Origin of cholinesterase-containing follicle cells and parafollicular cells of the developing thyroid gland in the rat

Summary The location of cholinesterase-containing cells in the thyroid gland and its precursors (median thyroid primordium and ultimobranchial bodies) has been investigated light-microscopically in rat embryos from the 13 to the 20th day of gestation.From the 13th to the 16th day of gestation the median thyroid primordium and the ultimobranchial bodies are distinct from each other. Cholinesterase-containing cells are found in both. On the 17th–18th day of gestation the reacting ultimobranchial cells spread into the median thyroid primordium where they take up a parafollicular position. At the 19th–20th day of gestation the distribution of cholinesterase-containing cells is as in the adult rat. The results seem to show that cholinesterase-containing follicular cells derive from the median thyroid primordium and cholinesterase-containing parafollicular cells from the ultimobranchial body.     

Nucleoside phosphatase (ATPase) activity in myocardial cells of rat embryos. An electron-microscopic study.

Timed pregnancies were obtained in Sprague-Dawley rats, and cardiac tissues from embryos of days 10, 11, 12, 13, 14 and from newborn rats were used for the cytochemical localization of ATPase activity utilizing a lead phosphate precipitation procedure. Following incubation with ATP as the substrate, granular deposits of reaction product are discernible on the cell membranes of the embryonic myocardium. There is a noticeable decrease in the intensity of reaction product as visualized in the electron micrographs from the 10th day of gestation to the 14th day. No granular reaction product is recognizable in myofibrils, mitochondria or other organelles in the cytoplasm. It appears that there is a selective deposition of the reaction product on the cell membranes or structures derived from it. The intense ATPase activity seen on 10th and 11th days seems to be correlated with the initial appearance of myofilaments and fibrils in the myocardial cells.     

Electron microscopy of neurosecretory nerve fibres in the neural lobe of the embryonic mouse

Summary Nerve fibres of the neurosecretory hypothalamo-hypophyseal tract were studied in embryonic C3H mouse neural lobes; at least four glands at each gestational day 15–19 were examined.Single axons and small bundles of fibres are visible at gestational days 15 and 16. By day 17 large fibre bundles penetrate between glial cells. They increase in number during the next two days.Electron-lucent and electron-dense vesicles are seen in the fibres of the 15th and 16th gestational days. In the 17–19 day-old embryos development is characterized by a successive rise in the number of the two types of vesicles. The mean diameter of the electron-lucent vesicles is approximately unchanged in all the stages examined (50 nm). The electron-dense vesicles increase in size from approximately 80–90 nm at days 15–16 to 140 nm at the 19th gestational day.By day 19 contacts between neurosecretory fibre terminals and the outer basement membrane of internal and peripheral capillaries are occasionally observed. The possibly adrenergic nature of a few terminals contacting peripheral vascular structures in 17 and 18 day-old embryos is suggested.This investigation was supported by grant No. 2180-020 from the Swedish Natural Science Research Council. The skilful technical assistance of Mrs. Ulla Wennerberg is gratefully acknowledged.     

Hypothalamic influence on differentiation of the immunoreactive ACTH beta-LPH, alpha- and beta-endorphin containing cells in adenohypophysial primordia of rat fetus in organ culture (author's transl)]

Adenohypophysial primordia were isolated in rat fetuses from day 12.5 to day 15.5 of gestation. The organ culture employed for maintenance of the primordia was made up according to Watanabe et al. (1973). The fixation of primordia in Bouin Hollande's solution was performed after 9, 8, 7 or 6 days of culture when the normal duration of pregnancy was achieved. The cultivated primordia were immunologically studied using different antisera: anti-alpha(17-39)ACTH, anti-beta(1-24)ACTH, anti-beta-LPH, anti-alpha and anti-beta-endorphins, with immunoperoxidase or immunofluorescence techniques, including control experiments of the specificity of the antisera. A similar study was performed on pituitaries removed from normal rat fetuses from day 16.5 of gestation and each day up to birth, and fixated immediately. In vivo the first cells reacting with all the antisera used in this study were observed on day 16.5 of gestation; their number increased during gestation (Fig. 1 A, B and C). Immunoreactive cells with the different antisera could be detected in primordia isolated on day 12.5 of gestation after 9 days of culture. Numerous groups of cells were observed in primordia of older fetuses (Fig. 2 A and B). These data indicate that the corticotropic cells in rat fetuses could start to be differentiated without stimuli from the hypothalamus since primordia were isolated before the appearance of this cell type in normal rat fetuses and before the differentiation of the hypothalamus. The presence of ACTH and other peptides such as beta-LPH or beta-endorphin would support the hypothesis of a common precursor in this cell type existing early in gestation. Similar results were obtained in human fetuses.     

