Wheat germ agglutinin induces compaction- and cavitation-like events in two-cell mouse embryos

Glycolysis-Independent Glucose Metabolism Distinguishes TE from ICM Fate during Mammalian Embryogenesis

The mouse embryo undergoes compaction at the 8-cell stage, and its transition to 16 cells generates polarity such that the outer apical cells are trophectoderm (TE) precursors and the inner cell mass (ICM) gives rise to the embryo. Here, we report that this first cell fate specification event is controlled by glucose. Glucose does not fuel mitochondrial ATP generation, and glycolysis is dispensable for blastocyst formation. Furthermore, glucose does not help synthesize amino acids, fatty acids, and nucleobases. Instead, glucose metabolized by the hexosamine biosynthetic pathway (HBP) allows nuclear localization of YAP1. In addition, glucose-dependent nucleotide synthesis by the pentose phosphate pathway (PPP), along with sphingolipid (S1P) signaling, activates mTOR and allows translation of Tfap2c. YAP1, TEAD4, and TFAP2C interact to form a complex that controls TE-specific gene transcription. Glucose signaling has no role in ICM specification, and this process of developmental metabolism specifically controls TE cell fate.

The role of mucin-type O-glycans in eukaryotic development

Newly emerging genetic studies have revealed that a subset of the family of glycosyltransferases responsible for the formation of mucin-type O glycans is essential for normal development. As additional genetic, biochemical and physical tools are developed to interrogate the complex structure and surface location of this under-studied class of carbohydrate, no doubt additional roles will be elucidated.

Lectin reactivity of expanded mouse blastocysts after exposure to sera from women with unexplained recurrent spontaneous abortion

Embryotoxic factors existing in maternal sera may influence their effects via specific binding to, or alteration of cell surface molecules in the conceptus. This study was undertaken to determine the effects of sera from women with unexplained recurrent spontaneous abortion (URSA) on cell surface glycoconjugates of the early conceptus. Four cell stage embryos were cultured in medium supplemented with sera from women with URSA, from normal women, or in medium without serum. Developmental competence was assessed as the stage distribution of embryos advancing to during 96h in culture. Hatched (expanded) blastocysts were stained with wheat germ agglutinin (WGA), peanut agglutinin (PNA) and dolichos biflorus agglutinin (DBA) to detect surface glucoconjugates. We observed that patient sera could be divided into high- and low-risk groups on the basis of the ability to decrease the number of four-cell embryos reaching the expanded blastocyst stage. Furthermore, the intensity of reactivity to PNA changed after exposure to high-risk sera. Morula formation was reduced and blastocyst formation was delayed. Although the sera from women with URSA had embryotoxic effects, no influence on the glycoconjugate patterns were evident in hatched blastocysts, aside from PNA reactivivity. We suggest altered developmental display of PNA-reactive proteins was a biomarker for poor developmental quality due to emrbyotoxic factors in serum from URSA patients.

Simplification of bovine somatic cell nuclear transfer by application of a zona-free manipulation technique

Contemporary nuclear transfer techniques often require the involvement of skilled personnel and extended periods of micromanipulation. Here, we present details of the development of a nuclear transfer technique for somatic cells that is both simpler and faster than traditional methods. The technique comprises the bisection of zona-free oocytes and the reconstruction of embryos comprising two half cytoplasts and a somatic cell by adherence using phytohaemagglutinin-P (PHA) followed by an electropulse and subsequent culture in microwells (termed WOWs--well of the well). The development of the system was based on results using parthenogenetic and in vitro fertilized zygotes in order to (a) select the optimal primary activation agent that induced the lowest lysis rate but highest parthenogenetic blastocyst yield, (b) evaluate the quantity and quality of zona-free blastocysts produced in WOWs, and (c) establish any potential embryotoxic effects of PHA-P. The initial data indicated that, of calcium ionophore A23187, ionomycin, and electropulse treatments as primary activation agents, the two former were equally efficient even with reduced exposure times. WOW-culture of zona-free versus zona-intact zygotes were not different in either blastocyst yield (44.6 +/- 2.4% versus 51.8 +/- 13.5% [mean +/- SEM]) or quality (126.3 +/- 48.4 versus 119.9 +/- 32.6 total cells), and exposure of zygotes to PHA-P did not reduce blastocyst yields compared to vehicle control (40.8 +/- 11.6% versus 47.1 +/- 20.8% of cultured oocytes). Subsequent application of the optimized technique for nuclear transfer using nine different granulosa cell primary cultures (cultured in 0.5% serum for 5-12 days) generated 37.6 +/- 3.9% (11 replicates; range, 16.4-58.1%) blastocysts per successfully fused and surviving reconstructed embryo (after activation), and 33.6 +/- 3.7% blastocysts per attempted reconstructed embryo. Mean day 7 total blastocyst cell numbers from 5 clone families was 128.1 +/- 15.3. The ongoing pregnancy rate of recipients each receiving two nuclear transfer blastocysts is 3/13 (23.1%) recipients pregnant at 5 months after transfer. These results suggest that the zona-free nuclear transfer technique generates blastocysts of equivalent quantity and quality compared to conventional micromanipulation methods, requires less technical expertise, is less time consuming and can double the daily output of reconstructed embryos (even after taking into consideration the rejection of the half oocytes containing the metaphase plate).

