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1.
The borders of myogenic cell invasion of avian wing and leg buds were determined using the interspecific grafting technique between quail and chick embryos. Distal parts of quail limb buds were grafted ectopically into the coelomic cavity of chick embryos. The presence or absence of skeletal muscle was investigated in histological sections of the reincubated grafts. A comparison between the borders of myogenic cell invasion of the wing and leg buds showed that the differences in the position of the distal most muscles in the adult avian limbs could be a consequence of the cranio-caudal sequence of development.  相似文献   

2.
We have previously succeeded in culturing whole leg bud from stage 21-23 chick embryos and observed a leg structure with typical cartilage pattern in vitro. In the present study, we have attempted the organ culture of the fragmented leg bud and investigated its capacity to form cartilage. Leg buds from stages 17-21 chick embryos were dissected into four pieces in the anteroposterior sequence (named 1, 2, 3, and 4, respectively) and cultured on a membrane filter in a medium consisting of Ham's F-12, chick serum, and chick embryo extract. After 6 days in culture, two central fragments (2 and 3) developed into large cartilaginous masses, while anterior (1) and posterior (4) fragments formed few or small cartilaginous masses. In addition, when these less chondrogenic fragments were combined, pinned together, and cultured, large cartilaginous masses were formed from 1 + 4 combinations but not from 1 + 1 or 4 + 4 combinations. These observations were analyzed quantitatively by measurement of 35SO4 incorporation into the sulfated glycosaminoglycan (S-GAG) and of final DNA content per explant, and by histological reconstruction of the chick-quail chimera explant. The results showed that (a) the 1 + 4 combination resulted in higher S-GAG synthesis and final DNA content than the 1 + 1 or 4 + 4 combinations in stage 18 and 21 leg buds (P less than 5%); (b) removal of ectoderm from the leg bud inhibited the increase observed for the 1 + 4 combination; c) in chick-quail chimera explants the cartilage formed from the 1 + 4 combination was largely of fragment 1 origin. These results demonstrate, first, the presence of a difference in chondrogenic capacity along the anteroposterior axis in the leg bud and, second, the occurrence of an interaction between anterior and posterior fragments which mimics the effects of grafting a zone of polarizing activity (ZPA). The mechanism of ZPA function is still unknown but the ectoderm may play some role. Some roles for ectoderm in ZPA function and differences in mesodermal responsiveness to ZPA factor(s) are suggested.  相似文献   

3.
The accumulation of the molecular forms of acetylcholinesterase (AChE) has been studied in leg muscles during embryonic chick development and in cell cultures initiated with myoblasts obtained from embryos at different stages of development. The collagen-tailed, A12 form appears in leg muscles as soon as day 5 in ovo. An early excision of the lumbar zone of the neural tube at day 2 1/2 in ovo severely delayed the morphological development. In leg muscles dissected at day 12 in ovo from operated embryos, we found that the total amount of AChE activity and particularly the proportion of A12 form were dramatically reduced.

Muscle cells were grown in vitro in a medium supplemented with fetal calf serum. In these conditions, chick muscle cells unequivocally synthesize the A12 form when they originated from muscles which accumulated this form in vivo. In contrast, myoblasts obtained from 5-day old embryo leg muscles did not produce the A12 form either in aneural cultures or in the presence of nerve cells. In relation with previous observations concerning chick myogenesis, we discuss the possibility that this difference reflects the existence of two types of myoblasts. This hypothesis would also explain the results of cocultures performed with nerve cells and normal or demedullated leg muscle myoblasts.  相似文献   


4.
We have isolated the cDNA of avian Mox2 and analyzed its expression pattern during somitogenesis and limb bud formation. Mox2 plays an important role in limb muscle differentiation in the mouse. Mox2 is expressed in the somites of developing chick embryos and in presumptive migrating myoblasts from the dermomyotome to the limb buds. It is also expressed in the ventral and dorsal part of limb buds and is associated with non-proliferating myoblasts. Significant differences were observed in chick and mouse expression patterns, namely in the chick dermomyotome and limb.  相似文献   

