Quantitative morphologic studies on the myocardium in early stages of ontogenesis and after application of various cardioactive agents

The authors have morphometrically studied the differentiation of the myocardium in dynamic phases of the embryonic and postnatal development in chickens and Syrian Hamsters. Moreover, they investigated the action of the beta-adrenalytic substances Practolol and Trimepranol on ultrastructure of the cardiac muscle in adult animals. The volume of mitochondria in myocardial cells in 6-day old chicken embryos amounts to 5.65% of the total cell volume, in 12-day old embryos 14.35%, in 18-day old embryos 19.60%, in 1-day old chickens 23.24% which is nearly as much as in adult animals. The volume of myofibrils in 6-day old embryos is about 3.2%, in 12-day old embryos about 7.4%, in 18-day old embryos about 16.4% and in 1-day old chickens about 21.2%. The differences between individual groups are statistically significant. The dynamics of differentiation of the myocardium in Syrian Hamsters was studied in 5 phases, namely in 14-day old embryos and in postnatal phases on the 2nd, 5th, 14th and 21st days after birth. Most cells in 14-day old embryos are rather immature. Participation of the volume of mitochondria, myofibrils, equipment of mitochondria with cristae etc. considerably increase in postnatal phases. These findings suggest that the heart of mammals is rather immature at birth and will differentiate mainly in the postnatal developmental phases. Many morphometric findings, as regards the action of beta-adrenalytic drugs on the ultrastructure of the myocardium in adult rabbits, point to the fact that application of these substances will give rise to degenerative alterations in approximately 10% of myocardial cells. Theoretical explantation of these mechanisms is being discussed.     

Mitotic activity of the myocardium in early ontogenesis of rabbits after minor mechanical injury to the heart

The data are provided on proliferative activity of myocytes in rabbit embryos and neonates. In rabbit embryos, in which myocardial regeneration is effected at the cellular level, mitoses of myocytes are largely important for myocyte proliferation. In rabbit neonates which do not show any complete regeneration of the myocardium, mitoses of myocytes are of primary importance for myocardial polyploidy. Minor mechanical injury to rabbit myocardium in early ontogenesis contributes to activation of the processes of hear muscle differentiation.     

The differential expression of the cellular src-gene product pp60src and its phosphokinase activity in normal chicken cells and tissues

Chick embryos of different ages and adult chickens were examined for the expression of pp60c -src, the normal cellular homolog of the transforming protein of Rous sarcoma virus. In any brain extract, the pp60c -src kinase activity was always high, whereas muscle extracts of embryos show an age-dependent decrease in kinase activity. Adult animals show either no or barely measurable activity in muscle tissue. In contrast, liver cell extracts of embryos show an age-dependent increase in pp60c -src kinase activity, with adult chickens displaying the highest activity, very similar to that found in brain extracts. This demonstrates that increased expression of c-src is not necessarily correlated with cell proliferation, but suggests that, at an early stage of differentiation of mesenchymal cells, the relatively high expression of c-src could be responsible, at least in part, for the control of cell metabolism and proliferation.     

Study of larval and adult skeletogenic cells in developing sea urchin larvae

The larval skeleton of sea urchin embryos is formed by primary mesenchyme cells (PMCs). Thereafter, the larvae start feeding and additional arms develop. An adult rudiment that contains spines, tube feet, tests, and other parts of the adult body is formed in the eight-armed larva. The cellular mechanism of the later skeletogenesis and the lineage of the adult skeletogenic cells are not known. In this study, the morphogenesis of larval and adult skeletons during larval development of the sea urchin Hemicentrotus pulcherrimus was investigated by immunostaining cells with PMC-specific monoclonal antibodies, which are useful markers of skeletogenic cells. All spicules and the associated cells in the later larvae were stained with the antibodies. We could observe the initiation of skeletal morphogenesis at each developmental stage and visualize the cellular basis of skeleton formation in whole-mount embryos that possessed an intact morphology. There were some similarities between PMCs and the later skeletogenic cells. Both had a rounded shape with some filopodia, and the antigen expression started just before overt spicule formation. In the later-stage embryos, cells with filopodia and faint antigen expression were observed migrating in the blastocoel or aggregating in the presumptive location of new skeletogenesis.     