Role of ultrastructural studies in the analysis of cell lineage in the mammalian pre-implantation embryo

Ultrastructural studies have contributed significantly to our understanding of cell lineage differentiation in the mammalian pre-implantation embryo. Such studies have documented, and continue to document, morphological, biochemical, and physiological characteristics of the cell lineages established during the pre-implantation period in eutherian embryos, principally that of the mouse. This review evaluates these contributions and identifies areas of study in which ultrastructural analysis is most likely to have an important role in the future.

Ouabain-sensitive Rb+ uptake in mouse eggs and preimplantation conceptuses

The results of histochemical and immunocytochemical studies have been used elsewhere to support the hypothesis that Na+/K(+)-ATPase expression is initiated or increases dramatically in preimplantation mouse conceptuses just before they begin to cavitate. Moreover, localization of the enzyme in the inner membrane of the mural trophoblast is thought to be involved directly in formation and maintenance of the blastocyst cavity. Presumably, Na+/K(+)-ATPase extrudes the cation, Na+, and therefore water into the cavity. The cation transporting activity of the enzyme can be determined by measuring ouabain-sensitive Rb+ uptake by cells. Therefore, we measured Rb+ uptake in mouse eggs and preimplantation conceptuses at various stages of development. 86Rb+ uptake by conceptuses increased linearly with time for at least 60 min in medium containing 0.7 mM total Rb+ plus K+ in the absence or presence of 1.0 mM ouabain, and ouabain inhibited more than 70% of 86Rb+ uptake. The ouabain concentration at 1/2 of maximum inhibition of the ouabain-sensitive component of 86Rb+ uptake was about 10-20 microM in eggs and conceptuses at all stages of preimplantation development. Moreover, ouabain-sensitive Rb+ uptake had a twofold higher Vmax value in blastocysts than in eggs or conceptuses at earlier stages of development (i.e., approximately 173 vs 70-100 fmole.conceptus-1.min-1), although the total cell surface area also was probably about two times greater in blastocysts than in eggs or other conceptuses. Ouabain-sensitive Rb+ transport in eggs and conceptuses may have occurred via a single ouabain-sensitive Rb+ transporter with a Hill coefficient of 1.5-1.8 (Hill plots). When it was assumed that the Hill coefficient had a value of 2.0, however, eggs and conceptuses appeared to contain at least two forms of Na+/K(+)-ATPase activity. These studies are the first to show that the cation transporting activity of Na+/K(+)-ATPase can be measured quantitatively in mammalian eggs and preimplantation conceptuses. Inclusion of this assay in experiments designed to determine how Na+/K(+)-ATPase activity is controlled in oocytes and conceptuses should yield further insight into the role of this enzyme in oogenesis and preimplantation development.

