A factor derived from chick embryo retina which inhibits DNA synthesis of retina itself

Chick embryo retinas contain a peptide factor that inhibits DNA synthesis in explants of chick embryo retina. The inhibitory factor, obtained by acid/ethanol extraction from 15-day-old chick embryo retinas, was partially purified by affinity chromatography on heparin-sepharose CL-6B and gel filtration on Sephadex G-100. The inhibitor reduced DNA synthesis with maximal effects observed in retinal explants from 7 to 8-day-old chick embryos. The inhibitory effect became apparent after 10 h of incubation and reached the maximum levels after 16 h. DNA-inhibiting activity was heat and acid-stable and was destroyed by trypsin and alkaline treatments. The inhibitory effect was observed in retinal explants incubated in a medium free froml-glutamine, and the addition of this compound to the medium reduced the inhibitory effect in a concentration-dependent manner.     

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.     

Immunocytochemical studies of chicken somatotrophs and somatotroph granules before and after hatching

Immunocytochemical methods were used to gain information about the embryonic development of chicken somatotrophs before and after hatching. To localize growth hormone, anterior pituitary sections were incubated with growth-hormone antibody, and then an indirect peroxidase method was used for light microscopy and an immunogold method for electron microscopy. The earliest evidence of embryonic somatotrophs was seen at 12 days. At this stage somatotrophs were sparse (0.2% of parenchymal cells) and their granules were pleomorphic with elongated ovoid and lozenge shapes predominating. Few of the immunogold-labeled somatotroph granules of the embryo were spherical until 15 days after fertilization. At 18 days, most of the granules were spherical (their shape in the adult chicken). During the six days between the 15-day-old embryo and the 1-day-old chick, the number of gold particles per granule section approximately doubled suggesting an increase in growth hormone content of the granules. This rise was the result of increases in the size of the granule sections and in the concentration of gold particles in the sections. During the embryonic period of 12–20 days, somatotrophs were not more than 3.6% of the anterior pituitary cell population. During the following two days, between the 20-day-old embryo and the 1-day-old chick, the percentage of somatotrophs in the pituitary parenchymal cell population rose rapidly from 3.6% to 20.7% and then increased slowly to 24.6% during the period of 1–5 days after hatching. Both the sharp percentage rise in somatotrophs (20-day-old embryo to 1-day-old chick) and the rise in growth hormone content of the granules (15-day-old embryo to 1-day-old chick) suggested by gold-particle counts occur close to the time of hatching. These morphological changes may reflect an increased synthesis of growth hormone that is responsible for the rise in plasma growth-hormone concentration that begins about the same time and is especially abrupt two days later (1–3 days after hatching).     

The effects of glucocorticoids on thymidine kinase and nucleoside phosphotransferase during development of chicken embryo retina

Thymidine kinase in chick embryo retina reaches its highest values on the 8–10th day of development, then declines reaching the lowest value at hatching. The rate of DNA synthesis essentially follows this activity while, in contrast, nucleoside phosphotransferase increases progressively during development. Glucocorticoids at 5 × 10^?6M lower the level of thymidine kinase in isolated retinas of chick embryo. The most effective steroid was hydrocortisone. The effect was observed in retinas from 8–18-day-old chick embryo and, except on the 18th day, was always of the same magnitude. We suggest that a glucocorticoid can be the natural factor responsible for the marked fall in thymidine kinase during development. Brief periods of exposure to steriods increase nucleoside phosphotransferase activity in isolated chick embryo retinas. When the exposure was longer than 3 h this activity was also clearly decreased. We conclude that other factors are responsible for the natural increment which occurs for this activity during development.     

Hypophysis and estradiol secretion in the chick embryo

Ovaries from 10- to 18-day-old chick embryos hypophysectomized by partial decapitation were cultured in vitro and their estradiol secretion was compared to that of ovaries from control embryos. The production of estradiol was not less in the decapitated than in the control embryos at 15-18 days, neither per ovary nor on the basis of ovarian weight. However, the difference was significant at 10-11 days. These results suggest that the hypophysis controls estradiol secretion by the chick embryo ovary in the early stages, but not in the later ones.     

