Protein secretion by the mouse trophoblast during attachment and outgrowth in vitro

Protein secretion from mouse blastocysts undergoing attachment and trophoblast outgrowth in vitro was assessed. When Day 5 blastocysts were cultured in serum-containing medium, secretion of several 'attachment-associated' proteins (PAS) was initiated within 24 h, coincident with attachment and outgrowth. Those proteins characteristic of the pre-attachment blastocyst disappeared or made-up only a small portion of the secretions once attachment began. The major secreted protein from attached embryos, PA1, is a 35,000-45,000 Mr acidic glycoprotein with multiple isoelectric forms. PA2, a group of basic 40,000 Mr proteins and PA3 a group of 72,000 Mr proteins were also produced during outgrowth. PAS were secreted during outgrowth on fibronectin-coated plastic in serum-free medium, but not by blastocysts held in a non-attachment state during culture in serum-free medium on uncoated plastic. In pre-attachment blastocysts, secreted proteins were produced by trophoblast vesicles, but not by isolated inner cell masses. Both trophoblast vesicles growing out in vitro and surgically isolated trophoblast from spreading blastocysts had secreted protein patterns qualitatively similar to those of intact blastocyst outgrowths. The results indicate that development of trophoblast protein secretion continues through the period of outgrowth and giant cell transformation. These changes are apparently dependent on attachment of the blastocyst to a suitable substrate, but not dependent on any other serum influence.     

Effect of extracellular K+ on hatching and outgrowth of mouse blastocysts in vitro.

The dependence of blastocyst development on the extracellular Na⁺/K⁺ ratio was investigated in an in vitro system. Hatching and outgrowth of mouse blastocysts was enhanced at Na⁺/K⁺ ratios between 3 and 10 compared to the ratio of about 25 typical for most culture media and serum. At a Na⁺/K⁺ ratio of 2, blastocyst hatching and outgrowth were inhibited. The requirement of blastocyst development for relatively high extracellular K⁺ concentrations agrees with the fact that K⁺ concentrations in oviduct and uterine secretions are higher than in serum. The findings can also be relevant in optimizing in vitro culturing techniques for blastocysts.     

Amino acid requirements for attachment and outgrowth of the mouse blastocyst in vitro

Arginine, cystine, histidine, leucine and threonine were needed for outgrowth of the mouse blastocyst in vitro. Omission of lysine, methionine, phenylalanine, tryptophane and tyrosine from the culture medium markedly reduced blastocyst outgrowth, but did not inhibit it completely; while omission of isolecine and valine reduced the extent of outgrowth only slightly. Blastocysts kept for seven days in a free-floating condition by omitting arginine and leucine from the medium, grew out when these amino acids were added. Such behavior may be analogous to delayed implantation in utero and suggests that the free amino acid content of the uterus could be an important factor in the control of implantation. Blastocysts delayed from implanting in the uterus by ovariectomy were activated to outgrowth in a complete medium, but the intracellular changes associated with outgrowth occurred more slowly than in undelayed blastocysts.     

Quantitative effects of laminin concentration on neurite outgrowth in vitro

Recent studies indicate that mediation of neurite outgrowth by the glycoprotein laminin may be a significant factor in the outgrowth of neurites to their targets during embryogenesis. To further characterize the possible role of this extracellular matrix molecule during development, we have systematically measured several features of outgrowth by neonatal rat sympathetic neurons on different concentrations of laminin. Individual neurons, obtained by mechanical dissociation of superior cervical ganglia (SCG), were cultured at low density on laminin substrates ranging from 0.01 to 1.0 microgram/cm2. Outgrowth characteristics were subsequently analyzed for noninteracting cells in both fixed and live cultures. Data obtained from neurons fixed after 11 hr of culture showed approximately twofold increases in neurite initiation and outgrowth, and a twofold decrease in branching for a corresponding 100-fold increase in adsorbed laminin concentration. In time-lapse videomicroscopy observations, the root-mean square speed of growth cone movement increased from 60 to 90 microns/hr over the same range in concentration, while the persistence time remained constant at 0.10 hr. In general, neurite outgrowth parameters were relatively insensitive to changes in laminin concentration, supporting the idea that laminin is a permissive rather than an "instructive" substrate during development. Data obtained from fixed cultures were examined in terms of probability models to suggest possible mechanisms contributing to the dose-dependent effects observed.     

