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.     

Ultrastructure of muscle fibers and cells synthesizing DNA in lymph hearts of developing frogs and chick embryos

Summary The ultrastructure of striated muscle fibers and ³H-thymidine (³HTdr)-labeled cells adjacent to them in the lymph hearts of larvae of Rana temporaria, yearling frogs, and 9- to 13-day-old chick embryos was studied by use of electron-microscopic autoradiography. A comparatively high level of differentiation of lymph-heart muscle fibers was observed not only in yearling frogs but also in larvae. Myosatellites occurred at all stages of development. No mitoses were found in muscle fibers. In 9- to 13-day-old chick embryos the myofibers of lymph hearts were somewhat less differentiated than those of the larvae and yearling frogs. Differentiating sarcomeres were often seen in the sarcoplasm of myofibers of chick embryos. The analysis of the ultrastructure of ³HTdr-incorporating cells shows that 2–4 h after the single ³HTdr administration only mononucleated cells devoid of myofilaments are commonly labeled both in tadpoles and chick embryos. When fixation is postponed by 48–70 h, myonuclei frequently become labeled. Thus, the data obtained support the evidence that proliferation and differentiation processes in the developing muscle tissue of the lymph heart of both species studied are mutually exclusive, similar to the situation in differentiating vertebrate skeletal muscle.     

SENSITIVITY OF EARLY EMBRYONIC THYMIC LYMPHOID DEVELOPMENT TO 3H-THYMIDINE OF HIGH SPECIFIC ACTIVITY

The pulse technique, using high specific activity ³H-TdR to selectively kill cells in cell cycle, was applied to the thymic anlagen of chick embryos. With optimal specific and total ³H-TdR activities and pulse times of 2–4 hr the subsequent lymphoid development in organ culture of the thymic anlagen of 10-day-old chick embryos could be almost completely inhibited. The most important effect of the ³H-TdR was on the lymphoid precursor cells of the anlagen. The thymic epithelium appeared more resistant to ³H-TdR and allowed a lymphoid development of pulsed anlagen grafted to the chorioallantoic membrane of chick embryos when new lymphoid precursor cells were provided. The lymphoid precursor cells of the thymic anlagen of 10-day-old chick embryos therefore appeared to be in cell cycle with short generation time. The thymic anlagen of 8-, 9- and 10-day-old but not 7-day-old embryos showed a lymphoid development in organ culture. They did not differ with respect to the sensitivity to hot pulses of ³H-TdR. Thus no evidence of a lag in the onset of lymphoid precursor cell proliferation during the development of the early embryonic chick thymus was noted.     

Regulation of Cell Number in Formation of the Dorsal Root Ganglion Revealed by Transplantation of Quail Neural Crest Cells into Chick Embryos

Neural crest cells appear transiently in early embryogenesis on the dorsal surface of the neural tube and subsequently migrate along specific pathways. Some migrate to between the neural tube and somites, aggregating to form the rudiments of dorsal root ganglia (DRG). The size of DRG at a given somite level is almost constant in all chick embryos. To determine the mechanisms controlling the size of DRG, we transplanted neural crest cells of 2.5-day-old quail embryos into 2.5-day-old chick embryos between the neural tube and the somites, and examined the size of DRG in these chimeric embryos with extra neural crest cells 2 days after the operation, when natural cell death in DRG had not yet occurred. The DRG on the operated side were composed of both chick and quail cells in various proportions. The cell numbers of these chimeric DRG were almost the same as those of the normal DRG on the opposite side. That is, there were significantly fewer chick cells in chimeric DRG than in DRG composed of only chick cells on the opposite unoperated side. This finding indicates that the size of DRG is not determined in migrating neural crest cells but is regulated by the circumstances.     

Biosynthesis of prolyl hydroxylase: evidence for two separate dolichol-media pathways of glycosylation

Prolyl hydroxylase is a glycoprotein containing two nonidentical subunits, alpha and beta. The alpha subunit of prolyl hydroxylase isolated from 13-day-old chick embryos contains a single high mannose oligosaccharide having seven mannosyl residues. Two forms of alpha subunit have been shown to exist in enzyme purified from tendon cells of 17-day-old chick embryos, one of which (alpha) appears to be identical in molecular weight and carbohydrate content with the single alpha of enzyme from 13-day-old chick embryos, as well as another form (alpha') that contains two oligosaccharides, each containing eight mannosyl units [see Kedersha, N. L., Tkacz, J. S., & Berg, R. A. (1985) Biochemistry (preceding paper in this issue)]. Biosynthetic labeling studies were performed with chick tendon cells using [2-3H]mannose, [6-3H]glucosamine, [14C(U)]mannose, and [14C(U)]glucose. Analysis of the labeled products using polyacrylamide gel electrophoresis in sodium dodecyl sulfate showed that only the oligosaccharides on alpha' incorporated measurable mannose or glucosamine isotopes; however, both alpha subunits incorporated 14C amino acid mix and [14C(U)]glucose [metabolically converted to [14C(U)]mannose] under similar conditions. Pulse-chase labeling studies using 14C amino acid mix demonstrated that both glycosylated polypeptide chains alpha and alpha' were synthesized simultaneously and that no precursor product relationship between alpha and alpha' was apparent. In the presence of tunicamycin, neither alpha nor alpha' was detected; a single polypeptide of greater mobility appeared instead. Incubation of the cells with inhibitory concentrations of glucosamine partially depressed the glycosylation of alpha' but allowed the glycosylation of alpha.(ABSTRACT TRUNCATED AT 250 WORDS)     

