The development of cystic embryoid bodies in vitro from clonal teratocarcinoma stem cells

Previous findings on exogenous RNA-induced heart muscle differentiation in the non-heartforming cultured explants of the chick blastoderm, the postnodal pieces, were reexamined. Some of the changes that characterized the transition in the host tissues were: (i) the formation of highly ordered myofibrils; (ii) the appearance of characteristic cytoplasmic glycogen particles; (iii) a 2.5- and 3.5-fold increase in actin and myosin-like polypetides respectively; (iv) an increase in acetylcholinesterase activity; and (v) the acquisition of spontaneous and rhythmic pulsations. These specific changes appeared only in those explants that received a poly(A)-containing RNA fraction obtained from the 16-day-old chick embryonic heart. Neither synthetic polynucleotides nor a variety of RNA from several sources could replace the RNA from chick embryonic heart as an inducer of heart muscle differentiation.     

Polyribosome formation and poly(A)-containing RNA in embryos of the sand dollar,Dendraster excentricus

Summary The pattern of appearance of ribosomes, newly synthesized mRNA, and poly(A)-containing mRNA in polyribosomes has been examined in sand dollar embryos. From early blastula until shortly before hatching small polyribosomes engaged in histone synthesis predominate. At the time of hatching, when the rate of cell increase is maximal, the proportion of poly(A)-containing RNA in polyribosomes is low. After hatching a new class of large polyribosomes appears and the amount of poly(A)-containing polyribosomal RNA increases. Cordycepin, an inhibitor of RNA adenylylation, prevents the appearance of the large polyribosomes after hatching as well as the increase in poly(A)-containing polyribosomal RNA.     

Acetylcholine and Dopamine Promote the Production of Platelet Activating Factor in Immature Cells of Chick Embryonic Retina

We have previously shown that platelet-activating factor (PAF), a naturally occurring lipid mediator of cell-to-cell communication, was produced by 3-day-old chick retina stimulated with acetylcholine (ACh) and dopamine (DA), but not with other neurotransmitters. ACh and DA stimulated PAF synthesis via a dithiothreitol (DTT)-insensitive cholinephosphotransferase, without affecting the acetyltransferase pathway, which was stimulated only by the calcium ionophore A23187. Therefore, we attempted to study the effects of neurotransmitters on PAF production and on the activities of the DTT-insensitive cholinephosphotransferase and acetyltransferase in the developing chick embryo retina up to hatching. Our results show that PAF was produced already at 8 days of development, when retinal cells are still rather immature and ganglion and Mueller cells are the only differentiated cells. The stimulation of PAF production occurred with ACh and not with other neurotransmitters. In older stages, DA also stimulated PAF production, as already described in the chick after hatching. DTT-insensitive cholinephosphotransferase and acetyltransferase activities were present in 8-day-old embryos, the earliest stage analyzed. Both enzymatic activities increased with age; DTT-insensitive cholinephosphotransferase increased rapidly from day 12 up to day 18, whereas acetyltransferase activity increased linearly up to the time of hatching. To promote PAF production, ACh and DA activate DTT-insensitive cholinephosphotransferase, but not acetyltransferase.(ABSTRACT TRUNCATED AT 250 WORDS)     

Quantitation of vitellogenin messenger RNA in the liver of male xenopus toads during primary and secondary stimulation by estrogen

From livers of estrogen-stimulated female Xenopus toads, large quantities of estrogen-induced, poly(A)-containing RNA could be isolated, showing the same characteristics as vitellogenin mRNA obtained from hormone-treated males.Using cDNA hybridization, vitellogenin mRNA was monitored in the cytoplasmic poly(A)-containing RNA of the liver of male toads during 13 days of primary and the initial phase of secondary stimulation with estrogen.During primary stimulation, low amounts of vitellogenin mRNA, not exceeding 0.18% of the cytoplasmic poly(A)-containing RNA, were first detected after 12 hr of hormone treatment, and vitellogenin mRNA was found to increase on the average to 34% of the cytoplasmic poly(A)-containing RNA on the seventh day of hormone treatment. After 3 days of primary stimulation, accumulation of vitellogenin mRNA leveled off, showing no significant increase in the cytoplasm up to 13 days of hormone treatment. As judged from incorporation of ³²PO₄ into blood plasma proteins of males during primary stimulation, vitellogenin was first detected after 1 day, and its synthesis was found to increase dramatically until the thirteenth day of hormone treatment. This implies that there is a coincidence between appearance and extent of synthesis of vitellogenin and the abundance of vitellogenin mRNA in the cytoplasm, but there is evidence that during later phase of primary stimulation (day 3–13), the increase in synthesis of vitellogenin cannot be attributed anymore to a significant accumulation of vitellogenin mRNA.In male Xenopus, estrogen-induced synthesis of vitellogenin is no more detectable 41 days after hormone injection, and the concentration of vitellogenin mRNA was found to be <0.03% of the cytoplasmic poly(A)-containing RNA. Secondary stimulation by estrogen of these animals results in an at least 30 fold faster accumulation of vitellogenin mRNA in the cytoplasm within the initial 12 hr of hormone treatment. This may explain the faster appearance of vitellogenin in the blood plasma.     

