Appearance and distribution of collagens and laminin in the early mouse embryo

Appearance and distribution of the different collagen types and the noncollagenous glycoprotein laminin was studied during early mouse development from unfertilized ova to 8-day embryos using indirect immunofluorescence techniques. Laminin was first detected intracellularly in the 16-cell compacted morula and appeared also intercellularly along cell contours. Type IV collagen was first seen in the blastocyst mainly in the inner cell mass. After implantation intense fluorescence for both of these proteins was found in all the embryonic and extraembryonic basement membranes. The interstitial collagens type I and III were first detected in the 8-day embryo closely codistributed in tissues of mesodermal origin including the head and heart mesenchymes and in basement membranes bounded by mesodermal structures. The results establish a developmental sequence for the appearance of basement membrane and extracellular matrix glycoproteins in early mouse development. The distribution of laminin suggests the presence of extracellular matrix material already in compacted morulae. The appearance of type IV collagen coincides with differentiation of the primitive endoderm and assembly of the first embryonal basement membrane. The appearance of the interstitial collagens during mesoderm differentiation indicates a stage when mesoderm acquires connective tissue characteristics.     

Isolation of cDNA clones for basal lamina components: type IV procollagen

We have isolated cDNA clones for mouse type IV procollagen from a library constructed from total poly A+RNA of 13.5 day mouse embryo parietal endoderm (PE) cells. In Northern analysis these clones hybridise to a 6.8 kb RNA which is abundant in embryonic PE cells and in differentiated F9 teratocarcinoma cells. Hybrid selection and in vitro translation of the cDNA specific mRNA produced a single polypeptide of Mr = 165 000. This polypeptide was specifically immunoprecipitated with mouse type IV procollagen antisera and comigrated on SDS-gel electrophoresis with one of the two in vitro synthesised chains of type IV procollagen. Undifferentiated F9 teratocarcinoma cells can be induced by retinoic acid and dibutyryl cAMP to differentiate in vitro into endoderm-like cells which resemble mouse PE cells in synthesising large amounts of basement membrane proteins, including type IV procollagen. Here we show, using one of the cDNA clones as a probe for type IV procollagen, that an increase in cellular concentration of type IV procollagen mRNA occurs within 24 to 48 hours of induction, reaching a constant high level by 72 hours.     

Protein synthesis and differentiation in a clonal line of teratocarcinoma and in preimplantation mouse embryo.

Undifferentiated cells of a clonal line of teratocarcinoma can differentiate in vitro into embryoid bodies with morphological and biochemical features of early mouse embryo. During the first step of differentiation protein synthesis has been analysed by 2 dimensional gel electrophoresis. While new proteins are synthesized, the synthesis of others turned off with the appearance of endodermal cells in embryoid bodies. We have compared protein synthesis during teratocarcinoma differentiation and during early mouse embryogenesis at three stages of mouse preimplantation embryo. The results demonstrate that only the late blastocyst protein synthesis pattern shows most of the polypeptides identified in the differentiated protein synthesis pattern of teratocarcinoma. In contrast, protein synthesis during the early stages of mouse embryonic development is very different from protein synthesis in undifferentiated teratocarcinoma.     

Processing of types I and III procollagen in Ehlers-Danlos syndrome type VII.

The processing of types I and III procollagen was studied in skin fibroblast cultures from type VII A and B of the Ehlers-Danlos syndrome [EDS] and age-matched controls. Synthesis of collagenous proteins was significantly increased in EDS type VII B, and the activities of prolyl-4-hydroxylase and galactosylhydroxylysyl glucosyltransferase were slightly increased in these cell lines, reflecting increased biosynthesis of collagen. The synthesis of collagenous proteins was close to normal in EDS type VII A cells. The synthesis of type III procollagen per cell was increased, as also was the ratio of immunoreactive type III procollagen to total collagen production. The activity of type I procollagen amino-terminal proteinase was decreased in skin fibroblasts of type VII A and normal in those of type VII B relative to cell protein or DNA. Type III amino-terminal proteinase activity was of a level found in normal cells when expressed relative to the protein or DNA, and the release of type III amino-terminal propeptides was nevertheless not disturbed in these EDS type VII cell cultures. The results show that only the conversion of type I procollagen is defective in EDS type VII, and no general defect in procollagen processing can be found in EDS type VII as has been suggested in the case of dermatosparaxis, a connective tissue disorder in animals caused by disturbed procollagen conversion.     