Comparative studies of embryotoxic action of ethylenethiourea in rat whole embryo and embryonic cell culture

The effects of ethylenethiourea (ETU) were investigated using rat (Wistar-imamichi) embryos cultured from days 11 to 13 of gestation or cultured rat embryonic cells extracted on day 11. Malformations in cultured embryos at the concentration of 30 micrograms/ml of ETU were found in the head and tail, which were severely affected, as well as the limb and face. All embryos exposed to 150 and 300 micrograms/ml of ETU had malformed heads, tails, limbs, and facial configurations. Protein contents of the cultured embryos were decreased dose-dependently at the concentrations ranging from 30 to 300 micrograms/ml. In the histological studies of the cultured embryos with ETU, thinner neuroepithelium in head was observed. In the embryonic cells extracted on day 11 of gestation, ETU dose-dependently inhibited the differentiation of midbrain (MB) cells into neurons and that of limb bud (LB) cells into chondrocytes at the concentrations ranging from 30 to 600 micrograms/ml of ETU. The concentrations of ETU that inhibited the production of differentiated foci by 50% (IC50) were 170 micrograms/ml in LB cells of day 11, and greater than 600 micrograms/ml in LB cells on day 12 of development. Therefore, differentiation of MB cells was more sensitive to ETU than the differentiation of LB cells. These results indicated that there was a reasonable correlation of ETU induced changes in cultured whole embryos and embryonic cells.     

Immunohistochemical evidence of Muc1 expression during rat embryonic development

During embryonic development, studies on mouse and human embryos have established that Muc1/MUC1 expression coincides with the onset of epithelial sheet and glandular formation. This study aimed therefore at evaluating the temporal and spatial expression of Muc1 at different stages of rat development. In this experiment, 80 animals were included: 64 rat foetuses at 13, 14, 15, 16, 17, 18, 19 and 20 days of gestation from pregnant females (WKAH/Hok), 8 embryos each stage. Standard immunohistochemistry was performed using anti-MUC1 cytoplasmic tail polyclonal antibody (CT33). The reaction was considered positive when more than 5% of the cells were stained; reaction patterns were: L = linear, membrane, C = cytoplasmic and M = mixed; nuclear staining was also recorded. Intensity was graded as negative (-), low (+), moderate (++) and strong (+++). Muc1 expression was observed with a low intensity on 13th day (13 d) in the stomach, lung and kidney; at 14 d, small intestine and pancreas were also reactive; at 16 d, liver and esophagus and at 18 d, trachea and salivary glands. During the development, intensity increased while the pattern of expression changed: at the first days of gestation, it was predominantly linear and apical while during further development an increase in cytoplasmic expression was observed. Trachea, stomach, kidney and lung epithelia were the more reactive tissues. In specimens belonging to neonates and adults, all tissues analyzed showed similar Muc1 expression. The findings of this study assess that Muc1 is highly expressed in the epithelial rat embryonic development.     

Requirement of serum components for the preservation of primordial germ cells in testis cords during early stages of testicular differentiation in vitro in the mouse

Mouse gonadal primordia were isolated from embryos on the 11th day of gestation and cultured in vitro. They developed into either testes or ovaries after 7 days of culture in Eagle's minimum essential medium (MEM) supplemented with horse serum, whereas they did not differentiate in MEM alone. We studied how serum components are required for testicular development in vitro. When gonadal primordia were cultured in MEM alone for the first 1-3 days and subsequently in MEM supplemented with serum, testis cords developed while germ cells disappeared or only a few remained in the testis cords. In contrast, when serum was present in the medium during the first day of culture and omitted thereafter, germ cells were retained within testis cords. These results suggested that some serum component(s) is specifically required by germ cells independent of testis cord organization. Of more than 10 serum components tested, low and very low density lipoprotein fractions increased the number of germ cells in testicular explants.     

A histoquantitative study of the effect of maternal hypervitaminosis A on the differentiation of the foetal mouse skin.

The skin of albino mouse foetuses aged 13, 15, 17, 19 and 21 days was studied histologically and quantitatively. The skin of foetuses aged 21 days after maternal hypervitaminosis A, was compared with that of 21 days controls. On the 13th day, the epidermis consisted of one layer of cuboidal cells. The stratum intermedium appeared on the 15th day, the stratum granulosum on the 19th day and the stratum corneum on the 21st day of intrauterine life. The quantitative study showed that although the epidermis increased more rapidly in thickness in the interval between the 13th and 17th day than in the subsequent 4 days, yet in the latter period differentiation of the stratum granulosum and corneum took place. On the other hand, the rate of proliferation of the epithelial cells concerned in the follicle formation was more rapid in the last two days of intrauterine life than in any previous prenatal stage. After maternal hypervitaminosis A, the whole thickness of the epidermis was reduced by 50% and the dermis showed an oedematous appearance. The hair follicle primordia showed a decreased volume.     

Teratogenic effects of chlorambucil on in vivo and in vitro organogenesis in mice.