Polyadenylic acid-containing of rna in unfertilized and fertilized eggs of the rabbit.

Molecular hybridization between ³H-polyuridylic acid and unlabeled RNA prepared from unfertilized rabbit eggs and 10-h postfertilization stage rabbit embryos has been used to measure the amount and subcellular localization of adenylated maternal RNA. The results reported indicate that there is poly (A)-containing RNA (putative messenger RNA) in unfertilized rabbit eggs. The amount of poly (A) in the RNA in rabbit eggs does not increase immediately after fertilization and is located primarily in the ribosomal fraction of the cell. The rate of protein synthesis in fertilized eggs is insensitive to α-amanitin at concentrations which inhibit RNA synthesis. These results suggest that maternal mRNA makes an important contribution to protein synthesis in early stages of cleavage in the rabbit embryo.     

Pyruvate kinase isozymic shifts of differentiating chick myogenic cells in vivo and in culture.

Developing chick skeletal muscle undergoes an isozymic shift from type K pyruvate kinase to type M during development. A major increase in pyruvate kinase activity follows the isozymic shift, resulting in at least 40-fold higher specific activities by adulthood. Similar isozymic changes occur in primary cultures of myogenic cells from 12-day-old chick embryos. Cultures initially contain only type K pyruvate kinase. Type M appears by the fourth day of culture and accounts for 80–90% of the activity by the eleventh day. Type M did not accumulate when cell fusion was prevented by removing Ca²⁺ from the growth medium or when protein synthesis was inhibited by cycloheximide.     

Effects of partial decerebration and hypophyseal allograft in the thymus of chicken embryos: thymostimulin localization and enzymatic activities

Changes in chicken embryo thymus after partial decerebration (including the hypophysis) and hypophyseal allograft were investigated. Chicken embryos were partially decerebrated at 36-40 hr of incubation and on day 12 received a hypophyseal allograft from 18-day-old donor embryos. The embryonic thymuses were collected on day 18 and examined with histological methods, tested for the anti-thymostimulin-like immune-reaction, and for histoenzymatic activities and compared with normal and sham-operated embryos at the same age. After partial decerebration, the thymic cortical and medullary compartments diminished markedly in size. Anti-thymostimulin, succinic dehydrogenase and ATPase enzymatic activities tested, yielded negative reactions. In partially decerebrated hypophyseal allografted embryos, the same thymic compartments improved and anti-thymostimulin-like immune-reaction and enzymatic activities partially recovered. These findings confirmed the key role of hypophysis in thymic ontogenic development and provided new information in metabolic enzymatic pathways and synthesis of a thymostimulin-like substance in the thymus.     

Modifications in energy metabolism during the development of chick glial cells and neurons in culture

Developmental changes in lactate dehydrogenase (LDH), enolase, hexokinase (HK), malate dehydrogenase (MDH), and glutamate dehydrogenase (GDH) activities were measured in cultures of pure neurons and glial cells prepared from brains of chick embryos (8 day-old for neurons, 14 day-old for glial cells) as a function of cellular development with time in culture. The modifications observed in culture were compared to those measured in brain extracts during the development of the nervous tissue in the chick embryo and during the post-hatching period. A significant increase of MDH, GDH, LDH, and enolase activities are observed in neurons between 3 and 6 days of culture, whereas simultaneously a decrease of HK values occurs. In the embryonic brain between 11 and 14 days of incubation, which would correspond for the neuronal cultures to day 3 through 6, modifications of MDH, GDH, HK, and enolase levels are similar to those observed in neurons in culture. Only the increase of LDH activity is less pronounced in vivo than in cultivated cells. The evolution of the tested enzymatic activities in the brain of the chick during the period between 7 days before and 10 days after hatching is quite similar to that observed in cultivated glial cells (prepared from 14 day-old embryos) between 6 and 18 days of culture. All tested activities increased in comparable proportions. The modifications of the enzymatic profile indicate that some maturation phenomena affecting energy metabolism of neuronal and glial elements in culture, are quite similar to those occuring in the total nervous tissue. A relationship between the development of the energy metabolism of the brain and differentiation processes affecting neuroblasts and the glial-forming cells is discussed.     

Distribution of developmentally regulated hemoglobins in embryonic erythroid populations.