Changes in the muscle ultrastructure and electrolyte composition of rats in embryogenesis. II. X-ray spectrum microanalysis of the intracellular concentrations of potassium, sodium and phosphorus in skeletal and heart muscle

Concentrations of K, P and Na were determined in skeletal and cardiac muscle cells of rat embryos. High K and P levels--133 and 166 mmole/kg wet weight, resp.,--were found in skeletal muscles of 13 day old embryos, the concentration of Na in these cells being 81 mmole/kg w. w. On the 18th day of development, K and P in skeletal muscle cells decreased down to 79 and 118 mmole/kg w. w., resp., while the concentration of Na increased to 165 mmole/kg w. w. In 19 day old embryos, the concentrations of K and P increased, although they did not reach the level typical of skeletal muscles of adult rats. The concentrations of K and P in cardiac muscle cells of 13 day embryos were found equal to 100 and 108 mmole/kg w. w., resp., on the 19th day of development these concentrations reached the level typical of the cardiac muscle cells of adult rats.     

Morphophysiological studies in experimental myocardial aggressions with isoproterenol. Note I. Morphological aspects

The morphopathogenesis of lesions induced by high doses of isoproterenol injected for 1-7 days and 1-3 months is dynamically studied in groups of Wistar rats and guinea pigs. The disseminated myocardial necroses induced were of a hypoxic nature. By cicatricial substitutions, lesions of cardiosclerosis similar to those observed in pheochromocytoma cases were obtained.     

Vertebrate myotome development

The embryonic myotome generates both the axial musculature and the appendicular muscle of the fins and limbs. Early in embryo development the mesoderm is segmented into somites, and within these the primary myotome forms by a complex series of cellular movements and migrations. A new model of primary myotome formation in amniotes has emerged recently. The myotome also includes the muscle progenitor cells that are known to contribute to the secondary formation of the myotome. The adult myotome contains satellite cells that play an important role in adult muscle regeneration. Recent studies have shed light on how the growth and patterning of the myotome occurs.     

Deposition of the terminal C5b-9 complement complex in infarcted areas of human myocardium

Poly- and monoclonal antibodies to neoantigens of the human C5b-9 complement complex, as well as polyclonal antibodies to C5, C8, and C9, were used to detect and identify C5b-9 deposits in human myocardial tissue. Immunocytochemical studies were performed on fresh-frozen autopsy material derived from patients with myocardial infarctions; in addition, in 17 of these patients, paraffin sections of formalin-fixed tissue were investigated. Sixteen autopsies from patients with noncardiac diseases were analyzed as controls. Without exception, C5b-9 positivity was registered selectively and exclusively on and in myocardial cells located within the zones of infarction. The selectivity of staining was confirmed by control reactions for succinic dehydrogenase activity performed in adjacent, respective double-stained sections. Most intensive staining with anti-neoantigen antibodies was observed in the peripheral areas of the infarctions. Weak staining for C3d, rather strong staining for C5 and C9, and intermediate staining with anti-C8 antibodies were observed in the same localizations. Stainings for C4 and IgA were negative, whereas immunocytochemical reactions for IgG and IgM revealed an irregular and very weak staining. Only very weak staining was also observed with a monoclonal antibody to complement S-protein, indicating that the terminal complement components were deposited mainly in the form of membrane-damaging C5b-9 complexes. Immunocytochemical staining for C5b-9 was found to represent a most sensitive tool for detection of ischemic myocardial lesions, permitting easy detection even of single cell necroses. As a working hypothesis, we suggest that initial ischemia may cause loss of the ability of the heart muscle cells to regulate complement turnover at the membrane level. The resulting deposition of C5b-9 on the cell membranes may contribute to functional disturbance and irreversible damage of myocardial cells during the infarction process.     