Expression and localization of collagen-binding stress protein Hsp47 in mouse embryo development: comparison with types I and II collagen

Heat shock protein (Hsp)47 is a collagen-binding stress protein localized in the endoplasmic reticulum and is thought to have chaperone-like functions that are specific to procollagen biosynthesis. In previous papers, we reported that the expression of Hsp47 is closely correlated with that of various types of collagen in various cell lines and also in the progression of experimental liver fibrosis. In the present study, the expression of Hsp47 was examined during the development of mouse embryos by immunostaining with an anti-Hsp47 antiserum. The spatio-temporal correlation of the expression of Hsp47 with those of types I and II collagen was also examined using specific antisera. Hsp47 expression during embryogenesis was observed mainly in mesoderm and in tissues that are derived from mesoderm, such as connective tissue, cartilage, bone, notochord and somites. Hsp47 was also detected in tissues derived from the neural crest mesenchyme. In the central nervous system, Hsp47 was detected in some restricted regions where cells proliferate, such as the ventral area of the neural tube and choroid plexus. Immunostaining for types I and II collagen revealed the spatial and temporal correlations of the expression of these proteins with that of Hsp47. These results suggest the biological importance of Hsp47 as a collagen-specific molecular chaperone in the mouse developmental program.     

Expression of a Forssman antigenic specificity in the preimplantation mouse embryo.

A monoclonal antibody recognizing a Forssman antigenic specificity has been shown to react with cells of the preimplantation mouse embryo. The antigen is believed to be carried on glycolipid molecules on teratocarcinoma stem cells. This antigen is first detected on the trophectoderm of the early blastocyst. The topography of the expression on the trophectoderm is striking and novel. The antigen is no longer found on these cells after the blastocyst has hatched from the zona pellucida in utero. Inner cell masses are antigen-positive at all times. This is the first study of the distribution of a single antigenic determinant in early mouse embryogenesis.     

Association of collagen with preimplantation and peri-implantation mouse embryos

By immunofluorescence analyses, we have determined that Type III procollagen, Type III collagen, and B and C chains of basement membrane collagen are associated with preimplantation mouse embryos. Type III collagen and procollagen appear to be associated with embryos at the 4-cell stage and beyond, whereas antibodies to B and C collagen chains bind to 2-cell and later embryos. All of these collagen types are detected in increasing amounts as embryos develop in a defined medium, indicating that the embryo is capable of their synthesis. By the blastocyst stage, the collagens are primarily localized intercellularly. Cells of the inner cell mass (ICM) also bind collagen antibodies. When isolated ICMs become two-layered, both the inner presumptive ectoderm layer and the outer primitive endoderm layer react with antibodies to Type III collagen and procollagen. The endoderm cells also react avidly with antibodies to B- and C-chain collagens. Preimplantation embryos and ICMs fail to react with antibodies to Types I and II collagen. During peri-implantation stages, blastocysts continue to react with antibodies to Type III and basement membrane collagens. There is no obvious relationship between the intensity of immunofluorescence and the change in the blastocyst surface from nonadhesive to adhesive. Furthermore, blastocysts prevented from undergoing implantation-related events in utero and in vitro react extensively with collagen antibodies. Blastocyst surface collagens might, nevertheless, play a role in implantation by undergoing organizational changes.     