Both cellular and molecular mechanisms regulate the expression of globin genes during development and differentiation.When a change occurs in the type of hemoglobin synthesized, it may be the result of a substitution of erythroid stem cell lineages or may arise through a modulation of globin gene expression after cells become committed to erythroid differentiation. We have investigated the relationship between the early to late embryonic hemoglobin switch and the primary to definitive erythrocyte change in chick embryos. Using double-label fluorescent antibody technique, we find the simultaneous presence of early and late hemoglobins in single erythrocytes of the definitive cell type. Synthesis of early embryonic hemoglobin is not restricted to the primary cell lineage. This evidence is most compatible with the hypothesis that erythroid cells become committed to the synthesis of specific globins after they have become committed to hemoglobin synthesis in general.     

Synthesis of poly(A)-containing RNA in outgrowing spores of Bacillus subtilis

The synthesis of poly(A)-containing RNA in outgrowing spores of Bacillus subtilis was studied. A significant amount of RNA puls-labelled with 3H-uridine is polyadenylated. With the beginning of RNA synthesis in outgrowing spores labelled poly(A)-containing RNA was detected. The amount of poly(A)-RNA during the outgrowth and first cell division remains constant. Besides poly(A)-RNA the synthesis of tRNA and rRNA occurs. These results indicate a simultaneous activation of synthesis of tRNA, rRNA as well as of poly(A)-containing RNA during outgrowth of B. subtilis spores.     

Role of epithelial-mesenchymal interactions in the ontogenesis of intestinal brush-border enzymes

The respective roles of embryonic intestinal mesenchyme and endoderm in the biochemical differentiation of brushborder enzymes have been investigated. As a first step of this study, the prenatal developmental pattern of several enzymes (maltase, sucrase, lactase, alkaline phosphatase), measured in brush-border membranes purified from chick and rat intestine, has been established. Xenoplastic recombinations between the intestinal tissue components of $\text{5-}\text{1}\text{2}\text{-}\text{day-old}$ chick embryos and 14-day-old fetal rats have been performed. After 11 days of intracoelomic graft in 3-day-old chick embryos, the combinations composed of chick mesenchyme and rat endoderm (Cm/Re) showed enzyme activities characteristic of the fetal rat intestine: high lactase activity and traces of sucrase activity. The inverse combinations composed of rat mesenchyme and chick endoderm (Rm/Ce) exhibited a chicken-like pattern: high sucrase activity and traces of lactase activity. In the latter combinations, the specific enzyme activities were similar to those present in the intestine of 15- to 16-day-old chick embryos (theoretical level reached after the grafting period). Conversely, the levels of enzyme activities of the Cm/Re combinations remained lower than those present in the normally developed rat intestine. These results show that the endodermal tissue carries the specific characteristics of its future biochemical differentiation. They also suggest that the important maturation events, which occur shortly before birth in the rat, are dependent upon other factors, presumably hormones.     

RNA polymerases during differentiation of avian erythrocytes

DNA-dependent RNA polymerase was analysed during the terminal differentiation stages of avian erythrocytes. It was found that the mature duck erythrocyte, although quiescent in RNA synthesis, contains clearly measurable quantities of RNA polymerase B (or II). Immature polychromatic erythrocytes, derived from anemic ducks and actively synthesizing hemoglobin mRNA, additionally contain significant amounts of RNA polymerase A (or I) and C (or III) previously not detected in these cells. These latter classes of enzymes, although present, are apparently not engaged in RNA synthesis in polychromatic erythrocytes.     

Gamma ray induced genetic changes in different organs of chick embryo using peripheral blood micronucleus test and comet assay

Ionizing radiation is known to produce a variety of cellular and sub cellular damage in both prokaryotic and eukaryotic cells. Present studies were undertaken to assess gamma ray induced DNA damage in different organs of the chick embryo using alkaline comet assay and peripheral blood micronucleus test. Further the suitability of chick embryo, as an alternative model for genotoxicity evaluation of environmental agents was assessed. Fertilized eggs of Rhode island red strain were exposed to 0.5, 1 and 2 Gy of gamma rays delivered at a dose rate of 0.316 Gy/min using a ⁶⁰Co teletherapy machine. Peripheral blood smears were prepared from 8- to 11-day-old chick embryos for micronucleus test. Alkaline comet assay was performed on 11-day-old chick embryos in different organs such as the heart, liver, lung, blood, bone marrow, brain and kidney.Analysis of the data revealed a significant increase in the frequency of micronucleated polychromatic erythrocytes, micronucleated normochromatic erythrocytes and total micronucleated erythrocytes in the peripheral blood of gamma irradiated chick embryos at all the doses tested as compared to the respective controls. The polychromatic to normochromatic erythrocytes ratio which is an indicator of proliferation rate of hematopoetic tissue, decreased in the irradiated groups as compared to the controls. Data obtained from comet assay, clearly demonstrated a significant increase in DNA strand breaks in all the organs of irradiated chick embryos as compared to the respective controls. However, maximum damage was observed in the heart tissue on all the doses tested, followed by kidney, brain, lung, blood and liver. The lowest damage was observed in the bone marrow tissue. Both micronucleus test and comet assay were found to be suitable biomarkers for the evaluation of genotoxicity of gamma radiation in the chick embryo.     

