The cholinergic reaction of the amnion in the chick embryo

Studies have been made of the spontaneous contractions of the amnion and acetylcholine sensitivity of amniotic membrane in 8--14-day chick embryos. In 12--14-day embryos, the spontaneous rhythmic contractions were rather rare as compared to those in 8--9-day ones, their frequency being also lower. On the basis of kinetic analysis, it was concluded that both the dissociation constant (K) and the value of Pmax do not exhibit significant changes for tonotropic reaction from the 8th to the 14th day and for chronotropic reaction--from the 8th to the 10th day of incubation. After the 10th day of incubation, dose-effect chronotropic reaction not expressed. The spontaneous activity of the amnion and acetylcholine sensitivity of the amniotic membrane depend on the temperature being maximal at 38 degrees C. Possible regulatory mechanisms of contractile activity in chick amnion are discussed.     

Expression of Neuronal Specificities in "Transdifferentiating" Cultures of Neural Retina

Cells dissociated from the neural retina of embryonic chick differentiate into lens and pigment cells, when cultured in vitro. Using 3.5-day-old and 8.5-day-old chick embryos, we examined whether neuronal specificities would be expressed in such transdifferentiating cultures of neural retinal cells. The synthesis of acetylcholine and γ-aminobutyric acid (GABA) and the activity of choline acetyl transferase (CAT) was searched for in these cultures. The synthesis of an appreciable amount of these two putative neurotransmitters was detected in cultures of 3.5-day-old embryonic retinas by about 15 days. The activity of CAT was maximum in 7-day cultures of the 3.5-day-old materials and in 2-day cultures of the 8.5-day-old materials, and then decreased. Concomitant with the decrease of CAT-activity, δ-crystallin became detectable and increased thereafter. CAT-activity changed in parallel with the increase in the number of small neuroblast-like cells in cultures. The results demonstrate that the neuronal specificity identified by the appearance of acetylcholine and GABA and of the enzyme for the synthesis of acetylcholine is expressed in the early period of transdifferentiating cultures, which would later differentiate into lens and pigment cells. The possible mechanisms of the transition from neuronal to non-neuroretinal specificities of the transdifferentiating cultures are discussed.     

Sensitivity of embryonic spontaneous motility to the GABA agonists baclofen and muscimol

The development of the sensitivity of spontaneous motor activity to the GABA agonists baclofen (10 mg/kg egg weight, systemic administration) and muscimol (0.8 mg/kg e.w., systemic administration) was tested in 11-day to 19-day-old chick embryos. 1) Baclofen already significantly depressed the frequency of spontaneous movements in 11-day embryos; its effect attained the maximum (85% depression of spontaneous motility) in 13-day embryos. After the 15th day of incubation, it reduced spontaneous motor activity by 50-60%. In spinal embryos, baclofen had the same, but a quantitatively more pronounced effect, demonstrated from its direct action on the spinal cord uninfluenced by supraspinal modulation, which began to be manifested after the 15th day of incubation. 2) Muscimol did not begin to inhibit spontaneous motility significantly until the 13th day of incubation. Subsequently, the latent period of its effect shortened, its duration lengthened and, lastly, its quantitative result also increased. 3) A comparison of the effect of GABA (Sedlácek 1978), muscimol and baclofen in 17-day chick embryos showed that the depressive effect increased in the sequence baclofen less than GABA less than muscimol, but that GABA took effect faster than the others. The results testify that the maturation of the individual elements of the GABA-ergic central inhibition system is a complex process.     