Collagen processing, crosslinking, and fibril bundle assembly in matrix produced by fibroblasts in long-term cultures supplemented with ascorbic acid

Human foreskin fibroblasts were cultured for up to 6 weeks in medium supplemented with ascorbic acid. During this time, the cells produced an extensive new connective tissue matrix in which the accumulated collagen (mostly type I) amounted to about 0.25 mg/10(6) cells. The matrix was highly differentiated as shown by complete processing of procollagen to collagen alpha-chains and covalent crosslinking of the collagen. Alignment of collagen fibrils occurred as the fibrils were deposited between cells, and binding of adjacent fibrils to the cell surface appeared to hold the fibrils in register. Groups of aligned fibrils were subdivided into bundles by cell-surface folds. If beta-aminopropionitrile was added to the medium, collagen crosslinking was inhibited, but not collagen synthesis or fibril bundle organization. If ascorbic acid was omitted from the culture medium, the extensive new connective tissue matrix was not produced. Our results indicate that fibroblasts in long-term cultures supplemented with ascorbic acid produce a connective tissue matrix with many in vivo-like properties including supermolecular organization of collagen.     

Connective tissue cells, cell proliferation and synthesis of extracellular matrix-a review.

The ubiquitous connective tissues contain a wide range of cells including fibroblasts, osteoblasts and chondroblasts. Recently it has been demonstrated that another principal cell of the connective tissue is the smooth muscle cell in several organ systems. These have been shown to be responsible for the synthesis of the connective tissue matrix components of the uterine myometrium and of the arterial system, including collagen, both elastic fibre proteins and glycosaminoglycan. Microtubule inhibitors such as colchicine and vinblastine, and iron chelators such as alpha,alpha -dipyridyl have been used to study their morphologic and chemical effects on collagen synthesis and secretion. Colchicine produces an increase in large Golgi-associated vacuoles, which sometimes contain material reminiscent of aggregates of collagen macromolecules. Vinblastine produces alterations in the endoplasmic reticulum cisternae similar to alterations seen in ascorbic acid deficiency, and alpha,alpha-dipyridyl increases the frequency of regions in cells, interpretable as potential sites of communication of rough endoplasmic reticulum cisternae with the cell surface. Ferritin conjugated anti-procallagen sera were used to localize procollagen in cells and demonstrated procollagen not only in the cisternae of rough endoplasmic reticulum but in all of the elements of the Golgi complex as well. The studies reported in this review have shown that in cell culture arterial smooth muscle will produce not only the microfibrillar protein of the elastic fibre but soluble and/or insoluble elastin as well. Recent studies on serum factors responsible for the proliferation of connective tissue cells have demonstrated that at least one of the principal factors responsible for fibroblast and/or smooth muscle cell proliferation in culture is derived from thrombocytes. Medium containing serum derived from cell-free plasma lacks most of this proliferative effect which can be reinstated when platelets are present during recalcification to form serum. This effect is due to the platelet release reaction as shown by combining supernatant factors derived from platelets exposed to purified thrombin to cell-free, plasma derived serum. Studies with macrophages have also suggested that phagocytic macrophages release factor(s) into a cell culture medium that may also participate in stimulating fibroblasts to proliferate in vitro. The means by which these factors stimulate fibroblast proliferation and connective tissue synthesis remains to be elucidated.     

Plasminogen activator in early embryogenesis: Enzyme production by trophoblast and parietal endoderm

We have surveyed the early stages in the development and differentiation of cultured mouse embryos for plasminogen activator production. This enzyme is first detectable by the sixth equivalent gestation day. Thereafter, cultured blastocysts produce plasminogen activator with a biphasic time course: in the first phase, enzyme secretion rises to a maximum at about the eighth day and then decreases; a second phase, during which more enzyme accumulates, begins somewhat later and continues to at least the fifteenth day.By fractionating the blastocyst into its constituent cell types, we have identified the trophoblast as the cells responsible for the first phase of enzyme synthesis. The pattern of enzyme production by the trophoblast is closely correlated with the invasive period of these cells in vivo and implies that plasminogen activator is involved in embryo implantation. The second phase of plasminogen activator production is due to parietal endoderm, which initiates enzyme synthesis upon differentiation from the inner cell mass. The properties of the parietal endoderm suggest that plasminogen activator may participate in the migration of these cells and/or in the metabolism of Reichert's membrane which accompanies embryo growth.These results are consistent with the concept, developed from work on other cell types, that plasminogen activator may represent a generalized mechanism for tissue remodeling and cell migration.     