Immunohistochemical study of the phosphorylated and activated form of c-Jun NH2-terminal kinase in human aorta

c-Jun NH₂-terminal kinase is a key enzyme mediating the cellular response to a variety of extracellular stimuli. In the present study, we performed immunohistochemical studies of the expression of the phosphorylated form of the kinase in 51 human aortas of various ages. The phosphorylated kinase immunoreactivity was strongly detected in vascular smooth muscle cells of the medial vessel layer of atherosclerotic lesions from adults. Immunoreactivity was also strongly detected in similar cells of the intima. On the other hand, immunoreactive phosphorylated kinase was only weakly detected in the medial vascular smooth muscle cells of non-atherosclerotic lesions from adults. We also investigated the expression of the phosphorylated kinase in infant aortas. In contrast to its weak immunoreactivity in adult non-atherosclerotic lesions, the kinase immunoreactivity was detected in high amounts in vascular smooth muscle cells of non-atherosclerotic lesions from infants. Thus, the abundant expression of the phosphorylated kinase in these cells in atherosclerotic lesions of adults and non-atherosclerotic lesions of infants suggests that the activation of c-Jun NH₂-terminal kinase may be an important element initiating the proliferation of vascular smooth muscle cells during atherogenesis and aortic development.     

In ovo exposure to monochromatic green light promotes skeletal muscle cell proliferation and affects myofiber growth in posthatch chicks

Our previous studies demonstrated that illumination of chicken embryos with monochromatic green light results in enhanced body and muscle weight at later posthatch stages. In the present study, we investigated the cellular and molecular basis of this phenomenon. First, we showed that on day 6 posthatch, myofibers were more uniform in the in ovo illuminated group than in the control group incubated in the dark, with respect to the number of myofibers displaying diameter values within the range of the mean value. Second, we tested the hypothesis that in ovo illumination causes an increase in the number of myoblasts; this in turn can promote posthatch muscle growth. Indeed, a significant increase in the number of skeletal muscle cells isolated from pectoralis muscle was observed in the in ovo illuminated group on days 1 and 3 posthatch relative to the control group. This increased cell number was accompanied by higher expression levels of Pax7 and myogenin proteins on posthatch days 1 and 3, respectively. A parallel analysis of proliferating cells in the intact muscle further demonstrated a significant increase in the number of cells positive for proliferating cell nuclear antigen in muscle from the in ovo illuminated group. Third, we demonstrated that the transition from fetal- to adult-type myoblasts, normally occurring in late stages of chicken embryogenesis, is initiated earlier in embryos subjected to in ovo green-light illumination. We suggest that the stimulatory effect of in ovo illumination on posthatch muscle growth is the result of enhanced proliferation and differentiation of adult myoblasts and myofiber synchronization.     

Expression of cellular retinoic acid binding protein II (chick-CRABP II) in the chick embryo

We previously demonstrated the presence of cellular retinoic acid binding protein II, chick-CRABP II, in chick embryos. In the present study, we investigated the distribution of chick-CRABP II in 14-day chick embryos by means of immunoblot analysis. Chick-CRABP II was expressed in skin, muscle, bone with tendon of the embryos, but not expressed in the nervous system. In adult chick tissues, chick-CRABP II was not detected on immunoblotting; Chick-CRABP II in adults amounts to less than 10 ng/mg soluble protein. These observations suggest that chick- CRABP II is an embryonic protein involved in the development of specific tissues, such as bone, muscle and skin.     

