Action of testicular graft on the ovary of chick embryo having undergone a partial decapitation]

The absence of the hypothalamo-hypophyseal complex had neither influence on the ovarian atrophy, nor on the mullerian retrogression induced by an embryonic testicular graft in the female embryo. So, the hormone responsible of the mullerian retrogression had an inhibiting action on the embryonic ovary of the chick which is independant of the hypothalamo-hypophyseal complex.     

Influence of puromycin on the regression of Mullerian ducts in chick embryos submitted to a testicular graft]

Puromycin, an inhibitor of protein synthesis, strongly reduces the incidence of retrogression of the mullerian ducts provoked by testicular graft in the female chick embryo.     

Inhibiting effect of the testis on the ovary of the chick embryo]

The testicular hormone responsible for the retrogression of the mullerian ducts in the female chick embryo submitted to an embryonic testicular graft, causes an atrophy of the two, cortical and medullary, parts of this gonad, which is more marked at the level of the cortex.     

The effect of the testicular mullerian-inhibiting hormone on ovarian development in the chick embryo]

In female chick embryos grafted with embryonic testis, it is a correlation between the effects of the graft on the mullerian ducts and on the ovary. Indeed, when the graft causes retrogression of the ducts, it induces an ovarian atrophy also. These facts lead to think that these two activities are due to the same substance, the mullerian inhibiting hormone of the testis.     

Action of the testosterone treated chicken testis on the regression of the Müllerian duct]

After administration of testosterone propionate to male chick embryos and chickens, their testis have an activity, on the retrogression of mullerian ducts, much more important than that observed in testis of normal subjects of the same age, activity measured by grafting testis fragments in undifferentiated female chick embryos. The results suggest that testosterone gives such an effect by inhibiting pituitary gonadotropins, peculiarly FSH.     

Current findings on the asymmetric growth of the mullerian tract in female chick embryos]

Shape and orientation of the mesothelial cells were examined in the mullerian ducts of 8, 13 and 15 day female chick embryos with the scanning electron microscope. The observed evolution in the pattern of these cells likely reflects the mechanical conditions to which these organs are subjected during embryonic development: stretching for the left duct, slackening for the right duct. These observations, together with data concerning growth of these organs, suggest that topographical relationships between cells, which in this system result from mechanical factors, play an important role in controlling cell proliferation.     

鸡胚背根神经节培养法测定神经生长因子活性的条件优化

鸡胚背根神经节培养法是测定神经生长因子(NGF)和神经营养因子活性的重要方法。我们通过考察培养基、鸡血浆和鸡胚浸液的比例、背根神经节部位、培养时间等条件对NGF刺激神经节生长的影响,从而建立了一套检测NGF活性的优化条件。在含20％鸡血浆和15％鸡胚浸液的DMEM的培养基中,利用伊莎褐鸡胚腰部的背根神经节,在终浓度为30ng/ml的蛇毒NGF的刺激下,培养36h可以得到理想的实验结果。该条件重复性好、分辨率高、简单实用。     

Cytological and cytochemical effects of a liver extract from an adult rat on chick embryo hepatocytes and fibroblasts cultivated in vitro]

The effects of an extract from adult liver on chick embryo hepatocytes and fibroblasts cultivated in vitro are studied with cytological and quantitative cytochemical methods. This substance inhibits the multiplication of hepatocytes adn prevents these cells from entering into the S phase of the cycle. No effect is observed on the chick embryo fibroblasts. Not any morphological alterations are observed in the two cell types.     

Study of cyclic AMP in rat tissue during the phase of hypocalcemic activity of parathyroid hormone]

As soon as two minutes after PTH i.v. injection the blood and kidney AMPc level is maximally increased but the lowering blood calcium effect remained till to ten minutes. At this time the calvaria AMPc level reached its maximum just at the onset of hypercalcemic effect of PTH. Thus AMPc increase in tissues is consistent with the two opposite effects of PTH.     