Epithelial Invagination: Adhesive Properties of Cells Can Govern Position and Directionality of Epithelial Folding

The aim of the present study was to investigate the mesenchymal influence on cultured epithelioid cells originating from an already differentiated intestine. Epithelioid cell cultures of 6-day-old suckling rat intestine were established by sequential trypsinizations of the mucosa. Embryonic intestinal monolayers of quail cells (13 days) were used as control because of their natural cell marker. Six to thirty days after plating, both types of epithelioid cells were associated in heterospecific combination with 5½-day-old chick embryonic small intestinal mesenchyme, after removal of the endoderm by collagenase treatment. In order to test the differentiation capabilities of the associations, they were grafted for 10–12 days into 3-day-old chick embryos. The results show that in such an in vivo culture system, the chimeric associations gave rise to well differentiated intestinal structures indicating that the epithelioid cell cultures derived from late embryonic or neonatal intestine will go through organotypic differentiation when recombined with an appropriate mesenchyme.     

Site-finding and pairing of Echinostoma revolutum (Trematoda) on the chick chorioallantois

Site-finding of 14-day-old Echinostoma revolutum from the domestic chick was studied by inoculating single worms into various sites on the chorioallantoic membrane (CAM) of 13-day-old chick embryos. Regardless of the site of inoculation, single worms were attracted significantly to the area of the CAM above the embryo. More worms were found in this site at 24 than at 1 hr postinoculation. Worm-pairing was studied in chick embryos by inoculating 2 worms in separate windows, 2 cm apart. Worm-pairing, i.e., worms in contact or within 5 mm of each other, was very evident at 24 hr. The percentage of paired worms on the CAM above the embryo was considerably less than single worms.     

Development of the differential effect of oxazepam on spontaneous and activated motility in chick embryos

Development of the acute depressant effect of oxazepam (in a dose of 10 mg/kg egg weight) on spontaneous and activated motor activity was studied in chick embryos (incubation age 11-19 days). The depressant effect of oxazepam was demonstrated for the first time in 13-day-old embryos. From the 15th day of incubation it led to prolonged depression of embryonic motility. From the 15th day the depressant effect of oxazepam depended on the connections of the central motor output with the prosencephalon. In mesencephalic, rhombencephalic and spinal preparations the effect of oxazepam was insignificant. In 13- and 15-day-old embryos oxazepam blocked the activating effect of strychnine and pentylenetetrazol, but not the picrotoxin-induced activation. The picrotoxin activation of embryonic motility was incompletely blocked for the first time in 17-day-old and completely only in 19-day-old embryos. The results are discussed with reference to heterochronia of development of the various components in the complex GABA receptor.     

Germ line chimera produced by transfer of cultured chick primordial germ cells.

Intrinsic primordial germ cells (PGCs) from stage 27 (5-day-old) chick embryonic germinal ridges were cultured in vitro for a further 5 days, and shown to proliferate on stroma cells derived from the germinal ridge. To determine whether these cultured PGCs could colonize and contribute to the germ-line, PGCs were isolated by gentle pipetting, labeled with PKH26 fluorescent dye and injected into the blood stream of stage 17 (2.5-day-old) chick embryos. The recipient embryos were incubated until they reached stage 28. Thin sections of these embryos were analysed by fluorescent confocal laser microscopy. These analyses showed that the labeled donor PGCs had migrated into the germinal ridges of the recipient embryos, and transplanted PGCs had undergone at least 3-7 divisions. These results suggest that PGCs that had passed far beyond the migration stage in vivo were still able to migrate, colonize and proliferate in recipient chick embryonic gonads.     

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.     

Development of the interaction of GABA and oxazepam on spontaneous motility in chick embryos

The author studied the development of the interaction of GABA and oxazepam on embryonic spontaneous motility in chick embryos during the second half of incubation. In 13-day-old embryos the two substances already potentiated each other's action, despite the fact that GABA, by itself, did not yet have an inhibitory effect. In older embryos this potentiation increased until spontaneous motor activity was almost completely depressed.     