A water-soluble fraction from adult bone stimulates the differentiation of cartilage in explants of embryonic muscle

A water-soluble fraction of a 4 M guanidine HCl extract of demineralized adult bovine bone stimulated the differentiation of cartilage in explants of minced skeletal muscle from embryonic chick legs; cartilage was also induced by a semipurified protein preparation. Cartilage could be identified in treated cultures at 1 week with muscle from day-9 embryos, not before 2 weeks with muscle from day-12 embryos, and not before 3 weeks with muscle from day-19 embryos. The ability to respond to this water-soluble fraction by exhibiting cartilage differentiation was dose-dependent, but not confined to any particular muscle region of the day-12 embryonic leg. These observations indicate that bone-derived soluble chondroinductive agents act on cells in minced embryonic muscle preparations. The induction of cartilage is dependent upon the accessibility of the responding cells to the agents, on the concentration of inductive agents, and on the developmental age of the responsive tissue.     

Receptor protein tyrosine phosphatase mu expression as a marker for endothelial cell heterogeneity; analysis of RPTPmu gene expression using LacZ knock-in mice

The receptor-like protein tyrosine phosphatase mu (RPTPmu) belongs to the subfamily of meprin, A5, RPTPmu (MAM) domain-containing RPTPs, which are thought to play an important role in cell-cell adhesion mediated processes. The current study was designed to examine the expression pattern of RPTPmu in mice. We have generated RPTPmu-LacZ knock-in mice that express the beta-galactosidase (LacZ) reporter gene under the control of the RPTPmu promoter. LacZ expression patterns were analysed in embryos and adult mice by whole mount LacZ staining. Analysis of beta-galactosidase activity of heterozygous embryos and adult tissues revealed RPTPmu expression in endothelial cells of arteries and capillaries. In contrast, expression was virtually absent in endothelial cells of veins and in fenestrated endothelial cells in the adult liver and spleen. Moreover, RPTPmu expression was found in endothelial cells from the endocardium and the aorta in embryos, but not in adult mice. In addition to heterogeneous expression in endothelial cells, RPTPmu expression was found in cardiac muscle cells but not in skeletal muscle cells or smooth muscle cells. Expression was also found in Type II pneumonocytes in the lung alveoli and in Purkinje cells and other neurons in the brain. The specific expression of RPTPmu in arterial endothelial cells and in cardiac myocytes suggests that RPTPmu may play a role in the regulation of cardiovascular functions.     

Oracle, a novel PDZ-LIM domain protein expressed in heart and skeletal muscle

In order to identify novel genes enriched in adult heart, we performed a subtractive hybridization for genes expressed in mouse heart but not in skeletal muscle. We identified two alternative splicing variants of a novel PDZ-LIM domain protein, which we named Oracle. Both variants contain a PDZ domain at the amino-terminus and three LIM domains at the carboxy-terminus. Highest homology of Oracle was found with the human and rat enigma proteins in the PDZ domain (62 and 61%, respectively) and in the LIM domains (60 and 69%, respectively). By Northern hybridization analysis, we showed that expression is highest in adult mouse heart, low in skeletal muscle and undetectable in other adult mouse tissues. In situ hybridization in mouse embryos confirmed and extended these data by showing high expression of Oracle mRNA in atrial and ventricular myocardial cells from E8.5. From E9.5 low expression of Oracle mRNA was detectable in myotomes. These data suggest a role for Oracle in the early development and function of heart and skeletal muscle.     

Differentiation capabilities of human germ cell tumors

It is well known that human germ cell tumors are an excellent model to study not only differentiation capacity of tumor cells but also human normal somatic cell differentiation. A variety of polyclonal and monoclonal antibodies were developed against cell surface antigens of murine embryos and teratocarcinomas. Accumulated data has revealed that these antigens are sequentially expressed on embryonic cells in a well-programmed manner. They have also been shown to be useful markers to investigate somatic cell differentiation in fetal and adult tissue. In humans, however, little is known about the cellular differentiation mechanism in early embryos and whether they could be studied, i.e. whether they occur in human germ cell tumors. In present review, we discussed newly established monoclonal antibodies which were raised from human embryonal carcinoma cells. We have been studying differentiation capacity of human germ cell tumor cells by using these antibodies. Some of these antibodies clearly indicates their usefulness to specify the developmental stage of normal tissue.     