Magnesium-dependent attachment and neurite outgrowth by PC12 cells on collagen and laminin substrata

We report a study of the substratum and medium requirements for attachment and neurite outgrowth by cells of the pheochromocytoma-derived PC12 line. In attachment medium containing both Ca2+ and Mg2+, more than 50% of cells attached within 1 hr to petri dishes coated with native collagen Types I/III or II, native or denatured collagen Type IV, laminin, wheat germ agglutinin (WGA), or poly-L-lysine; attachment to dishes coated with nerve growth factor (NGF) was only about 20% and attachment to uncoated dishes or to dishes coated with fibronectin or gelatin was almost nil. Neither prior culturing in the presence of NGF nor addition of NGF to the attachment medium significantly affected the extent of attachment to collagen or laminin. With Ca2+ (1 mM) as the sole divalent cation, cells attached normally to WGA, polylysine, and NGF, but failed to attach to collagen or laminin. With Mg2+ (1 mM) as the only divalent cation, attachment to all substrata was about the same as in medium with both Ca2+ and Mg2+. Like the ionic requirements, the kinetics of attachment, insensitivity to protease treatment of the cells, and inhibition by low temperature and sodium azide were similar for PC12 attachment to collagen and laminin, suggesting that a common molecular mechanism may underlie attachment to these substrata. The only significant difference observed was that addition of WGA (30 micrograms/ml) to the attachment medium inhibited attachment to collagen but promoted attachment to laminin. Finally, PC12 cells extended neurites on laminin, on native collagens I/III, II, and IV, and on denatured collagen IV; they did not extend neurites on denatured collagens I/III or II, NGF, or WGA. Neurite outgrowth on collagen and laminin occurred with Mg2+ as the sole divalent cation. These results suggest that the same Mg2+-dependent adhesion mechanism operates at the cell body and at the growth cone.     

Purification of the neurite outgrowth promoting fragment of mouse laminin.

A method for isolation of the neurite outgrowth promoting fragment of mouse laminin (fragment 8) is described in this paper. Besides producing excellent yields, this method was shown to be fast and practical, since it is based on a single step which consists in an ion exchange chromatography of elastase digested laminin.     

The RGD containing site of the mouse laminin A chain is active for cell attachment, spreading, migration and neurite outgrowth

The laminin A chain has been sequenced by cDNA cloning and was found to contain an RGD sequence. Synthetic peptides containing the RGD sequence and flanking amino acids were active in mediating cell adhesion, spreading, migration, and neurite outgrowth. Furthermore, endothelial cell attachment to a laminin substrate was inhibited by an RGD-containing synthetic peptide. Antisera against the integrin (fibronectin) receptor, and monoclonal antibody to the integrin, VLA-6, inhibited cell interaction with laminin, as well as with peptides containing an RGD sequence. These results suggest that the RGD containing site of laminin is active and interacts with the integrin family of receptors in certain cells.     

Retinoic acid modulates attachment of mouse fibroblasts to laminin substrates

The effect of retinoic acid treatment on cell attachment to plastic substrates precoated with fibronectin, gelatin, laminin, and type IV collagen was investigated. Both retinoic acid-treated and control cells attached efficiently to fibronectin or gelatin substrates without any significant difference. In contrast, retinoic acid-treated cells attached to laminin or type IV collagen substrates, while control cells showed little or no attachment. The minimal effective concentration of retinoic acid for pretreatment to yield a significant increase in the attachment assay was higher than 10(-8) M. The attachment of retinoic acid-treated cells to laminin substrates reached a maximum at 60 min, while that to type IV collagen substrates had a time lag and did not reach a maximum by 60 min. The effect of retinoic acid treatment reached a maximum at 2 days and was partly reversible. These results suggest that retinoic acid may increase NIH/3T3 cell adhesion through an effect on laminin receptors. Other mouse fibroblast lines, 3T3-Swiss, 3T6-Swiss, Balb/3T3, and Balb/3T12-3 (spontaneously transformed Balb/3T3), responded to retinoic acid treatment in a manner similar to that of NIH/3T3 cells. However, the virus-transformed Balb/3T3 lines, SV-T2 and M-MSV, showed significant attachment to laminin substrates without retinoic acid treatment, and retinoic acid did not affect or slightly decreased the cell attachment to laminin substrates.     