5.
A central feature of the tetrapod body plan is that two pairs of limbs develop at specific positions along the head-to-tail axis. However, the potential to form limbs in chick embryos is more widespread. This could have implications for understanding the basis of limb abnormalities. Here we extend the analysis to mouse embryos and examine systematically the potential of tissues in different regions outside the limbs to contribute to limb structures. We show that the ability of ectoderm to form an apical ridge in response to FGF4 in both mouse and chick embryos exists throughout the flank as does ability of mesenchyme to provide a polarizing region signal. In addition, neck tissue has weak polarizing activity. We show, in chick embryos, that polarizing activity of tissues correlates with the ability either to express Shh or to induce Shh expression. We also show that cells from chick tail can give rise to limb structures. Taken together these observations suggest that naturally occurring polydactyly could involve recruitment of cells from regions adjacent to the limb buds. We show that cells from neck, flank and tail can migrate into limb buds in response to FGF4, which mimics extension of the apical ectodermal ridge. Furthermore, when we apply simultaneously a polarizing signal and a limb induction signal to early chick flank, this leads to limb duplications.  相似文献   

6.
Techniques for detecting various levels of both field and vaccine strains of infectious bronchitis virus in a deliberately contaminated Newcastle disease vaccine were compared using chick embryos, chick kidney cells, chick tracheal organ cultures and chickens with a view to determining the most appropriate method for screening vaccines for freedom from IBV contamination. Techniques examined included detection of abnormalities and deaths in embryos, cytopathic effect in chick kidney cells, ciliostasis in chick tracheal organ cultures and clinical signs and virus isolation in chickens as well as the fluorescent antibody test, negative contrast electron microscopy and serology where appropriate. Results showed that the techniques capable of detecting both strains of infectious bronchitis virus were, in order of sensitivity, the fluorescent antibody test on allantoic cells from infected embryos, ciliostasis and direct electron microscopy of allantoic fluid. One surprising feature was the poor results obtained using chickens. Some detection was achieved with tracheal virus isolation and tracheal organ cultures prepared from inoculated birds and to a lesser extent with histology and clinical signs, but no technique detected the field strain.  相似文献   

7.
The A12 (asymmetric) form of acetylcholinesterase (AChE) is generally considered to be synthesized in leg muscle tissues by myotubes under neural influence, but not by myoblasts. We have examined the expression of the different molecular forms of AChE in explants of developing limb buds and dermomyotomes (the myogenic part of the somites) obtained from 3-day-old chick and quail embryos, either directly after removal or during in vitro culture. We describe a muscular differentiation of both territories in vitro, leading to the formation of myotubes which are morphologically similar to the class of early muscle cells described by Bonner and Hauschka (1974). In vivo the A12 form is present in quail dermomyotomes which are almost entirely composed of mononucleated poorly differentiated cells; in contrast, it is absent from similar cells in chick dermomyotomes and from limb buds in both species. This shows that in the case of quail embryos the appearance of the A12 form precedes the fusion of myoblasts into myotubes. In both species, dermomyotome explants express asymmetric and globular forms of the enzyme during muscular differentiation in vitro, whereas limb buds synthesize only globular forms. After surgical removal of neural tube and/or neural crest at 2 days in ovo, the biosynthesis of the A forms in quail dermomyotomes is not suppressed and is consequently not dependent upon prior connection of the dermomyotomes to central neurons or upon the presence of autonomic precursors. Since limb bud muscle cells derive from somites our results raise questions concerning the differentiation of migrating somitic cells in this territory where a neural influence appears necessary to induce the biosynthesis of asymmetric AChE forms.  相似文献   