Antiserum Against Neurite Outgrowth Factor in Chick Gizzard Extract and Its Inhibitory Effect on Neuritic Response in Cultured Ciliary Neurons

Abstract: Antiserum against a neurite outgrowth factor (NOF) of gizzard extract that promotes neurite outgrowth from dissociated ciliary ganglionic neurons (CG neurons) of 8-day-old chick embryo was prepared to determine whether or not the antiserum inhibits neurite outgrowth from cultured neurons or explants of chick and murine tissues. When CG neurons were cultured on a polyornithine-coated well exposed to NOF (NOF-bound POR well), marked neurite outgrowth was observed. When NOF-bound POR wells were exposed to antiserum, neurite outgrowth from CG neurons was gradually inhibited with increasing amounts of antiserum, while exposure to preimmune serum did not prevent neurite outgrowth. Antiserum had no effect on neuronal survival during a 48-h incubation. The diluted antiserum, which produced nearly 100% inhibition of the NOF activity, was almost equally active in suppressing the activity of NOFs in conditioned media (CM) of various chick embryo tissues, but showed much less inhibitory effects on NOFs in CM of murine tissues. The appearance of neurites from explants of spinal cord, dorsal root ganglion, or retina of chick embryo was also inhibited by the antiserum. These results indicate that antiserum against NOF from gizzard extract suppressed the activity of NOFs from various sources, and that there are species differences in NOFs, at least between chick and murine.     

Influence of Hydrocortisone on Chick Embryo Retina Development

Treatment of chick embryos in ovo with hydrocortisone-21-phosphate (a single dose of 150 micrograms) caused a marked reduction of retinal thymidine kinase activity 24 h later. The inhibitory effect was highest (65-70%) in 8-10-day-old embryos and declined with age, disappearing after day 15. It was accompanied by a reduction in thickness of the retinal layers. Adrenocorticotropic hormone (ACTH) treatment (10 micrograms daily for 2 days) also produced an age-dependent inhibitory effect on retinal thymidine kinase, whereas treatment with a single dose of 200 micrograms of metopirone, a compound that prevents the 11 beta-hydroxylation of steroid molecules in the adrenal glands, impeded the decrease in thymidine kinase activity that normally occurs in chick embryo retina after day 9 of development. In addition, metopirone prevented the inhibition exerted by ACTH on thymidine kinase activity but had no effect on the action of hydrocortisone.     

Testicular graft on the chick embryo

A testis from an 18-day-old chick embryo was transplanted into the extra-coelomic cavity of 3-4-day-old hosts. The embryos surviving at 17 days were sacrificed and their genital system was examined. Testis grafting produced inhibition of testicular development. Development of the female gonads was also inhibited. A more or less complete modification of sex was associated with this inhibition. The left ovary lost its cortex, but its medulla remained mostly ovarian in structure. The right gonad frequently acquired a typical testicular structure. These results confirm the possibility of obtaining sex reversal in the female chick embryo by testis grafting.     

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.     

Insulin and IGFs induce apoptosis in chick embryo retinas deprived of L-glutamine

In chick embryo retinas, cultured in serum-free medium lacking L-glutamine, IGF-I, IGF-II and insulin induced apoptotic DNA fragmentation and cell death, IGF-I being the most efficacious compound. The apoptotic effect, which was particularly evident in retinas removed from 7-day-old chick embryos, declined with the age of the embryos and disappeared after day 11. Apoptosis appeared after a time lag of 8 h and then increased with time up to 16 h. Cycloheximide, an inhibitor of protein synthesis, was capable of entirely abolishing apoptotic cell death. The effect induced by IGFs or insulin was suppressed by the addition of glutamine. Cytokine-mediated apoptosis was also observed after withdrawal of phosphate. We suggest that IGFs or insulin may produce, in retinas cultured in medium lacking L-glutamine or phosphate, a conflict of signals that could be lethal for retinal cells.     

Development of spontaneous motility in chick embryos. The spinal and supraspinal component of the inhibitory effect of glycine and GABA.

Development of the effect of glycine and gamma-aminobutyric acid [GABA] on spontaneous motility was studied in 11- to 19-day-old chick embryos under normal conditions and after acute and chronic decapitation. Chronic decapitation was performed on the 2nd day of incubation. Glycine (100 mg/kg egg weight) and GABA (103 mg/kg egg weight) (applied onto the shell membrane) demonstrably inhibited spontaneous motility only from the 15th day of incubation, the inhibitory effect increasing with the embryo's age. When administered together in half doses, glycine and GABA completely inhibited spontaneous motility for the first time in 19-day-old embryos. Neither amino acid influenced depression of motility immediately after decapitation, but 24 and 48 hours after, in 17- and 19-day-old embryos, they had a paradoxical effect, i.e. they transiently activated motor activity and even caused motor paroxysms. After chronic decapitation, both glycine and GABA again had a mild, protracted inhibitory effect. A comparison of spontaneous motility in normal and chronically decapitated embryos showed that the role of supraspinal factors in spinal motor output increases significantly with development of the chick embryo from the 15th day of incubation and that inhibition of these supraspinal factors plays the decisive role in the effect of glycine and GABA.     