Histones from chick embryo, chick and chicken liver nuclei

Histones were prepared and purified from chick embryo, chick and chicken liver nuclei. The comparative analysis of these histone preparations, fractionated by polyacrylamide gel electrophoresis, indicates that histone fractions of chick embryo, chick and chicken livers are respectively identical and they comigrate with calf thymus histones.     

Photoreactivation of a Cytoplasmic Virus

Ultraviolet light-inactivated frog virus 3 is efficiently photoreactivated by chick embryo cells. A cellular enzyme is presumably responsible for this repair of viral deoxyribonucleic acid, for the phenomenon is insensitive to an inhibitor of protein synthesis and is not seen in mammalian cells that are known to lack photoreactivating enzyme. Since frog virus 3 is a cytoplasmic virus, functionally significant amounts of photoreactivating enzyme are probably present in the cytoplasm of chick embryo cells.     

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.     

Intracellular distribution of yolk droplets, lipid bodies and Golgi apparatus in the chick neuroepithelial cells during neurulation

Vitelline and lipidic inclusions which are present in the neuroepithelial cells during chick embryo neurulation show a typical intracellular localization in the apical zone of the cell. In the same cellular zone the Golgi apparatus can be seen during the successive stages of neurulation. These patterns of inclusion and organelle polarity during chick embryo neurulation may be related to active consumption of the reserves contained in inclusions during this morphogenetic process. Such an active consumption would imply a close relationship between the vitelline and lipidic inclusions and the Golgi apparatus. On the other hand, the apical position of the Golgi apparatus in the neuroepithelial cells reveals the remarkable apicobasal polarity of these cells which remains unchanged during chick embryo neurulation.     

Characterization of nucleoside phosphotransferase and thymidine kinase activities of chick embryo cells and of chick-mouse somatic cell hybrids.

Experiments were carried out to characterize the thymidine (dT) phosphorylating activities of chick embryo, chick erythrocytes, and of chick mouse somatic cell hybrids derived from fused chick erythrocytes and dT kinase-deficient LM(TK) mouse cells. Disc PAGE, isoelectric focusing, and glycerol gradient centrifugation analyses revealed that chick embryo cells contained four distinctive dT phosphorylating activities, two dT kinases and two nucleoside phosphotransferases. Thymidine kinase F. found principally in the cytosol, was also detected in mitochondrial and nuclear extracts, but was very low or absent from chick erythrocytes. Thymidine kinase A corresponds to the mitochondrial-specific isozyme found in bromodeoxyuridine-resistant mammalian cells. Nucleoside phosphotransferase activities were very active in chick embryo cytosol and were detected in embryo mitochondria! and nuclear extracts and cytosol and nuclear extracts of chick erythrocytes. Most of the chick embryo nucleoside phosphotransferase activity could be removed by purification of cytosol dT kinase F. Chick-mouse somatic cell hybrids exhibited chick dT kinase F, but neither chick dT kinase A. chick nucleoside phosphotransferase, nor mouse cytosol dT kinase activities. The results indicate (1) the genetic determinant for chick cytosol dT kinase F is on a different chromosome from the determinants for the chick nucleoside phosphotransferases and mitochondrial dT kinase A, and/or (2) only the chick cytosol dT kinase F, but neither the chick nucleoside phosphotransferases nor dT kinase A, was reactivated in the hybrids.     