8.
Limb buds from 4- and 4.5-week-old human embryos were cultured on agar medium consisting of Medium 199, chick embryo extract and horse serum for 4 days with or without thalidomide (1-1.5 microgram/ml), and the direct effect of thalidomide was examined morphologically in histological preparations. In the explants treated with thalidomide, mitotic figures of mesenchymal cells were significantly decreased both in overall explant and in mesenchymal cell aggregates, but the extracellular matrix in the mesenchymal cell aggregates was seen in the experimental and control explants. These findings suggest that thalidomide affects undifferentiated and differentiated mesenchymal cell proliferation but not the chondrogenic capacity of the mesenchyme.  相似文献   

9.
We have studied the effect of β-d-galactoside-specific lectin purified from 14-day-old chick embryos on the differentiation of the mesenchymal cells dissociated from the limb buds of stage 24 chick embryos, using the micro-mass culture method described previously. When the cells were incubated with the lectin during the initial 12 hr of culture, cell proliferation became slightly activated. The lectin-treated cells formed a greater number of cartilage nodules and incorporated about twice as much as [35S]sulfate per cell than the control cultures. The results of this study show that the chick endogenous lectin promotes cartilage differentiation in vitro and that endogenous lectin may possibly be involved in chondrogenesis in vivo.  相似文献   

10.
W A Elmer  M A Smith  D A Ede 《Teratology》1981,24(2):215-223
This paper describes the immunohistochemical localization of cAMP during limb chondrogenesis in talpid3 chick, brachypod mouse, and normal embryos. Comparisons were made between chick wing buds at Stages 22, 25, and 30, and mouse hind limb buds at Days 11, 12.5 and 14. At Stage 22, the normal mesenchyme in the chick displayed areas of bright fluorescence compared to a lesser intense and more evenly distributed fluorescence in talpid3. Sections of the central region from normal Stage 25 limb buds exhibited an intense fluorescence that was uniformly distributed, whereas, in talpid3 staining was more mosaic with some areas fluorescing brightly and others showing little fluorescence. At Stage 30 the staining pattern was similar between normal and talpid3, with the fluorescence being brighter in the cartilage tissue than in the surrounding soft tissue. Difference in the staining patterns of normal and brachypod limb tissue were not detectable. At Days 11 and 12.5, tissue from both genotypes displayed a very bright, uniform fluorescence. In the 14-day hind limb buds, the staining patterns were comparable to those observed in Stage 30 chick wing buds. However, under in vitro conditions conducive for the expression of the chondrogenic phenotype, differences in the intensity and extensiveness of fluorescent staining were detectable in cultures derived from 12-day normal and brachypod hind limb mesenchyme. Compared to the control, the uneven distribution of immunofluorescence in the talpid3 limb buds and the differences in intensity and extensiveness of fluorescence in the brachypod cultures support the hypothesis that cAMP is involved in limb cartilage differentiation.  相似文献   

11.
Chondrogenesis of mesenchymal cells from the frontonasal mass, mandibles and maxillae of stage-24 chick embryos has been investigated in micromass (high-density) cultures. Distinct differences in the amount and pattern of cartilage differentiation are found. In cultures of frontonasal mass cells, a central sheet of cartilage develops; in cultures of mandible cells, less cartilage differentiates and nodules form; while in cultures of maxillae cells, virtually no chondrogenesis takes place. The same patterns of cartilage are found in cultures established from stage-20 embryos. At stage 28, frontonasal mass cultures form cartilage nodules and the number of nodules in mandible cultures is markedly decreased. There are striking parallels between the chondrogenic patterns of cells from the face and limb buds in micromass culture. The frontonasal mass cell cultures of stage-20 and -24 chick embryos resemble those established from the progress zone of limb buds. The progress zone is an undifferentiated region of the limb in which positional cues operate. Cultures established from the frontonasal mass of stage-28 chick embryos and from the mandibles of all stages resemble cultures of whole limb buds. These contain a mixture of committed and uncommitted cells. Ectoderm from facial primordia locally inhibits chondrogenesis in micromass cultures and this could provide a positional cue. The differences in chondrogenic potential of cells from facial primordia may underlie the specific retinoid effects on the frontonasal mass.  相似文献   