Ontogenesis of physiological responsiveness and guanine nucleotide sensitivity of cardiac muscarinic receptors during chick embryonic development

Atria isolated from 4-day chick embryos were much less responsive to the negative chronotropic effect of muscarinic agonists than were atria from 5- or 8-day embryos, even though the density of muscarinic acetylcholine receptors (mAChR) was similar at all these ages. The mAChR in hearts from 4-day embryos were also significantly less susceptible to regulation of receptor number by in vivo agonist treatment and required a 2-5-fold greater dose of the muscarinic agonist carbachol to achieve a decrease in receptor number equivalent to that observed in 5- or 8-day embryonic hearts. When 4-day atrial membranes were assayed in physiological buffers, agonist binding to the mAChR was not regulated by GTP unless a sulfhydryl reducing agent was present. Receptors from 5- and 8-day embryos did not require addition of a sulfhydryl reducing agent in order to see guanine nucleotide effects on agonist binding. Even in the presence of a sulfhydryl reducing agent, carbachol binding to the mAChR in 4-day membranes was much less sensitive to guanyl-5'-yl imidodiphosphate (GppNHp) than binding to mAChR in 5- or 8-day membranes. In addition, forskolin-activated adenylate cyclase activity was much less sensitive to inhibition by GppNHp in membranes from 4-day atria than from 5- and 8-day atria. The GTP-binding component (NI) which couples the mAChR to inhibition of adenylate cyclase activity was examined by covalent modification with pertussis toxin.(ABSTRACT TRUNCATED AT 250 WORDS)     

Appearance of acetylcholine receptors in cultured myoblasts prior to fusion

The development of the acetycholine receptors in chick embryo myoblasts from 11-day old embryos was studied in vitro. Using the purified α-bungarotoxin labeled with radioactive iodide, a high concentration of acetylcholine receptors was found in the prefusing myoblasts; most of these receptors were located in the interior of the myoblasts. However, upon the completion of myoblast fusion, the majority of the acetylcholine receptors appeared on the external cell surface of the myotubes.     

Immunologic detection of retina cognin on the surface of embryonic cells

The retina cell-aggregating glycoprotein, referred to as the retina cognin, has been demonstrated to be located at the surface of embryonic neural retina cells. The term cognin is used to indicate its postulated role in the mechanism of mutual recognition and morphogenetic association of embryonic cells. Antiserum was prepared to the highly purified retina cognin derived from isolated cell membranes of chick embryo retina, and it was used to detect the cognin on cells from chick embryos by means of complement-mediated cell lysis. Retina cells (from 10-day embryos) freshly dissociated with trypsin showed little—if any—lysis by the cognin antiserum; this is consistent with the sensitivity of the cognin to trypsin. However, the cells became susceptible to immunolysis after a period of incubation at 37 °C, which indicates regeneration of the cognin at the cell surface during the recovery period. This regeneration required protein synthesis. Immunofluorescence tests showed binding of the antiserum to the surface of the recovered cells, thereby further demonstrating the surface location of the cognin. The presence, availability or ability to regenerate the cognin, as assayed here, declined sharply with the embryonic age of the cells. Addition of exogenous cognin to freshly trypsin-dissociated retina cells (from 10-day embryos) markedly increased their susceptibility to immunolysis by the cognin antiserum, which indicates that the added cognin becomes associated with the surface of these cells. In contrast, addition of retina cognin to cells freshly trypsinized from 10-day embryo optic tectum and cerebrum, or from 14-day retina did not increase their susceptibility to immunolysis by the cognin antiserum. These results are consistent with earlier findings that enhancement of cell aggregation by the retina cognin is tissue-specific and stage-specific. Cells from non-neural tissues of the chick embryo were not lysed by the retina cognin antiserum. However, neural tissues, such as optic tectum, were found to contain cells which showed surface cross-reaction with the retina cognin antiserum.     

Identification of components of phospholipids metabolism in automated phosphate ester chromatography.

Transport accross the cell membrane of 3-O-methylglucose, a non-phosphorylatable glucose analogue, was measured in primary cultures of fibroblasts from 8-, 12- and 16-day chick embryos. Transport of this hexose was found to be 3.5 times and 2 times faster in fibroblasts from 16-day embryos than in fibroblasts from 8- and 12-day embryos, respectively. Compared with 8- and 12-day embryos, the rate of efflux in fibroblasts from 16-day embryos was found to be increased. 3-O-methylglucose transport in these cells did not result in an accumulation of the hexose against a concentration gradient. It was concluded that in fibroblasts from older embryos a facilitated diffusion system for hexose transport was stimulated. Embryo differentiation could be associated with a change in the plasma membrane by increasing either the number or the mobility of the glucose carriers, since the Vmax of the transport system for 3-O-methylglucose increased in fibroblasts from older embryos, while the affinity or Km of the system remained unchanged.     