Propagation of Chandipura virus in chick embryos

Stocks of three Indian Chandipura virus (CHPV) isolates; one isolate from an adult febrile case in 1965 from Chandipura town, Maharashtra, and two isolates from two pediatric encephalitis cases from Andhra Pradesh, 2003 were inoculated in 10-day-old chick embryos by allantoic route. All three virus isolates replicated in chick embryos showing titre of log 10(12) to log 10(13) EID50. The results demonstrated that chick embryos are susceptible to CHPV and virus grows to high titres in this system. Therefore chick embryos can be used as an alternative host system for cultivation and isolation of CHPV as they are less expensive than laboratory animals and have several other advantages over cell cultures. Also this system can be used for the development of vaccine and diagnostic reagents.     

Relationships between terminal transferase expression, stem cell colonization, and thymic maturation in the avian embryo: studies in thymic chimeras resulting from homospecific and heterospecific grafts

Terminal deoxynucleotidyl transferase (TdT) can be detected in 11- to 12-day-old embryonic chick thymuses 5 to 6 days after the first influx of lymphoid stem cells into the thymic rudiment. To identify the main factors of TdT induction, grafting experiments were devised in such a way that the age of the grafted thymus and that of the host were different. Uncolonized embryonic chick thymuses were grafted into chick hosts of different ages. Under these conditions, lymphoid differentiation arose from host lymphoid stem cells (LSC) invading the thymic rudiment. TdT immunofluorescent detection in the first wave of thymocytes showed that the percentages of TdT+ cells were related to the total age of the explant and not to the age of the host (11 to 17 days). Similar results were obtained when the chick thymic rudiment was transplanted into quail embryos, showing that quail LSC have TdT inducibility similar to that of chick LSC while developing in a chick thymic environment. Colonized chick thymuses were also grafted into quail embryos to compare the TdT inducibility of the first lymphoid generation (of chick type) and of the second (of quail origin), taking advantage of the different chromatin structure of quail and chick cells. In these experiments, the majority of chick cells remained TdT negative for as long as 10 days, whereas most lymphocytes of the second generation became TdT+ soon after their arrival in the grafted thymus. Therefore, during embryonic life, most TdT+ cells were derived from the second wave of stem cells, but some early stem cells were also able to acquire the enzyme. In a final series of experiments, early thymic rudiments were cultured in vitro with 14- to 16-day-old bone marrow and then grafted into 3-day-old host embryos. Under these conditions, bone marrow LSC contributed to a variable proportion of the first generation of thymocytes. The percentage of TdT+ cells among the progeny of these bone marrow stem cells was found to be two times higher than that of thymocytes derived from host LSC. These results suggest that, in addition to intrathymic environmental factors, the origin of LSC influences the frequency of TdT expression in their progeny.     

Biosynthesis of poly(A)-RNA and differentiation in chick erythrocytes

The rates of synthesis of poly(A)-containing RNA species in the nuclei of erythrocytes from 4- to 9-day-old chick embryos were determined by poly(T)-cellulose chromatography and were found to vary according to the developmental stages of the chick embryos. The rate appeared to increase 1 day prior to the onset of hemoglobin differentiation. The enzymatic activities of ATP polymerization in the nucleus of these erythrocytes were also examined. The enzymatic activity was resolved into two fractions on O-(diethylaminoethyl) cellulose. The ratio of the two enzymatic activities remained relatively constant in erythrocytes from 4- to 19-day-old embryos. However, a threefold increase in the total poly(A) polymerase activities was observed 1 day prior to the onset of hemoglobin differentiation. These results indicate that hemoglobin differentiation in these erythrocytes is associated with an increase in the rate of synthesis of poly(A)-containing RNA and in the activities of poly(A) polymerases.     

The overlapping effects of thyrotropin and gonadotropins on chick embryo gonads in vitro

Pieces of 12- and 15-day-old chick embryo testes and ovaries were cultured in vitro in the presence of thyrotropin (TSH), gonadotropins (FSH + LH) and adrenocorticotropin (ACTH) for different periods. All the explants of treated gonads differentiated into typical testes or ovaries according to their genetic sex. The gonads of 12-and 15-day-old chick embryos showed a good response to both thyrotropic and gonadotropic stimulation. On the other hand, they did not respond to adrenocorticotropic stimulation. Fifteen-day-old chick embryo testes were grown in tissue culture in the presence of the said hormones. Gonadotropins and TSH enhanced the growth and migration of testicular cells as compared with the control or ACTH treated group. In addition, they maintained the germ cells on the upper surface of epithelial cells. These results have confirmed our previous results in vivo in that gonadotropins and thyrotropin hormones accelerated the development of 12- or 15-day-old chick embryo gonads.     