12.
The arrival of sensory fibers in developing mouse skin has been demonstrated to coincide precisely with the initiation of nerve growth factor (NGF) synthesis in the skin (Davies et al., 1987). This temporal correlation suggested that the arrival of sensory fibers might initiate NGF synthesis in their target tissues. Here we have eliminated the sensory and motor neurons projecting to the chick leg by the removal of the neural primordia in 3-day-old embryos. The levels of mRNA NGF of intact and denervated leg skin were identical, indicating that the developmental regulation of NGF synthesis in the skin of chick embryos is independent of its innervation.  相似文献   

13.
Summary The purpose of this study was to determine whether the organizer regions of early avian and amphibian embryos could induce supernumerary (SN) wing structures to develop when they were grafted to a slit in the anterior side of stage 19–23 chick wing buds. Supernumerary digits developed in 43% of the wings that received anterior grafts of Hensen's node from stage 4–6 quail or chick embryos; in addition, 16% of the wings had rods of SN cartilage, but not recognizable SN digits. The grafted quail tissue did not contribute to the SN structures. When tissue anterior or lateral to Hensen's node or lateral pieces of the area pellucida caudal to Hensen's node were grafted to anterior slits, the wings usually developed normally. No SN structures developed when Hensen's nodes were grafted to posterior slits in chick wing buds. Wings developed normally when pieces of the dorsal lip of the blastopore from stage 10–11.5 frog (Xenopus laevis and Rana pipiens) embryos were grafted to anterior slits. No SN digits developed when other tissues that have limb-inducing activity in adult urodele amphibians [chick otic vesicle, frog (Rana pipiens) lung and kidney] or that can act as heteroinductors in neural induction (rat kidney, lung, submaxillary gland and urinary bladder; mouse liver and submaxillary gland) were grafted to anterior slits in chick wing buds. SN digits also failed to develop following preaxial grafts of chick optic vesicles. These results suggest that although the anteroposterior polarity of the chick wing bud can be influenced by factors other than the ZPA (e.g., Hensen's node, retinoids), the wing is not so labile that it can respond to a wide variety of inductively-active tissues.  相似文献   

14.
We have previously shown that removal of the apical ectodermal ridge of the third interdigital space of the chick leg bud at stages 28 and 29 is followed by the appearance of ectopic cartilage, which in the course of development gives rise to extra digits. These in vivo studies suggest that the pattern of skeletal morphogenesis in the limb depends on the inhibitory effect of the ectoderm. In the present study we tested whether zone polarizing activity (ZPA) exerted an effect on the pattern of experimental chondrogenesis in the interdigital space of the leg bud in stage 29 HH chick embryos. A small fragment of tissue from the ZPA in chick embryos in which ZPA activity was most intense was grafted onto the interdigital space in which chondrogenesis had previously been experimentally induced. No significant changes were observed in the course of differentiation of the recipient interdigital spaces with ZPA grafts, leading us to conclude that the graft failed to modify the morphogenetic fate of interdigital tissue.  相似文献   

15.
16.
The clonable cell populations of innervated and noninnervated chorio-allantoic membrane (CAM) grafts of early chick embryo leg buds have been compared. Co-grafts of stage 21 or 22 leg buds with stage 22–26 spinal cord segments exhibit a near twofold greater proportion of clonable muscle cells than noninnervated control grafts (leg bud alone). A statistically significant increase is apparent by the 8th graft day. Grafts constructed of stage 17–20 leg buds plus spinal cord and grown for up to 11 days do not exhibit a proportion of myoblasts greater than noninnervated controls. This stimulation of relative muscle cell content suggests a role of motor nerves in regulation of the single-cell population of developing skeletal muscle.  相似文献   