Factors influencing the in vitro hatching of mouse blastocysts

The influence of bovine serum albumin (BSA) concentration on embryo hatching and the number of embryos cultured per drop of culture medium was examined in F1 (C57BL/6J × DBA/2J), C3HeB/FeJ strain and Line E mice. Embryos collected from F1 and Line E mice exhibited uniform hatching rates at BSA concentrations between 1 and 10 mg/ml, and embryo numbers ranging from 1 to 10 per 3 μ1 of culture medium. The hatching of C3HeB/FeJ blastocysts was greater at the higher concentrations of BSA and higher embryo densities. When the C3HeB/FeJ embryos were grown at high densities until morula and then cultured singly in fresh media they hatched at a low rate. However, when allowed to develop until the blastocyst stage before replotting, the embryos hatched at a high rate. C3HeB/FeJ embryos cultured singly until morula and then placed in groups of 10 hatched at a high rate. Single C3HeB/FeJ embryos, cultured in medium conditioned by the prior presence of embryos at high densities, hatched at a slightly higher frequency than those cultured in fresh medium. There was no tendency of embryos developing from the two-cell to the eight-cell stages to hatch when cultured in the presence of high densities of hatching blastocysts.     

Influence of reduced glucose levels on the in vitro hatching,attachment, and trophoblast outgrowth of the mouse blastocyst

The influence of glucose on the in vitro hatching, attachment, and trophoblast outgrowth of 856 mouse blastocysts has been examined. Results indicate that glucose is a necessary factor for the in vitro hatching of the mouse blastocyst and that a delay in hatching can be accomplished by culturing blastocysts in culture media devoid of glucose.     

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.     

Human amnion contains a novel laminin variant, laminin 7, which like laminin 6, covalently associates with laminin 5 to promote stable epithelial-stromal attachment

Stable attachment of external epithelia to the basement membrane and underlying stroma is mediated by transmembrane proteins such as the integrin alpha6beta4 and bullous pemphigoid antigen 2 within the hemidesmosomes along the basolateral surface of the epithelial cell and their ligands that include a specialized subfamily of laminins. The laminin 5 molecule (previously termed kalinin/nicein/epiligrin) is a member of this epithelial-specific subfamily. Laminin 5 chains are not only considerably truncated within domains III-VI, but are also extensively proteolytically processed in vitro and in vivo. As a result, the domains expected to be required for the association of laminins with other basement membrane components are lacking in the mature laminin 5 molecule. Therefore, the tight binding of laminin 5 to the basement membrane may occur by a unique mechanism. To examine laminin 5 in tissue, we chose human amnion as the source, because of its availability and the similarity of the amniotic epithelial basement membrane with that of skin. We isolated the laminin 5 contained within the basement membrane of human amnion. In addition to monomeric laminin 5, we find that much of the laminin 5 isolated is covalently adducted with laminin 6 (alpha3beta1gamma1) and a novel laminin isotype we have termed laminin 7 (alpha3beta2gamma1). We propose that the association between laminin 5 and laminins 6 and 7 is a mechanism used in amnion to allow stable association of laminin 5 with the basement membrane. The beta2 chain is seen at the human amniotic epithelial-stromal interface and at the dermal-epidermal junction of fetal and adult bovine skin by immunofluorescence, but is not present, or only weakly present, in neonatal human skin.     