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.     

AGE-DEPENDENT CHANGE IN THE TRANSDIFFERENTIATION ABILITY OF CHICK NEURAL RETINA IN CELL CULTURE*

We examined how the transdifferentiation ability of neural retinal cells into lens and/or pigment cells in call culture is changed with the development of the donor. Cells dissociated from neural retinas of chick embryos ranging from 3-day-old to the stage immediately before hatching and of 3-day-old chicks were cultured for about 60 days. The results clearly indicated that the transdifferentiation ability decreased with age. The latest developmental stage at which the differentiation of lens cells took place was in 18-day-old embryos. A gradual decrease in this ability was shown by the comparison of crystallin content in cultures prepared from embryos at different stages. The differentiation of pigment cells was recognized in cultures of neural retinas earlier than in 15-day-old embryos. Such loss of the ability of neural retinal cells to transdifferentiate into pigment cells earlier than into lens cells can be partially attributed to inhibitory factors accumulated in medium conditioned with many neuronal cells present in cultures.     

Regulatory effects of epidermal growth factor and retinol on the glucocorticoid receptor level in cultured chick embryonic skin

When undifferentiated skin from 13-day-old chick embryos was cultured in a chemically defined medium, glucocorticoid specifically decreased the dexamethasone-binding activity of the epidermal cytosol after 1 day of culture, 3 days before it induced formation of a cornified layer over the intermediate cells of the epidermis. The binding activity reappeared after removal of the steroid from the medium. This reappearance was inhibited by epidermal growth factor (EGF, 100 ng/ml). The Addition of 2 microM retinol resulted in a 3-fold increase in specific dexamethasone binding in the epidermal cytosol within 12 h with no change in the binding affinity. The inhibition of glucocorticoid-induced keratinization by retinol is due a to mechanism other than inactivation of the glucocorticoid receptor.     

A method to obtain avian germ-line chimaeras using isolated primordial germ cells.

Primordial germ cells (PGCs), collected from the blood of 2-day-old chick embryos, were concentrated by Ficoll density centrifugation. The blood contained 0.048% PGCs and the concentrated fraction contained 3.9% PGCs in blood cells. The PGCs were picked up with a fine glass pipette, and one hundred were then injected into the terminal sinuses of 2-day-old Japanese quail embryos (24 somites); bubbles were then inserted to prevent haemorrhage. The embryos were further incubated at 38 degrees C for 24 h, and then fixed. Serial sections were stained with the periodic acid-Schiff reagent (PAS) to demonstrate chicken PGCs and with Feulgen stain to identify quail cells. On the basis of the differences in staining properties, 63.6 +/- 5.3 chick PGCs were detected in the quail embryo in the area where the gonads develop. Furthermore, 39.3 +/- 4.5 chick PGCs were incorporated into the quail germinal epithelium within 24 h of the injection. A similar percentage of the host (quail) PGCs had also migrated to the germinal epithelium at the same stage of development. This technique for obtaining germ-line chimaeras will facilitate research on avian germ-line differentiation.     

Low molecular weight phosphotyrosine protein phosphatase from PC12 cells. Purification,some properties and expression during neurogenesis in vitro and in vivo

The purification and partial characterization of low molecular weight phosphotyrosine phosphatase (LMW-PTP) was reported for the first time in PC12 cells. In addition, the expression levels during neuronal phenotype induction by nerve growth factor (NGF) and during neurogenesis in chick embryos were investigated. LMW-PTP was purified to homogeneity and showed a single band of about 18 kDa with sodium dodecyl sulfate polyacrylamide gel electrophoresis. A native molecular mass of 20.1 kDa was determined by gel filtration on Sephadex G-75 column. The LMW-PTP from PC12 cells displays structural and biochemical characteristics similar to the enzyme isolated for normal tissues. It was specifically immunoprecipitated by an affinity purified antibody directed against the bovine liver enzyme. The enzyme is present in the cytosolic and cytoskeletal cell compartment where is tyrosine phosphorylated. Time course expression of LMW-PTP in PC12 cells was investigated after NGF treatment and showed an increase of about 30% in the basal level of LMW-PTP from 0 to 72 h. These changes were related to the appearance in PC12 cells of neuronal processes and to a decrease in cell proliferation. An increase of the LMW-PTP expression was also observed in vivo during chick embryo neurogenesis from 8-day-old embryos to adult chicks. The protein level, assayed by immunoblotting, increases from 14-day-old embryos to the hatched chicks reaching the adult levels within the first week after birth. These data indicate that the neurogenesis process is accompanied by a physiological increment of LMW-PTP expression in vitro and in vivo.