17.
alpha-Fetoprotein (AFP) is an oncofetal antigen believed to play an important role in normal development and carcinogenesis but very little is known about such a role. We have investigated here the role of AFP in neural retina development by selectively neutralising AFP in vitro. AFP has been immunohistochemically located in different cells and layers of the retina during its development, 4-day-old embryos being the earliest developmental stage when AFP is detected in the growing ganglion cell layer. Seven-day-retinae treated with antibodies to AFP in organ culture for 3 days did not continue to develop in the same way that they do in the egg. Neither the plexiform layers nor the buds of photoreceptor cells were observed after this culture period. In contrast, 7-day retinae cultured in the presence of non-immune serum developed in a manner similar to retinae in ovo. We present here the first evidence, derived by selectively blocking AFP in vitro with specific antibodies for an essential role of AFP in the normal development of the chick retina.  相似文献   

18.
Retinoic acid (RA) is known to have dramatic effects on limb pattern formation and has been shown to exert its effects on limbs by converting anterior limb bud cells into cells with posterior positional properties. In this study we find that dissociated posterior limb bud cells from chick and mouse embryos cultured at high density (micromass cultures) are able to stimulate the formation of supernumerary digits when grafted into developing wing buds and that the positional identity of both chick and mouse limb bud cells can be maintained for finite periods of time in vitro. Furthermore, using this assay system we have tested whether anterior cells from mouse and chick limb buds can be converted into cells with posterior identity by exposure to RA in vitro. We find that anterior limb bud cells acquire posterior properties after culture in the presence of RA.  相似文献   

19.
Isolated yolk-sacs of chick embryos secreted serum proteins when incubated in buffered chick Ringer's solution. The presence of serum transferrin, two embryo-specific alpha-globulins, and a prealbumin were demonstrated by acrylamide gel analysis. Yolk-sacs from embryos explanted at 11-13 somites (40 hr preincubation) and cultured for 48 hr secreted in addition a protein with the mobility of serum albumin. Incubation of yolk-sacs in the presence of radioactive valine indicated that serum proteins were synthesized as early as the primitive streak stage. By incubating isolated yolk-sacs and embryos from 48-hr explants in the presence of radioactive valine, the synthesis of serum proteins was found to be restricted to the yolk-sac at this stage of development. Culturing explants on various nutrient proteins as well as protein starvation medium altered the relative synthesis of several serum proteins. We have proposed that morphological and biochemical changes in embryos resulting from altered nutrition may be mediated by the proteins of the serum.  相似文献   

20.
Mesenchymal control of branching pattern in the fetal mouse lung   总被引:1,自引:0,他引:1  
The effect of mesenchyme on specialization of respiratory epithelium in the fetal mouse was tested in organ cultures. Heterologous combinations were made between respiratory and non-respiratory lung epithelia and the corresponding mesenchymes. Isolated terminal respiratory buds of fetal mouse lungs were recombined with mesenchyme from chick lung parabronchi, mouse trachea or from the avascular, non-respiratory air sacs of chick lungs. Isolated non-branching chick air sacs were combined with mouse terminal bud mesenchyme or mesenchyme from the respiratory branches of chick lungs. Air sac epithelia branched in a pattern characteristic of the chick lung when combined with chick respiratory mesenchyme and in a pattern characteristic of mouse lung when combined with mouse terminal bud mesenchyme. Mouse terminal bud epithelia did not branch with either mouse tracheal mesenchyme or chick air sac mesenchyme but branched in a chick pattern with chick parabronchial mesenchyme. Electron microscopic examination of the cultures showed that all chick air sac epithelial cultures failed to produce surfactant (lamellar bodies) even when they branched. Control cultures of mouse terminal buds contained large numbers of lamellar bodies; mesenchyme which suppressed branching reduced the number of lamellar bodies to only a few in a small proportion of the cells. Culture medium supplemented with growth factors and hormones increased the number of lamellar bodies in heterologous mouse combinations but did not bring the number to control levels. Supplemented medium had no effect on lamellar body production by chick air sac epithelium. The results indicate that branching pattern is determined by the mesenchyme surrounding the epithelial primordium. However, the capacity to synthesize surfactant is determined by the source of the epithelium; mesenchyme may control the degree of expression but not the absolute presence or absence of the differentiated condition.  相似文献   

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