaches cells at the membrane surface. Using two different infection and culture protocols, we found that up to 20% of progeny virus is released but that <1% of released virus is detected in the basal culture chamber. These results suggest that very little, if any, HCMV is released from an infected villous trophoblast into the villous stroma where the virus could ultimately infect the fetus.     

Secretion of a progesterone-induced inhibitor of plasminogen activator by the porcine uterus

The indirect ¹²⁵I-fibrin plate assay has been used to measure the levels of plasminogen activator (PA) in uterine flushings from pigs through the estrous cycle and during early pregnancy, and to measure the production of PA by pig conceptuses cultured in vitro. Activity in the flushings was high at the beginning and end of the estrous cycle, but only low levels were detected in mid cycle (the luteal phase). In pregnant animals, uterine PA levels became low around day 12 and did not show any further increase. Cultured day 12 blastocysts, however, released large amounts of PA into the medium in a time-dependent fashion over a 48 hr period, suggesting that this activity was inhibited in vivo. The presence of a protease inhibitor in uterine flushings has been demonstrated in cycling gilts, and follows a hormone-directed trend, with flushings taken during the luteal phase showing inhibitory activity against PA secreted early or late in the cycle. By assaying flushings from ovariectomized gilts given daily injections of progesterone, estrogen, both hormones together, or corn coil, it has been verified that the inhibitor is progesterone-induced and is also active against both PA produced by day 12 conceptuses and urokinase. It also inhibits PA, as determined using a direct fluorometric assay with glutaryl-glycyl-L-arginine-4-methyl-coumarinyl-7-amide as substrate. The PA inhibitor is acid-stable, and of low molecular weight (15,000 ± 5000), as determined by Sephacryl S-200 gel filtration. Unlike most animals, the trophoblast of the pig is not invasive in the uterus, but is invasive if transplanted to some ectopic site. The progesterone-induced inhibitor may possibly play a role in preventing invasive implantation.     

Acidic endomembrane organelles are required for mouse postimplantation development

Vacuolar-type H(+)-ATPase (V-ATPase) plays a major role in endomembrane and plasma membrane proton transport in eukaryotes. We found that the acidic compartments generated by V-ATPase are present from the one-cell stage of mouse preimplantation embryos. Upon differentiation of trophoblasts and the inner cell mass at the blastocyst stage, these compartments exhibited a polarized perinuclear distribution. PL16(-/-) embryos, lacking the V-ATPase 16-kDa proteolipid (c subunit), developed to the blastocyst stage and were implanted in the uterine epithelium, but died shortly thereafter. This mutant showed severe defects in development of the embryonic and extraembryonic tissues at a stage that coincided with rapid cell proliferation. When cultured in vitro, PL16(-/-) blastocysts could hatch and become attached to the surface of a culture dish, but the inner cell mass grew significantly slower and most cells failed to survive for more than 4 days. PL16(-/-) cells showed impaired endocytosis as well as organellar acidification. The Golgi complex became swollen and vacuolated, possibly due to the absence of the luminal acidic pH. These results clearly indicate that acidic compartments are essential for development after implantation.     

Amphiregulin promotes the proliferation of trophoblast cells during preimplantation development of porcine embryos

Our objective was to investigate the effects of in vitro culture (IVC) medium supplemented with amphiregulin (AREG) on the preimplantation embryonic development of porcine (Genus: Sus domestica, Species: Landrace) embryos derived from in vitro fertilization (IVF) and parthenogenetic activation (PA). In vitro fertilization and PA embryos at the 1-cell stage were cultured in IVC medium supplemented with 0, 0.5, 5, or 50 ng/mL AREG for 7 d. There were significantly greater total numbers of cells in blastocysts of IVF and PA embryos cultured with 50 ng/mL AREG compared with that of controls. In vitro fertilization and PA embryos were then cultured in NCSU-23 medium supplemented with 50 ng/mL AREG on Days 1 through 7, Days 1 through 3 (early stage), or Days 4 through 7 (late stage), or without AREG. There were significantly greater numbers of trophoblast cells in the late-stage and full-term groups of IVF and PA embryos than in the early-stage and control groups. The presence of AREG protein in IVF-derived blastocysts was detected using a polyclonal AREG antibody and indirect immunofluorescence. Amphiregulin protein was localized in both the cytoplasm and nucleus. Using real-time polymerase chain reaction, we detected the expression of AREG mRNA in all developmental stages of IVF and PA embryos; however, the expression level varied according to stage. Thus, the incubation of porcine IVF and PA embryos in AREG-supplemented culture medium mainly at the late preimplantation stage increases the numbers of trophoblast cells.     

Effects of growth factors FGF2 and IGF2 on the development of parthenogenetic mouse embryos in utero and in vitro

We studied the effects of fibroblast growth factor 2 (FGF2) and insulin-like growth factor 2 (IGF2) on the development of parthenogenetic mouse embryos (CBA x C57BK/6)F1. The parthenogenetic embryos were treated in vitro during the preimplantation period and, at the blastocyst stage, transplanted into the uterus of pseudopregnant females. The addition of FGF2 at an optimal dose (2.5 ng/ml) to the culture medium increased twofold the number of embryos developed in utero to the somite stages as compared to the control: 18 and 43%, respectively. The parthenogenetic embryos (18-21 somites), treated and nontreated with FGF2 during the preimplantation period, were explanted for further development in vitro and treated with IGF2 at 2.5 micrograms/ml. As a result, many more parthenogenetic embryos (> 87%) of both groups developed in vitro to the stage of 30 or more somites as compared to the control (59%). The treatment of the parthenogenetic embryos with FGF2 alone at the preimplantation stages did not improve their development in vitro at the postimplantation stages. The results we obtained suggest that the treatment of parthenogenetic embryos in vitro with FGF2 during the preimplantation period increased twofold the number of somite embryos in utero, while their subsequent treatment in vitro with IGF2 leads to a significant prolongation of their development, as compared to the control.