Spreading of wheat germ agglutinin-induced erythrocyte contact by formation of spatially discrete contacts

The time dependence of agglutination and cell-cell contact spreading in human erythrocytes exposed to wheat germ agglutinin (WGA) was characterized by light and electron microscopy. Cells (3 x 10(7)/mL) had a threshold lectin concentration in the range of 0.6-2.0 micrograms/mL for initial cell contact. Spreading was essentially completed within 60 and 2 min in undisturbed and gently agitated suspensions, respectively. The cells in large WGA agglutinates retained features of their initial disk form in contrast to the convex outlines of polycation or polyethylene glycol-induced agglutinates. Spreading of contact area was accompanied by development of a pattern of discrete contact regions separated by a distance of the order of 1 micron. Freeze fracture electron microscopy and studies with ferritin-labeled WGA showed no significant aggregation of intramembrane particles or specific lectin receptors under conditions when contact spreading occurred. It is argued that flow stress effects on cells in suspended agglutinates give rise to a situation where opposite membranes, at the leading edge of cell contact, are separated by a thin aqueous layer. When this intercellular water layer exceeds a critical length, it becomes unstable. The layer breaks up by surface wave development to form an array of intracellular water spaces. Formation of the aqueous spaces causes opposite membrane regions to move synchronously toward each other. Lectin molecules crosslink the wave crests to give spatially periodic contact points.

Effect of cell contact on regionalization of mouse embryos

Cytochemical demonstrations of 5'-nucleotidase and alkaline phosphatase reveal the activity of these enzymes on regions of cell apposition from the late four-cell stage onward. These enzyme activities also appear on regions of artificial cell contact between aggregated embryos having more than four cells. Cytochemistry of single two-cell embryos does not reveal 5'-nucleotidase nor alkaline phosphatase activity, however, these enzyme activities appear at both the artificial and natural contacts in chimaeras of two two-cell embryos. We interpret these results as meaning: (1) that cell contact causes the regionalization of 5'-nucleotidase and alkaline phosphatase activity on the cell surface, (2) that these enzyme activities can be induced or enhanced by contact between two two-cell embryos, (3) that a signal is transmitted from the artificial to the natural contact.

Lectin-induced abnormalities of mouse blastocyst hatching and outgrowth in vitro

We have examined the role of cell surface glycoconjugates during mouse blastocyst maturation, hatching, attachment, and outgrowth by monitoring the influence of six lectins on blastocyst development in vitro. Two lectins, concanavalin A and wheat germ agglutinin were toxic to blastocysts at the concentrations used. Bandierea simplicifolia lectin 1 (BSL-1) induced abnormal growth, developmental arrest at the hatching stage, and some disruption of cell contacts. Culture with Lotus tetragonolobus lectin-1 (LTA-1) also disrupted cell contacts and caused developmental arrest. The remaining lectins, Dolichos biflorus agglutinin (DBA) and Ulex europaeus agglutinin (UEA), retarded blastocyst hatching and outgrowth but did not induce any major defects, although differentiation of the inner cell mass was limited by both. This study demonstrates that very low concentrations of lectins can disrupt blastocyst development, suggesting that exposed surface saccharide moieties may be involved in interactions between blastomeres and their environment.

Establishment and maintenance of a regionalized glycoprotein distribution during early mouse development

The regionalization of the cell membranes of the mouse embryo into apical and basolateral zones has been studied using antibodies to a pair of glycoproteins expressed during the two-cell to early blastocyst stage. These antigens are found on the outer, free surface and in the underlying cortical cytoplasm, but are not detectable at areas of cell contact. In the early blastocyst stage, antigen also appears at the free surfaces of cells bordering the blastocoel. Antigen regionalization is also reestablished after experimental manipulation and appears to be a direct consequence of cell contact. Thus, blastomeres examined 4 hr after dissociation from four- and eight-cell stage embryos express antigen in cortical areas underlying newly exposed surfaces and new sites of contact between embryos in multiple-embryo aggregates lose detectable antigen within 2 to 4 hr of the formation of the contacts. Microfilaments are involved in controlling the regional expression of these glycoproteins. Incubation of embryos from the two-cell stage in medium containing cytochalasin B interferes with antigen targeting, resulting in abnormal expression of the antigens both on the surface and in the cytoplasm of the embryos. Cytochalasin B treatment of later stage embryos results in an uneven distribution of the antigen in cortical cytoplasm and prevents the complete removal of antigen from new sites of cell contact in multiple-embryo aggregates. The presence of nocodozole, which inhibits the polymerization of microtubules, had no detectable effect on the expression of the antigens. Interference with the glycosylation of these proteins, by incubation of embryos in the presence of tunicamycin, did not alter the regionalized pattern of expression.