Methylation of DNA in mouse early embryos, teratocarcinoma cells and adult tissues of mouse and rabbit.

The distribution and amount of 5-methylcytosine (5-MeCyt) in DNA was measured for early embryos of mouse strain CF1 (2 to 4 cell stage to blastocyst) and mouse teratocarcinoma cells. In each case, the pattern of methylation was examined by use of the restriction enzymes Hha I and HPA II HPA II, which cut DNA at the sites 5'GCGC and 5'CCGG respectively, when the cytosines at these sites are not methylated. Mouse embryo DNA was found to have the same level of methylation as adult mouse tissues, and no changes in methylation were seen during differentiation of the teratocarcinoma cells. The ratio of 5-MeCyt/Cyt in DNA was measured by high performance liquid chromatography for the differentiating teratocarcinoma cells and for several adult mouse and rabbit tissues. The variation between tissues or between teratocarcinoma cells at different stages of differentiation was less than 10 percent. These results are discussed in view of proposals that 5-MeCyt plays a role in differentiation.     

A disorder of collagen biosynthesis in patients with cerebral artery aneurysm

12 patients with subarachnoid hemorraghe due to rupture of a cerebral aneurysm were examined clinically for symptoms and signs of a connective tissue disorder and biochemically for details of the biosynthesis of collagen. No uniform clinical pattern of any connective tissue disorder was seen in these patients, although selected signs were observed. Skin fibroblast cultures were then established. The rate of procollagen production in two cell lines was reduced by 40% and 50%, respectively, and the intracellular accumulation of hydroxyl[¹⁴C]proline (as a percentage of total hydroxy[¹⁴C]proline) was increased by 70% in each relative to eight control cell lines. No difference was found in the degree of intracellular degradation of procollagen. After pulse-labelling, however, the radioactive procollagen was secreted into the medium in 1 h in the control cells, but required at least 3 h in the two aneursym patient cell lines. The results, thus, suggest that delayed secretion of procollagen rather than increased intracellular degradation led to the reduction in the rate of procollagen synthesis in these two fibroblast lines from patients with cerebral artery aneurysm.     

Basement membrane matrices in mouse embryogenesis, teratocarcinoma differentiation and in neuromuscular maturation

In this paper we discuss studies on basement membrane and interstitial matrix molecules in early development and teratocarcinoma differentiation. In the early embryo a compartmentalization of newly formed cell types takes place immediately by formation of basement membranes. The stage-specific developmental appearance of extracellular matrix molecules such as type IV collagen, laminin, entactin, fibronectin and proteoglycans seems to reflect a diversified role of extracellular matrices already in the earliest stages of development. In teratocarcinoma cultures the appearance and composition of extracellular matrices during the differentiation of endoderm cells closely resembles that found in the early embryo. Also in this respect the teratocarcinoma system can be used as a model for studies on early development. In later developmental phenomena other matrix molecules can also be of importance. Merosin, a novel tissue-specific basement membrane-associated protein that appears during muscle and nerve maturation is an example of such molecules.     

Expression patterns of germ line specific genes in mouse and human pluripotent stem cells are associated with regulation of ground and primed state of pluripotency

One of the main criteria of pluripotency is ability of cell lines to differentiate into the germ line. Pluripotent stem cell lines in ground state of pluripotency differ from the lines in primed state by their ability to give rise to the mature gametes. To understand molecular mechanisms involved in regulation of different states of pluripotency we investigated the expression patterns of germ line specific genes in different type pluripotent stem cells and mouse and human embryonic teratocarcinoma cells. We found that pluripotent stem cells in vitro, in blastocyst and gonocytes at stage E13.5 had similar expression patterns in contrast to the epiblast cells at stage E6.5. Quantitative real time PCR analysis showed that Vasa/Ddx4 expression in mouse and human embryonic stem cells was significantly lower than in blastocyst and gonocytes. Moreover, Vasa/Ddx4 and E-ras expression was significantly higher in mouse embryonic stem cells than in human embryonic stem cells. Our analysis of germ line specific gene expression in differentiating mouse embryonic stem and embryonic germ cells as well as in mouse embryonic teratocarcinoma cells maintained under conditions promoting cell reprogramming from primed to ground state of pluripotency (2i + LIF) revealed that only pluripotent stem cells are able to regulate the expression level of Oct4 and Vasa/Ddx4 and restore initial ground state, while in embryonic teratocarcinoma cells the expression level of these genes remained unchanged. We suggest that expression patterns of germ lines specific genes, in particular of Vasa/Ddx4, can underlie the regulation of ground and primed states of pluripotency.     