Effects of Maternal Zinc Glycine on Mortality,Zinc Concentration,and Antioxidant Status in a Developing Embryo and 1-Day-Old Chick

This study was conducted to investigate the effects of maternal zinc glycine (Zn-Gly) supplementation as an alternative for zinc sulfate (ZnSO₄) on mortality, zinc (Zn) concentration, and antioxidant status in a developing embryo and 1-day-old chick. Six hundred 39-week-old broiler breeders were randomly assigned to 6 treatments, each treatment including 5 replicates with 20 birds each. Six treatments received a basal diet (control, 24 mg Zn/kg diet) or a basal diet supplemented with ZnSO₄ (80 mg Zn/kg) or Zn-Gly (20, 40, 60, or 80 mg Zn/kg), respectively. The experiment lasted for 8 weeks after a 4-week pre-experiment with a basal diet. At the last week, 100 eggs per replicate were randomly collected for incubation. Compared with the control treatment, Zn supplementation decreased (P < 0.05) embryo mortalities of the late stage and the whole period, increased (P < 0.05) liver Zn concentration in the embryo of d9, d19, and 1-day-old chick, and improved (P < 0.05) antioxidant status in the embryo of d19 and 1-day-old chick. Compared with the ZnSO₄ treatment, 80 mg Zn/kg Zn-Gly treatment significantly decreased (P < 0.05) the late stage embryo mortality and increased (P < 0.05) liver Zn concentration in the embryo of d9, d19, and 1-day-old chick. The 80 mg Zn/kg Zn-Gly treatment significantly increased (P < 0.05) copper-zinc superoxide dismutase activity in d19 embryo and 1-day-old chick, total superoxide dismutase activity in 1-day-old chick, and copper-zinc superoxide dismutase messenger RNA (mRNA) abundance of d9 embryo and 1-day-old chick than that in ZnSO₄ treatment. The liver metallothionein concentration of the developing embryo and 1-day-old chick and its mRNA abundance of d19 embryo were also significantly increased (P < 0.05) in the 80 mg Zn/kg Zn-Gly treatment in comparison with ZnSO₄ treatment. In conclusion, maternal Zn supplementation decreased embryo mortalities of the late stage and the whole period by increasing liver Zn concentration and antioxidant status in d19 embryo and 1-day-old chick, and 80 mg Zn/kg from Zn-Gly treatment was the optimum choice.     

Development of chicken epidermis cultured with embryo extract

The epidermis from 11-day-old chick embryo shank skin was cultured with 11-day-old chick embryo extract. The growth and the differentiation of the epidermis in culture were studied histologically, electron microscopically and with polyacrylamide gel electrophoresis of keratin proteins. The epidermis cultured with the chick embryo extract proliferated and stratum structures developed simultaneously with the increase in epidermal cell layers. Finally, a keratinized layer was observed after 10 days in culture. Electron microscopic observations revealed that tonofilaments were produced after 2 days in culture and increased thereafter with culture time, becoming condensed with desmosomes. Keratohyaline granules were observed in 7-day cultures. These keratinization characteristics occurring during culture showed the general characteristics of the alpha stratum observed in the skin of in ovo embryos during the early stages of development. However, the development of peridermal and subperidermal granules was poor and the stratum granulosum, which develops at the late stages between the stratum intermedium and the stratum corneum, was not observed. Polyacrylamide gel electrophoresis of S-carboxymethylated keratin proteins showed that the keratin protein band patterns of the culture differed from those of in ovo skin epidermis.     

Comparative study of dehydrogenase and diaphorase activity in spinal ganglion neurons in vivo and during their cultivation in vitro]

Enzymatic activity was investigated in spinal ganglia of 10-day-old chick embryo and in 10-day-old cultures of these ganglia (the method of "flying glasses"). Histochemical preparations were photometrically treated with the one-wave plug-method in the device MCFB-1 (LOMO) with the diameter of the probe 8 mkm. As the result of the investigations on optic density, a definite conclusion was made about relative activity of 15 enzymes and a general scheme of neuronal metabolism was graphically presented under the conditions of cultivation, enzymatic activity of krebs cycle was demonstrated to decrease, while that of diaphorase and lactate dehydrogenase to increase. The data on topography of enzymatic distribution in neurons, satellites, lemmoncytes and fibroblasts were also presented.     