Membrane-membrane contact: involvement of interfacial instability in the generation of discrete contacts

The classical approach to understanding the closeness of approach of two membranes has developed from consideration of the net effect of an attractive van der Waals force and a repulsive electrostatic force. The repulsive role of hydration forces and stereorepulsion glycocalyx forces have been recently recognized and an analysis of the effect of crosslinking molecules has been developed. Implicit in these approaches is the idea of an intercellular water layer of uniform thickness which narrows but retains a uniform thickness as the cells move towards an equilibrium separation distance. Most recently an attempt has been made to develop a physical chemical approach to contact which accommodates the widespread occurrence of localized spatially separated point contacts between interacting cells and membranes. It is based on ideas drawn from analysis of the conditions required to destabilize thin liquid films so that thickness fluctuations develop spontaneously and grow as interfacial instabilities to give spatially periodic contact. Examples of plasma membrane behaviour which are consistent with the interfacial instability approach are discussed and experiments involving polycation, polyethylene glycol, dextran and lectin adhesion and agglutination of erythrocytes are reviewed.

Induction of murine 8-cell blastomere polarity by F9 embryonal carcinoma cells

The individual blastomeres of the preimplantation mouse embryo become polarized during the 8-cell stage of development. This polarity forms as a result of a specific cell-cell interaction that has been termed induction. The ability of embryonal carcinoma (EC) cells to induce 8-cell blastomere polarization has been investigated by aggregating nonpolar 8-cell blastomeres with various types of EC cells. F9, a nullipotent stem cell, induced polarization of a nonpolar 8-cell companion in 80% of the aggregates. Stimulation of differentiation of F9 cells with retinoic acid (RA), with or without dibutyryl cAMP, caused a reduction in the polarity-inducing ability of these cells. Other EC cells, PSA-1, NULLI-SCC1, 3TDM, C3HNE, and P10, all displayed less polarity-inducing activity than F9. In addition, it was observed that when any of these cell types assumed a more differentiated phenotype, either spontaneously or in response to specific stimuli, they displayed a decrease in their ability to induce 8-cell polarization. As a control, the inducing ability of cells from normal mouse tissues was examined. It was found that neither STO mouse fibroblasts nor primary cultures of mouse lymphocytes were able to induce significant polarization of 8-cell stage blastomeres. These data support the hypothesis that while undifferentiated stem cell populations retain the ability to induce 8-cell blastomere polarization, it is apparently lost upon cellular differentiation.

Development of mouse embryos in media containing lectins

Lectins known to stimulate mitosis in cultured cells were evaluated for effects on development of mouse embryos in vitro. Two-cell mouse embryos were cultured in one of the following treatments: Whitten's medium as the control medium; Whitten's medium with 1, 10 or 100 mug/ml concanavalin A; Whitten's medium with 1, 10 or 100 mug/ml leucoagglutinin; Whitten's medium with 1, 10 or 100 mug/ml phytohemagglutinin; Whitten's medium with 1, 10 or 100 mug/ml pokeweed-mitogen; and Whitten's medium with 1, 10 or 100 mug/ml wheat germ agglutinin. Development to the morula stage was blocked in media with 100 mug/ml concanavalin A and 10 and 100 mug/ml wheat germ agglutinin, whereas blastocyst formation was blocked in all pokeweed-mitogen supplemented media. Embryos incubated in 10 and 100 mug/ml wheat germ agglutinin underwent premature cavitation or vacuolation at 24 to 48 h of culture. More embryos formed blastocysts in media with 1 and 100 mug/ml phytohemagglutinin and 10 mug/ml leucoagglutinin than in Whitten's medium (P<0.05). The percentage of embryos hatching was greatest in 1 mug/ml phytohemagglutinin (P<0.05), but it was the same in Whitten's medium, 1 mug/ml concanavalin A and 1 mug/ml leucoagglutinin (P>0.05). Cell division was not stimulated by the lectins; however, it was significantly suppressed in media with 10 and 100 mug/ml concanavalin A, 100 mug/ml phytohemagglutinin, 1, 10 and 100 mug/ml pokeweed-mitogen, and 10 and 100 mug/ml wheat germ agglutinin. Solubility of the zona pellucida in sodium isothicyanate (NaSCN) was reduced in 100 mug/ml phytohemagglutinin, 100 mug/ml leucoagglutinin and 1 mug/ml wheat germ agglutinin media (P<0.05) when compared to Whitten's medium and may have accounted for the reduced hatching observed in these treatments. Development of isolated blastomeres into blastocysts was reduced in media with 1 mug/ml wheat germ agglutinin, 1 mug/ml concanavalin A, and 10 and 100 mug/ml leucoagglutinin (P<0.05) but was similar in media with 1 mug/ml leucoagglutinin and 1, 10 and 100 mug/ml phytohemagglutinin when compared to Whitten's medium (P>0.05). The extent of embryo development in media with lectins depended upon the degree of cytotoxicity and potential biochemical modifications induced in the zona pellucida. Greatest embryo development took place in medium with 1 mug/ml phytohemagglutinin; however, the mechanism was not that of stimulation of cell division or a change in zona pellucida solubility.