The inotropic action of adrenergic agonists on the heart ventricles of the chick embryo]

The effects of adrenergic drugs on the twitch tension of the electrically driven (1.2-1.5 Hz) ventricular preparations from 2-20-day old chick embryos and hatched chicks were studied. Agonists evoked positive inotropic responses of 3-day embryonic ventricles and of ventricles from older animals. 2-day embryonic ventricles were unresponsive. 5-day embryonic ventricles were most sensitive to agonists (EC50 value of adrenaline = 4.5 x 10(-9) M), while ventricles from 14-20-day old embryos had a minimal sensitivity (1-2 x 10(-9) M), while ventricles from 14-20-day old embryos had a minimal sensitivity (1-2 x 10(-7) M). The order of agonists activity (isoproterenol greater than noradrenaline greater than adrenaline much greater than phenylephrine) and the high potency of propranolol as antagonist of adrenaline indicate that responses are mediated with beta-adrenoceptors. The role of GTP-binding protein for the regulation of adrenoreactivity in embryonic chick heart during ontogenesis is discussed.     

Calcium regulation in the embryonic chick. II. Ultrastructure of the parathyroid glands in shell-less and in ovo embryos

The ultrastructure of the parathyroid glands was studied in chick embryos developing normally in ovo or in shell-less culture (after removal of the eggshell). Shell-less chick embryos are significantly hypocalcemic relative to their in ovo counterparts. At 12 days of incubation, the parathyroid glands of shell-less embryos contain more lipid and show evidence of increased protein synthetic activity relative to those grown in ovo (more rough endoplasmic reticulum, presence of some dense secretory granules). The glands from in ovo embryos do not contain secretory granules at this age. At 15 days of incubation, the in ovo glands have developed signs of protein synthetic activity similar to those of the 12-day shell-less embryos. However, the parathyroids of the 15-day shell-less embryos appear strikingly more active than at 12 days, containing stacks of concentric RER membranes and increased numbers of secretory granules. By 18 days of incubation, the ultrastructure of the glands of the two groups is indistinguishable, both appearing to be more active than the 15-day shell-less group. Thus, protein synthetic activity of the parathyroid glands, as detected by ultrastructural alterations of the chief cells, normally appears to be initiated during the latter part of embryogenesis (by approximately 15 days incubation) and its onset can be stimulated at least 3 days prematurely by hypocalcemia.     

Acetylcholine receptors on chick mononucleated muscle precursor cells

Most mononucleated muscle precursor cells in 11-day embryonic chick pectoral muscles possess acetylcholine receptors. Cells dissociated without the use of proteolytic enzymes were exposed to ¹²⁵I-labeled α-bungarotoxin and specific binding was determined by a filter assay and by autoradiography. Prior incubation with proteolytic enzymes removed nearly all of the specific toxin binding sites. There was a wide range in receptor number per cell within the population of 11-day cells. Cells dissociated from 7- to 8-day embryos bind less toxin than 11-day cells. This reflects a decrease in receptor number per cell rather than a decrease in the percentage of labeled cells. Reasons why acetylcholine receptors have not been detected on the majority of muscle precursor cells in previous studies are offered and it is suggested that the appearance of receptors may be an early sign of commitment to a myogenic lineage.     