Influence of the infection with lipid-containing viruses on the metabolism and pools of phospholipid precursors in animal cells

The influence of infection with three different lipid-containing RNA viruses, Newcastle disease virus, fowl plague virus, and Semliki Forest virus on the phosphatidylcholine precursors of chick embryo cells and of baby hamster kidney (BHK) cells has been measured. In chick embryo cells infection with Newcastle disease virus does not influence the energy charge, or the distribution and absolute pool sizes of the precursors or the choline phosphotransferase activity. In chick embryo cells infected with fowl plague virus the CDP-choline pool increases because of an inhibition of the choline phosphotransferase activity. The phosphorylcholine and CTP pools are smaller in infected cells when compared with mock-infected ones, although the energy charge is not influenced by infection. In chick embryo cells as well as in BHK cells the energy charge is diminished by infection with Semliki Forest virus. Therefore the CTP and phosphorylcholine pools are decreased. The CDP-choline pool in chick embryo cells becomes extremely small after infection with Semliki Forest virus because of a significant stimulation of the choline phosphotransferase. In BHK cells infected with Semliki Forest virus the opposite effect is observed. There are also severe effects on the uptake of the labeled precursors by infection. One and the same virus (Semliki Forest virus) has two completely different effects on the phosphatidylcholine precursors when infecting two different cell types. If one and the same cell type (chick embryo cells) is infected with three different lipid-containing RNA viruses also completely different effects on the phosphatidylcholine precursors were observed. Thus, each virus develops its own strategy to influence the lipid metabolism of the host cell, depending also on the choice of the host. This explains the many disturbing contradictory results described in the literature about the influence of lipid-containing viruses on the lipid metabolism of the host.     

Egg-in-Cube: Design and Fabrication of a Novel Artificial Eggshell with Functionalized Surface

An eggshell is a porous microstructure that regulates the passage of gases to allow respiration. The chick embryo and its circulatory system enclosed by the eggshell has become an important model for biomedical research such as the control of angiogenesis, cancer therapy, and drug delivery test, because the use of embryo is ethically acceptable and it is inexpensive and small. However, chick embryo and extra-embryonic blood vessels cannot be accessed freely and has poor observability because the eggshell is tough and cannot be seen through, which limits its application. In this study, a novel artificial eggshell with functionalized surface is proposed, which allows the total amount of oxygen to pass into the egg for the chick embryo culturing and has high observability and accessibility for embryo manipulation. First, a 40-mm enclosed cubic-shaped eggshell consisting of a membrane structure and a rigid frame structure is designed, and then the threshold of the membrane thickness suitable for the embryo survival is figured out according to the oxygen-permeability of the membrane structure. The designed artificial eggshell was actually fabricated by using polydimethylsiloxane (PDMS) and polycarbonate (PC) in the current study. Using the fabricated eggshell, chick embryo and extra-embryonic blood vessels can be observed from multiple directions. To test the effectiveness of the design, the cubic eggshells were used to culture chick embryos and survivability was confirmed when PDMS membranes with adequate oxygen permeability were used. Since the surface of the eggshell is transparent, chick embryo tissue development could be observed during the culture period. Additionally, the chick embryo tissues could be accessed and manipulated from outside the cubic eggshell, by using mechanical tools without breakage of the eggshell. The proposed “Egg-in-Cube” with functionalized surface has great potential to serve as a promising platform for biomedical research.     

Gallera method of chick embryo culture in vitro supports better growth compared with original New method

An avian embryo is a valuable model system for vertebrate embryology. Easy availability, accessibility to various developmental stages and amenability of organ fields makes the chick embryo one of the favored model systems. Seminal discoveries regarding organogenesis and vertebrate morphogenesis have been made using chick embryos cultured in vitro . Dennis A.T. New revolutionized chick embryo culture methodology with his development of a single glass ring explantation technique. Many modifications and/or embellishments were introduced after the New era of embryo culture. A double glass ring method for chick embryo culture introduced by Gallera and Nicolet is compared with the original New method and the EASY method in this study. In addition, a video of culture methods is presented as a valuable tool in learning about and/or teaching techniques of chick embryo culture.     