Chimerization of highly asynchronous murine blastomeres: developmental alteration?

Previous studies have shown that early embryos contain information that can alter the developmental fate of adjacent cells and transferred nuclei. In this report we show that a specific combination of cells from early murine embryos, a single blastomere from an eight-cell embryo placed under the zona pellucida with a two-cell embryo, results in a difference in incorporation of 3H-uridine and expression of two protein bands between the chimeric treatment group and the nonchimeric controls, a single blastomere from an eight-cell embryo in a separate zona pellucida and a two-cell embryo. The incorporation of 3H-uridine in the chimeric group and nonchimeric control group was significantly different at 45 hours after chimerization (P less than .02). A stage-specific protein band (52k) on a polyacrylamide gel detected with fluorography was found to be qualitatively different (present more often; P less than .01) and another stage-specific protein band (48k) was found to be quantitatively different (more protein; P = .07) in the chimeric treatment vs. the nonchimeric controls at 45 hours after chimerization. These results suggest communication between the cells resulting in a change in their incorporation of uridine and protein synthetic profiles.

Immunofluorescence assessment of the timing of appearance and cellular distribution of Na/K-ATPase during mouse embryogenesis

We have employed immunofluorescence with a rat kidney Na+/K+-ATPase polyclonal antibody to investigate the cellular distribution and timing of appearance of this enzyme during preimplantation development. The enzyme is first detected in the late morula within the cytoplasm of each blastomere. When cavitation begins this distribution changes dramatically to a ring encircling the blastocoel, restricted to the basolateral cell margins. Using this enzyme as a marker for cavitation, we examined its expression in embryos that had been treated with wheat germ agglutinin (WGA), which causes cleavage arrest and was reported to trigger premature compaction- and cavitation-like events in early cleavage stages (L. V. Johnson, 1986, Dev. Biol. 113, 1-9). Although WGA-treated 2-,4-, and 8-cell embryos quickly underwent compaction- and cavitation-like events, no Na+/K+-ATPase expression was observed. Thus the WGA effect does not likely involve acceleration of the developmental program for cavitation. Embryos arrested at the 8-cell stage but cultured overnight to Day 4, however, expressed the enzyme in the typical blastocyst pattern (around each fluid-filled cavity). We conclude that Na+/K+-ATPase expression is initiated or increases dramatically in the late morula and is independent of cytokinesis. The enzyme assumes a distribution during cavitation consistent with its presumed role in transtrophectodermal fluid transport.

Presence of a unique glycoconjugate on the surface of rat primordial germ cells during migration

This investigation was undertaken to examine the chemical nature of components on the surface of primordial germ cells (PGCs) possibly related to their directed migration during development. To this end, lectins conjugated to horseradish peroxidase were used as specific histochemical probes to characterize the structure of PGC cell surface glycoconjugates and changes in their composition during and after their migration in the rat embryo. A lectin specific for terminal N-acetylgalactosamine (GalNAc) from Dolichos biflorus intensely stained the cell surface and a perinuclear region assumed to be Golgi zone of PGCs only during their migration. With one exception, no other site in the embryo stained with this lectin as migration proceeded. These observations suggest that the GalNAc-containing glycoconjugates on the surface of PGCs may be of functional importance in regulating the guidance and locomotion of these cells during the course of their extensive migration.