Angiotensin II-induced increase of T-type Ca2+ current and decrease of L-type Ca2+ current in heart cells

The effect of angiotensin II (Ang II) on the T- and L-type calcium currents (I(Ca)) in single ventricular heart cells of 18-week-old fetal human and 10-day-old chick embryos was studied using the whole-cell voltage clamp technique. Our results showed that in both, human and chick cardiomyocytes, Ang II (10(-7)M) increased the T-type calcium current and decreased the L-type I(Ca). The effect of Ang II on both types of currents was blocked by the AT1 peptidic antagonist, [Sar1, Ala8] Ang II (2 x 10(-7)M). Protein kinase C activator, phorbol 12,13-dibutyrate, mimicked the effect of Ang II on the T- and L-type calcium currents. These results demonstrate that in fetal human and chick embryo cardiomyocytes Ang II affects the T- and L-type Ca2+ currents differently, and this effect seems to be mediated by the PKC pathway.     

Inhibition of chick embryo hepatic uroporphyrinogen decarboxylase by components of xenobiotic-treated chick embryo hepatocytes in culture. II.

A variety of xenobiotics, viz., 3,3',4,4'-tetrachlorobiphenyl (TCBP), sodium phenobarbital (PB), 3,5-diethoxycarbonyl-2, 4,6-trimethylpyridine (OX-DDC), and nifedipine, cause a decrease in uroporphyrinogen decarboxylase (UROG-D) activity, accompanied by uroporphyrin accumulation, in chick embryo hepatocytes in culture. In this study the activity of 17-day-old chick embryo hepatic UROG-D was determined by measuring the conversion of pentacarboxylporphyrinogen I to coproporphyrinogen I, and it was shown that a UROG-D inhibitor, previously reported to accumulate in TCBP-treated and PB-treated chick embryo hepatocytes in culture, also accumulates in OX-DDC-treated and nifedipine-treated chick embryo hepatocytes in culture. It was concluded that the accumulation of a UROG-D inhibitor provides an explanation for the UROG-D inhibition observed in this culture system with xenobiotics that cause uroporphyrin accumulation. Studies of the UROG-D inhibitory fraction isolated from the 10,000 x g, 40,000 x g, and 100,000 x g supernatant fractions of cultured chick embryo hepatocyte homogenate led to the conclusion that the UROG-D inhibitor is derived from a soluble component of the homogenate.     

ORNITHINE AND GLUTAMIC ACID DECARBOXYLASE ACTIVITIES IN THE DEVELOPING CHICK RETINA

Abstract— γ-Aminobutyric acid was found in 6-day-old chick embryo retina; approx 20% was formed from putrescine and the remainder from glutamic acid. However, at the 18th embryonic day only 1% of the γ-aminobutyric acid synthesized in retina was derived from putrescine. These results show that γ-aminobutyric acid is synthesized in chick embryo retina prior to synaptogenesis, and that γ-aminobutyric acid is synthesized via two pathways. The first pathway involves the conversion of putrescine to γ-aminobutyric acid; the second path is dependent upon the conversion of glutamic acid to γ-aminobutyric acid, catalyzed by glutamic acid decarboxylase.     

Changes in polyamine synthesis and concentrations during chick embryo development

We have measured the activities of the two rate controlling enzymes in polyamine synthesis, L-ornithine decarboxylase (ODC) and S-adenosyl-L-methionine decarboxylase (SAMDC), and the concentrations of the polyamines, putrescine, spermidine and spermine, in the developing chick embryo from laying to hatching. The embryo exhibited major peaks in the ODC and SAMDC activities as well as in the concentrations of all three polyamines at 15 h (gastrulation), 23-30 h (early organogenesis), days 4-5 (mid-organogenesis), and days 12-17 (organ growth and maturation). In the 4 and a half-day-old embryo, ODC activity and polyamine concentrations were about twice as high in the head region as compared to the trunk region. In the 14-day-old embryo, the highest ODC and SAMDC activities were found in lung, intestine and kidney, and there was a positive correlation between the enzyme activities and the growth rates of most organs/tissues.     

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.     

The significance of extracellular Ca<Superscript>2+</Superscript> in contractile responses of chick amnion

Neurotransmitter receptors are formed during chick embryo development in the amnion, an avascular extraembryonic membrane devoid of innervation. Carbachol induces phasic and tonic contractions mediated by M₃ cholinoceptors in an amniotic membrane strip isolated from 11–14-day-old chick embryo. The carbachol effect on the amnion contractile activity was studied in normal physiological salt solution, during depolarization by K⁺, exposure to nifedipine, and in calcium-free medium. Voltage-dependent and receptor-operated Ca²⁺ channels as well as calcium from intracellular stores are involved in the contractile response to carbachol. Phasic contractions of the amnion are mainly induced by calcium ions entering through voltage-dependent calcium channels, while tonic contractions are also maintained by receptor-operated channels. Ca²⁺-activated potassium channels can serve as a negative feedback factor in regulation of the amnion contractile responses.