The size of poly(A)-containing RNAs in Drosophila melanogaster embryos

The size range of poly(A)-containing RNA from Drosophila melanogaster embryos has been estimated by hybridization with ³H-labeled poly(U) and subsequent fractionation on sucrose gradients. The median size of nuclear poly(A)-containing RNA is about 30 S (6000 nucleotides), and the median size of cytoplasmic poly(A)-containing RNA is about 17 S (1800 nucleotides). The relationship of these sizes to messenger RNA needed to code for protein and to the length of DNA contained in a chromomere is discussed.Research grant support was provided by NIH (6M35558; HD-00266) and NSF (GB-30600).     

Changes in RNA metabolism and accumulation of presumptive messenger RNA during transition from the growing to the quiescent state of cultured mouse fibroblasts.

Mouse fibroblasts maintained in tissue culture regulate total protein and ribosomal RNA synthesis co-ordinately with changes in the cellular growth state. Here we show that changes in the rate of synthesis of nuclear non-polyadenylic acid-containing RNA and the rate of accumulation and breakdown of cytoplasmic ribosomal RNA also accompany the transition from the resting to the growing cellular growth state, while the rate of synthesis of nuclear poly (A)-containing RNA and the rates of accumulation and breakdown of cytoplasmic poly(A) containing RNA (presumptive messenger RNA) are, however, only marginally changed. The small net increase (20% to 30%) in the amount of presumptive mRNA is considerably less than the observed increase in protein synthesis (two to threefold) during this transition. We also isolated and characterized extra-polysomal poly(A)-containing ribonucleoprotein particles from quiescent cultures that were similar to those particles obtained by treatment of polyribosomes with EDTA. These experiments suggest that the early increase in protein synthetic activity when quiescent, cultured cells are induced to grow is partially caused by an increased attachment of pre-existing mRNA molecules to free ribosomes.     

Developmental changes in collagen glycosyltransferase activities in chick embryos

The developmental pattern of collagen galactosyltransferase and collagen glucosyltransferase activities was determined in chick embryos between the 4th and 21st day of growth. Both enzyme activities increased up to the 16th day and decreased thereafter in whole chick embryos and in most tissues studied. The highest collagen glycosyltransferase activities were found in the leg tendons of the 16-day-old embryos, and the activities found in cartilage were higher than those noted in either skin or skull, indicating that the the activities of the collagen glycosyltransferases may play a part in the regulation of the carbohydrate content of the collagen synthesized by a given tissue. The changes observed in the collagen glycosyltransferase activities agree with previous data on the development of prolyl and lysyl hydroxylase activities and also with findings on collagen turnover in the developing chick embryo.     

Accumulation of polyadenylated mRNA during liver regeneration.

Cytoplasmic and polysomal polyadenylated mRNA [poly(A)+-mRNA] increased by 120% prior to the onset of DNA synthesis during the regeneration of rat liver following partial hepatectomy. Despite this large change in cytoplasmic mRNA and an approximately 50% increase in total nuclear RNA, the amount of polyadenylated nuclear RNA increased by only 15--20% during this time. Neither the average size of nuclear or of cytoplasmic polyadenylated mRNA nor the length of their poly(adenylic acid) [poly(A)] tracts changed during liver regeneration. Polysomal poly-(A)+-mRNA increased proportionately more and at a faster rate than rRNA during the first day following partial hepatectomy. Normal livers contained a substantial proportion of cytoplasmic poly(A)+-mRNA not associated with polysomes but this proportion was not altered in 3-h regenerating liver. Thus, in regenerating liver, most preexisting cytoplasmic mRNA does not appear to be recruited into polysomes prior to the substantial increase in the amount of cytoplasmic poly(A)+-mRNA.     

Axoplasmic transport of RNA containing a polyadenylic acid segment

The nature of the cytoplasmic RNA that appears to migrate along the optic path of the chick has been studied. A considerable proportion of retinally synthesized RNA contains a polyadenylic acid segment. A fraction of this presumptive messenger RNA moves distally to the optic tectum together with nonpolyadenylic acid-containing RNA. The poly(A)-containing and nonpoly(A)-containing RNA classes are transported in roughly the same proportions as their relative retinal cytoplasmic concentrations. The size of the poly(A) segments within the putative messenger RNA (mRNA) did not decrease with time. A proportion of nonmigrating mRNA in retina and optic tectum appeared to have considerable stability, as did transported mRNA.