Effects of indomethacin, prostaglandin E2 and prostaglandin F2 alpha on mouse blastocyst attachment and trophoblastic outgrowth in vitro

A study was performed in order to investigate the participation of prostaglandins (PGs) during implantation. The effects of indomethacin on mouse blastocyst attachment and trophoblastic outgrowth were examined in vitro. Studies were also carried out on cultures supplemented with PGE2 and/or PGF2 alpha along with indomethacin. (1) Blastocyst attachment and trophoblastic outgrowth were inhibited by indomethacin dose-dependency. (2) In the cultures supplemented with indomethacin and PGE2 or PGF2 alpha, respectively, the inhibitory effects of indomethacin were reduced. (3) In the cultures supplemented with all three substances with treatment (1) and (2), inhibition of indomethacin was partially reversed, but still lower than control group without indomethacin. The above results indicate that both PGE2 and PGF2 alpha have a promoting effect on implantation, and PGF2 alpha was more effective than PGE2.     

Expression and function of cell surface extracellular matrix receptors in mouse blastocyst attachment and outgrowth

Mouse-hatched blastocysts cultured in vitro will attach and form outgrowths of trophoblast cells on appropriate substrates, providing a model for implantation. Immediately after hatching, the surfaces of blastocysts are quiescent and are not adhesive. Over the period 24-36 h post-hatching, blastocysts cultured in serum-free medium become adhesive and attach and spread on the extracellular matrix components fibronectin, laminin, and collagen type IV in a ligand specific manner. Attachment and trophoblast outgrowth on these substrates can be inhibited by addition to the culture medium of an antibody, anti-ECMr (anti-extracellular matrix receptor), that recognizes a group of 140-kD glycoproteins similar to those of the 140-kD extracellular matrix receptor complex (integrin) recognized in avian cells by CSAT and JG22 monoclonal antibodies. Addition to the culture medium of a synthetic peptide containing the Arg-Gly-Asp tripeptide cell recognition sequence of fibronectin inhibits trophoblast outgrowth on both laminin and fibronectin. However, the presence of the peptide does not affect attachment of the blastocysts to either ligand. Immunoprecipitation of 125I surface-labeled embryos using anti-ECMr reveals that antigens recognized by this antibody are exposed on the surfaces of embryos at a time when they are spreading on the substrate, but are not detectable immediately after hatching. Immunofluorescence experiments show that both the ECMr antigens and the cytoskeletal proteins vinculin and talin are enriched on the cell processes and ventral surfaces of trophectoderm cells in embryo outgrowths, in patterns similar to those seen in fibroblasts, and consistent with their role in adhesion of the trophoblast cells to the substratum.     

Fibronectin and laminin promote differentiation of human mesenchymal stem cells into insulin producing cells through activating Akt and ERK

Background  

Islet transplantation provides a promising cure for Type 1 diabetes; however it is limited by a shortage of pancreas donors. Bone marrow-derived multipotent mesenchymal stem cells (MSCs) offer renewable cells for generating insulin-producing cells (IPCs).     

Collagens support embryo attachment and outgrowth in vitro: effects of the Arg-Gly-Asp sequence

Collagen types I through VI support attachment and outgrowth of mouse blastocysts in vitro. We found that embryos acquire the ability to attach to collagens type II and VI relatively early in their developmental program. The time at which half of the embryos displayed outgrowth formation and the morphology of outgrowths formed on these two collagen types are similar to those observed for laminin, fibronectin, and hyaluronate. Embryos acquire the ability to outgrow on the other collagen types at a later time in culture. Both "native" and denatured collagens support embryo attachment and outgrowth, indicating that this activity is intrinsic to the primary collagens' structure. A synthetic peptide containing the sequence Arg-Gly-Asp inhibits embryo outgrowth on collagen type II and denatured collagen type IV, whereas a peptide containing the related sequence, Arg-Gly-Glu, has relatively little effect on embryo outgrowth. In contrast, embryo attachment to collagen types I, V, and VI was not inhibited specifically by the Arg-Gly-Asp peptide sequence. Consequently, it appears that embryos use multiple adhesion systems to attach to collagens. Among these are adhesion systems that have a peptide recognition specificity similar to that of fibronectin receptors. These studies indicate that embryo interactions with collagens may be one aspect of the tissue invasion processes that take place during implantation.