Serological analysis of early mouse embryo with rat monoclonal antibodies produced against mouse teratocarcinoma cells

Rat-mouse hybridoma antibodies were produced against mouse teratocarcinoma F9 or PCC4 aza1 cells, and four clones were established. Both the F11 (IgM) and F20 (IgG2c) antibodies showed a similar specificity, reacting only with nullipotential teratocarcinoma cells. They were also found to agglutinate sheep red blood cells. Solid-phase enzyme-linked immunofluorescence assay showed that, among the neutral glycolipids studied, they only reacted with the Forssman antigen. P2 antibody (IgG2b) reacted with the undifferentiated-type and embryonal endodermtype teratocarcinoma cells. During the preimplantation stage, this antibody did not stain mouse embryos, but it reacted very weakly with the inner cell mass of blastocysts cultured in vitro. In the 5th-day embryo, the embryonic ectoderm as well as the visceral and parietal endoderm were positive, but the extraembryonic ectoderm was not. Mesoderm of the 7.5th-day embryo also reacted with this antibody. However, P2 antigen was not observed in the 16th-day embryo or in adult tissues. F2 antibody (IgG2a), which was reactive with all of the cultured cell lines tested, showed an immunoreaction with mouse embryos throughout the preimplantation stage. However, in the 7.5th-day embryo, the presence of F2 was limited to the cells forming the parietal endoderm. This antigen was present in some epithelial tissues of the 16th-day embryo and adult mouse. Of these antigens, P2 and F2 are probably novel differentiation antigens of the early mouse embryo. Together with the Forssman antigen, these will be important markers for analyzing cell-surface antigens of mouse teratocarcinoma cells as well as embryos.     

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.     

Immunofluorescent localization of extracellular matrix components during muscle morphogenesis. II. In chick embryos with hereditary muscular dysgenesis (cn/cn)

The immunofluorescent distribution of types I and III collagen, fibronectin, and laminin during muscle morphogenesis of the crooked neck dwarf mutant chick embryo differs from that of the normal chick. The drastic difference is related to the inability of the mutant embryo to maintain a harmonious muscle pattern. The first sign of the defect is the disaggregation of type I collagen fibers of the tendons and the disorganization of the intermuscular spaces. The organization of the connective tissue never proceeds beyond the appearance of an epimysial envelope, rich in types I and III collagen, which becomes disorganized shortly after. No perimysial envelopes displaying types I and III collagen fibers and fibronectin, nor endomysial sheaths develop. Only large spaces filled with types I and III collagen fibers subdivide groups of muscle cells irregularly. On the whole, type III collagen is less abundant than type I collagen. Fibronectin disappears from the periphery of the muscle cell. Laminin is more thickly deposited in the basal lamina around irregularly sized muscle cells than around the normal muscle cell. The results are discussed in terms of morphogenetic interactions between connective tissue cells and muscle cells, and in terms of fibrosis, which characterizes some muscle diseases.     

Presence of different types of procollagen messenger RNAs in human hepatoma cell lines

Human hepatoma cell lines were shown for the first time to contain various types of procollagen mRNAs. The amounts and types of procollagen mRNAs differed depending on the cell lines. Pro alpha 1 (III) and pro alpha 1 (IV) collagen mRNAs were present in PLC/PRF/5, a hepatocellular carcinoma cell line, whereas pro alpha 1 (I), pro alpha 2 (I), pro alpha 1 (IV) and pro alpha 2 (V) collagen genes contrast, HepG2 cells derived from hepatoblastoma contained little, if any, mRNAs for these types of procollagens we had examined.