Bicuculline activation of embryonic spontaneous motility

The activating effect of bicuculline on spontaneous central motor output activity was studied in chick embryos from the 11th to the 19th day of incubation by means of spontaneous motility. When applied onto the embryonic membranes, bicuculline [1 mg X kg-1 egg weight] significantly activated embryonic motility from the 15th day of incubation. In 15-day embryos it increased spontaneous motility 2.5-fold and in 17- and 19-day embryos 3.5-fold. The role of supraspinal factors in the activating effect of bicuculline increased with development. In 15-day embryos it accounted for 56.7% and in 17-day embryos for already 84.6% of the total effect of bicuculline. Antagonism was manifested between bicuculline and the inhibitory amino acids glycine and GABA; in the case of GABA it was quantitatively more pronounced. The results of this study of development of the activating effect of bicuculline and its antagonism with gamma-aminobutyric acid are evaluated from the aspect of the connecting-up and development of central GABA-ergic components in the regulation of embryonic motility.     

Hypothalamo-hypophyseal correlates in the chick embryo: thyrotropic activity of adenohypophyseal grafts from donor embryos of various ages. Effect or pretreatment with TRH

Adenohypophyses from 10 to 18-day-old chick embryonic donors grafted in 3 days chick embryos, thus disconnected from the hypothalamus, had a partially autonomous thyrotrophic activity. However this functional autonomy was greater in grafts from donors aged 10 or 11 days than from older embryos or from 11-day donors pretreated with T.R.H. before grafting. This strongly suggests that hypothalamo-adenohypophysis-thyroidal relationship establish normally between 11 and 12 days of embryonic life.     

Origin of the iris sphincter muscle in chick embryo

The origin of the iridial sphincter muscle in chick embryo was investigated by means of immunohistochemistry. Desmin immunoreactive cells are shown in the mesenchymal stroma overlying the anterior epithelial layer of the iris in 4 1/2-day chick embryos. In 9-11-day chick embryos also some cells of the posterior epithelium near the pupillary margin, and of the iridial lamella show a slighter desmin-immunoreactivity. This finding agrees with a double origin of the iridial sphincter muscle: an early mesenchymal one and a later epithelial other.     

Appearance of brush-border antigens and sucrase in the allantoic endoderm cultured in recombination with digestive-tract mesenchymes

Summary Allantoic endoderm of 3.5-day chick embryos was cultured in recombination with digestive-tract mesenchymes of 6-day chick embryos, and the differentiation of the endoderm was studied, with special attention being given to the appearance of brush-border (BB) antigens and sucrase. Irrespective of the origin of the associated digestive-tract mesenchymes, the allantoic endoderm differentiated into a columnar epithelium, expressing BB antigens and sucrase, and also into a BB antigen-negative pseudostratified or stratified epithelium of cuboidal or columnar cells with PAS or alcian blue staining in the apical portion or a BB antigen-negative stratified squamous epithelium. These results suggest that 3.5-day allantoic endoderm has the potency to differentiate into intestinal and cloacal epithelium.     

The possibility of lens formation in explants of the retina and pigment epithelium of the eye in chick embryos

Undissociated tissue explants of the retina and retinal pigment epithelium (RPE) of 3,5-, 4-, 5- and 8-day-old chick embryos were cultured in vitro. After 7 days in culture, lentoids were observed in explants of either retina or RPE from 3,5-, 4- and 5-day-old embryos. As demonstrated by immunohistochemistry, these lentoids contained specific chick lens proteins (alpha-, beta- and delta-crystallins). No crystallin-containing cells were found in eye tissue explants from 8-day-old embryos. However, when 5-bromo-deoxyuridine (25 microM) was introduced into the medium at the beginning of culturing (for 12 h), large eosinophilic cells containing alpha-, beta- and delta-crystallins were detected in retinal explants of the 8-day old embryos. Thus, retina and RPE of 3,5-5-day-old chick embryos are capable of lens differentiation after explantation in vitro without dissociation into individual cells. This capacity is lost during development.     