Organization and differentiation of the body-wall musculature in Macrostomum (Turbellaria,Macrostomidae)

We studied the body-wall musculature, its ECM (extracellular matrix), and the junctional complexes between muscle cells and between muscle cells and ECM in Macrostomum hystricinum marinum Rieger, 1977, using Nomarski-contrast and electron microscopy. Differentiation of these body-wall components was followed by monitoring embryonic stages at 52%, 64%, and 82% of the time between egg-laying and hatching and with study of the hatchling and adult stages. For comparison, the body-wall musculature of other macrostomidans has been examined in conventional light-histological sections.Muscles form a grid of longitudinally, diagonally, and circularly oriented fibers beneath the epidermis in M. hystricinum marinum and this orientation of cells can be found already in embryos at 64% development. Younger embryos at 52% development show no muscle differentiation. The ECM forms a net-like arrangement that apparently envelops the individual muscle cells. Characteristic knob-like thickenings of the ECM occur at the base of the epidermis. Muscle cells attach to each other, to the epidermis, and to other cell types through hemidesmosome-like junctions at thickenings of the ECM in the adult and hatchling stages; no true desmosomes exist between muscle cells. Gap junctions occur commonly between longitudinal muscles of adult specimens and between perikarya of muscle cells in embryos at 64% and 82% development.More comparative studies are needed to determine the systematic value of presence or absence of the diagonal muscle fibers in the body wall of turbellarians.     

Development of 7--11-week-old human embryonic gonads in organ culture]

The author suggests a simplified method of organic culture of the human gonads. Gonads (160) from 7--11-week embryos were cultivated on millipore filters in penicillin bottles. During the first week of cultivation the central necroses were observed both in the male and the female gonads, but later they disappeared in some of the explants. In the ovaries from the 9--11-week embryos the germ cells underwent development which continued to the pachytene stage, while in the ovaries from the 7--9-week embryos the development of the germ cells failed to reach the leptotene stage. In the case of testis germ cells they remained at the stage of spermatogonia.     

Developmental changes of nitric oxide-sensitive guanylyl cyclase expression in pulmonary arteries

Inhaled nitric oxide (NO) is known to influence the contractile state of pulmonary arteries most likely by activation of soluble guanylyl cyclase (sGC) in smooth muscle cells. However, the cellular distribution of sGC has not been determined empirically, due to a lack of specific antibodies. Here, we describe a novel antibody directed against the beta1 subunit of sGC to study the cellular distribution of sGC in lung during development. Using the novel antibody, the enzyme was demonstrated in fetal, neonatal, and adult lungs by Western blot, showing maximum expression in neonatal lung. These data were confirmed by measurements of sGC activity. In pulmonary arteries of fetal lung sGC-beta1 immunoreactivity was present in smooth muscle cells and absent in endothelial cells. With postnatal development an increase in immunoreactivity in endothelial cells and a reciprocal decrease in smooth muscle cells was apparent. The reported changes in sGC expression likely contribute to the known age-dependent differences in response to inhaled NO.     

Electrical activity of cultured cells of the guinea pig heart. Comparison with the rat]

For the first time, action potentials were recorded with the use of microelectrodes from myocardial cells beating spontaneously which were obtained by trypsination of guinea-pig embryonic hearts. 4-5 weeks old embryos have been found most suitable for such experiments. The development of cultures and the recordings obtained were compared to those observed in rat hearts under the same experimental conditions. These results showed that inspite of the known physiological differences between adult rat hearts and adult guinea-pig hearts, the cardiomyoblasts cultured under the same conditions possess common features relating to the repolarization phase of action potential, specially a lack of the plateau.