Establishment of a chick embryo model for analyzing liver development and a search for candidate genes

The liver plays a crucial role in metabolism. There is considerable interest in how the liver develops, as such knowledge could prove of importance in regenerative medicine. However, our understanding of liver development remains somewhat limited. We have developed a model system using the chick embryo that is cost effective and is easy to manipulate experimentally. We performed four fundamental studies: (i) construction of an atlas of the developing chick liver; (ii) identification of differentiation marker genes in the developing chick embryo; (iii) development of germ-layer specific electroporation; and (iv) establishment of organ culture from the developing chick liver. Using this system, we have been able to demonstrate the functions of candidate genes within a shorter period and in a more cost-effective manner. In parallel with the establishment of this system, we examined the expression patterns of genes known to be required for organ development in the developing chick embryo in order to identify genes also involved in liver development. To date, we have found sixteen genes that are expressed in the developing chick liver (GELD, genes expressed in liver development). This knowledge will be fundamental to the establishment of the basic technology for engineering liver tissue in the future.     

Unveiling the establishment of left-right asymmetry in the chick embryo

Vertebrates display striking left-right asymmetries in the placement of internal organs, which are concealed by a seemingly bilaterally symmetric body plan. The establishment of asymmetries about the left-right axis occurs early during embryo development and requires the concerted and sequential action of several epigenetic, genetic and cellular mechanisms. Experiments in the chick embryo model have contributed crucially to our current understanding of such mechanisms and are reviewed here. Particular emphasis is given to the elucidation of a genetic network that conveys left-right information from Hensen's node to the organ primordia, characterized to a significant degree of detail in the chick embryo. We also point out a number of early and late events in the determination of left-right asymmetries that are currently poorly understood and for whose study the chick embryo model presents several advantages. We anticipate that the availability of the chick genome sequence will be combined with multidisciplinary approaches from experimental embryology, biophysics, live-cell imaging, and mathematical modeling to boost up our knowledge of left-right organ asymmetry in the near future.     

Comparison between avian and human prolyl 4-hydroxylases: studies on the holomeric enzymes and their constituent subunits.

Prolyl 4-hydroxylase, a key enzyme in collagen biosynthesis, catalyzes the conversion of selected prolyl residues to trans-hydroxyproline in nascent or completed pro-alpha chains of procollagen. The enzyme is a tetramer composed of two nonidentical subunits, designated alpha and beta. To compare the enzyme and its subunits from different sources, the chick embryo and human placental prolyl 4-hydroxylases were purified to homogeneity and their physicochemical and immunological properties were determined. Both enzymes were glycoproteins with estimated apparent molecular weights ranging between 400 and 600 kDa. Amino acid and carbohydrate analyses showed slight differences between the two holomeric enzymes, consistent with their deduced amino acid sequences from their respective cDNAs. Human placental prolyl 4-hydroxylase contained more tightly bound iron than the chick embryo enzyme. Immunodiffusion of the human placental enzyme with antibodies raised against the purified chick embryo prolyl 4-hydroxylase demonstrated partial identity, indicating different antigenic determinants in their tertiary structures. The enzymes could be separated by high-resolution capillary electrophoresis, indicating differential charge densities for the native chick embryo and human placental proteins. Electrophoretic studies revealed that the human prolyl 4-hydroxylase is a tetrameric enzyme containing two nonidentical subunits of about 64 and 62 kDa, in a ratio of approximately 1 to 2, designated alpha and beta, respectively. In contrast, the chick embryo alpha and beta subunit ratio was 1 to 1. Notably, the human alpha subunit was partially degraded when subjected to electrophoresis under denaturing conditions. Analogously, when the chick embryo enzyme was subjected to limited proteolysis, selective degradation of the alpha subunit was observed. Finally, only the alpha subunit was bound to Concanavalin A demonstrating that the alpha subunits of prolyl 4-hydroxylase in both species were glycosylated. Using biochemical techniques, these results demonstrated that the 4-trans-hydroxy-L-proline residues in human placental collagens are synthesized by an enzyme whose primary structure and immunological properties differ from those of the previously well-characterized chick embryo enzyme, consistent with their recently deduced primary structures from cDNA sequences.