Innervation and acetylcholine sensitivity of skeletal muscle cells differentiated in vitro from chick embryo

Trypsin-dissociated myoblasts from leg muscle of 12-day chick embryos have been cultured in monolayers. After four days the muscle cultures have been confronted with fragments of the spinal cord of six-day chick embryos. Electrophysiological and morphological analysis demonstrate that characteristic neuromuscular transmission can develop in these cultures. Electrical stimulation of the cord fragment evokes contractions of innervated muscle fibers, from which end plate potentials and miniature end plate potentials with average frequency around one per second or more can be recorded. D-tubocurarine (1 μg/ml) suppresses reversibly these synaptic potentials. Non-innervated muscle fibers are sensitive to acetylcholine over all their surface, while innervated muscle fibers are sensitive at the regions where structures suggestive of motor end plate (“bulb-type”) are found. We can conclude that neuromuscular connections developed in vitro in our experiments are functional in respect of transmission of impulses but also in respect of neurotrophic influences for restriction of chemosensitivity.     

Inaccessibility of certain Ricinus lectin binding sites due to the increase in hyaluronic acid during chick embryo development

Abstract. Chick embryo fibre-blasts constitute a useful model for investigating cell surface differentiation using Ricinus lectin as a marker. Fibroblasts from 8-day chick embryos had two classes of Ricinus lectin binding sites, whereas those from 16-day embryos displayed only one class. Hyaluronidase treatment of fibroblasts from 8-day embryos had no effect on their capacity to bind Ricinus lectin;.however after this treatment, 16-day cells resembled 8-day cells since the former also exhibited two classes of lectin-binding sites. Treatment with hyaluronidase released 2–5 times more hyaluronic acid from the older cells than from the younger cells. The same hyaluronidase treatment did not change the number of 8-day cells detached by trypsin from the substrate, but increased the number of detached 16-day cells.
These observations suggest (i) that the greater adhesiveness to the substrate of the 16-day cells might be due to the presence on the cell surface of a larger amount of glycosaminoglycans at 16 days than at 8 days, and (ii) that the increased accumulation of hyaluronic acid on the cell surface might be involved in an alteration in the cell membrane during differentiation.     

Inaccessibility of certain Ricinus lectin binding sites due to the increase in hyaluronic acid during chick embryo development

Chick embryo fibroblasts constitute a useful model for investigating cell surface differentiation using Ricinus lectin as a marker. Fibroblasts from 8-day chick embryos had two classes of Ricinus lectin binding sites, whereas those from 16-day embryos displayed only one class. Hyaluronidase treatment of fibroblasts from 8-day embryos had no effect on their capacity to bind Ricinus lectin; however after this treatment, 16-day cells resembled 8-day cells since the former also exhibited two classes of lectin-binding sites. Treatment with hyaluronidase released 2-5 times more hyaluronic acid from the older cells than from the younger cells. The same hyaluronidase treatment did not change the number of 8-day cells detached by trypsin from the substrate, but increased the number of detached 16-day cells. These observations suggest (i) that the greater adhesiveness to the substrate of the 16-day cells might be due to the presence on the cell surface of a larger amount of glycosaminoglycans at 16 days than at 8 days, and (ii) that the increased accumulation of hyaluronic acid on the cell surface might be involved in an alteration in the cell membrane during differentiation.     

The sensitivity of a number of cell cultures to different strains of Rickettsia prowazekii

The sensitivity of some cell cultures to different R. prowazekii strains (strain E with low pathogenicity, virulent strain Breinl, strains ERifRI and EVir) has been studied with a view to the selection of an adequate culture for growing these strains and the study of their biological properties. Experiments on titration in cells have revealed that 6- to 7-day primary and secondary irradiated quail fibroblasts and human amnion cells FL show the maximum sensitivity to all strains under study, comparable to that of chick embryos. The sensitivity of 6- to 7-day primary and secondary irradiated chick fibroblasts is faintly pronounced, and 24-hour chick and quail fibroblasts are still less sensitive. Cells FL have shown high sensitivity to strain E and mutant ERifRI in prolonged subculturing for 140 and 63 days (the term of observation) respectively after a single inoculation.