Pregnant ICR/DUB mice were each given a single oral injection of chlorambucil (14.2 or 20 mg/kg) on the 10th, 11th, 12th, or 13th day of gestation (plug day = 1st day). Fetuses examined on the 18th day were decreased in weight and had tail, cranial, and limb defects. They type and frequency of malformations differed according to the dosage and day of treatment. Limb defects resulted from treatment on the 11th or 12th days of gestation and tail defects from treatment on all days. Control limb buds from 12th day embryos cultured for 6 days in serum-supplemented BGJ medium containing 0.5-2 mug/ml chlorambucil were retarded in development and had cartilage abnormalities. The extent of the deformities was dose related. Limb buds were also taken from embryos 24 h after in vivo exposure to teratogenic doses of chlorambucil and cultured in control medium. After 6 days in culture these limbs also had growth impairment and cartilage abnormalities. The defects in limbs exposed in vitro were similar to those in limbs exposed in vivo.     

Haemopoietic stem cells during development of mouse embryo.

Haemopoiesis in mammals takes place in yolk-sac and in mouse it can be detected on the 7th day of gestation. Erythropoietin (EPO) responsive cells can be detected from 7th day onwards. However, the cells committed to the myeloid lineage which can respond to the haemopoietic growth factor (viz. granulocyte macrophage colony stimulating factor; GM-CSF) can be demonstrated only on 10th day of gestation. At the same time, the 12-day spleen colony forming cells i.e. the late colony forming unit spleen (CFU-s) which are multipotent stem cells can also be detected. Data suggest that the stem cells seen in the embryo from 7-10 days of gestation may be a primitive population confined only to the yolk-sac. Liver haemopoiesis which begins in the liver of 13-day embryos is due to primitive haemopoietic pluripotent stem cells, arising de novo in the embryo and not in the yolk-sac, since no primitive pluripotent stem cells capable of repopulating lethally irradiated bone-marrow can be detected in the yolk-sac.     

A new method for early in utero experiments in rat embryos: endoscopy

The merits of in vitro and in vivo techniques for experiments in rat embryos are discussed in this paper. Time limitation of culture, which is only feasible during 48 hours, up to day 13 post coitum (p.c.) is a major draw-back in the in vitro whole embryo culture. With the in utero operation technique used to date, no controlled experiments can be performed in rat embryos of 15 days p.c. and younger due to the high mortality of the embryos. Therefore a new technique has been developed, in which successful in utero operations can be performed as early as day 12 of gestation. Controlled micro-injection with the help of an endoscope can be given in any desired embryonic organ or structure. This paper describes this technique. Endoscopy in rat embryos of 12 days p.c. onwards has proven to be a new facility for in utero operations.     

Stage-specific response of the mesenchyme to excess vitamin A in developing rat facial processes

The effects of excess retinol (vitamin A alcohol) on facial process formation were examined in cultured rat embryos. The embryos were explanted at day 11 of gestation (plug day = 0) and cultured for 72 hr in rat serum containing an additional 1 or 10 micrograms/ml retinol. The reduction of outgrowth in the facial processes was observed in 1 microgram/ml retinol-treated embryos, and this type of malformation was found to be more severe in 10 micrograms/ml retinol-treated embryos. Histological findings of 10 micrograms/ml retinol-treated embryos at the 50-somite stage showed that the nasal epithelium was developed but folded. In the mesenchyme, there were necrotic cells. Thymidine incorporation by mesenchymal cells in the facial processes was also determined. At the 50-somite stage, the uptake was decreased to 66.4% of control value at 1 microgram/ml retinol, whereas the addition of the same dose of retinol did not cause the inhibition at the 36-, 40-, and 42-somite stages. The uptake at the 50-somite stage was decreased to 23.0% as a result of the 10 micrograms/ml retinol treatment. These results show that the response of the facial mesenchyme to excess retinol is dependent on the development stage and the critical stage of the facial mesenchyme for excess retinol in cultured rat embryos is the 42-somite stage.     

Cyto- and synaptogenesis in the arcuate nucleus of the rat hypothalamus during fetal and early postnatal life

Summary Morphogenesis of the arcuate nucleus of the rat from the 15th fetal day to the 6th postnatal day was investigated light and electron microscopically. The arcuate neurons exhibit a gradual development after the 15th fetal day. All cytoplasmic constituents are present in these nerve cells already during the last days of gestation. Nevertheless, they are not fully differentiated at birth. The first synapse-like structures (presynapses) were observed in 17 day-old, the first synapses in 18 day-old fetuses. During the early postnatal period the number of presynapses decreases, but at the same time there is a gradual increase in the number of the relatively mature synapses. This process starts already during the last days of prenatal life. Although all structural elements of the arcuate nucleus of the adult rat appear to be present at birth, the extent of the neuropil area and the number of the presynapses indicate that the arcuate nucleus is still in a fairly undeveloped stage during the first postnatal days.     

Ultrastructure of the sympathetic paravertebral ganglia in rat embryogenesis. I. Cytogenesis and cell differentiation

The development of sympathetic paravertebral ganglia was studied in rat embryos by electron microscopy. The main attention was paid to the initial stages of ganglion formation. The first aggregations of presumptive ganglionic cells were observed in 12 day-old embryos. Single preganglionic terminals appeared in contact with cell bodies sometime later. The appearance of large granular vesicles in the cytoplasm is the first ultrastructural feature of the beginning of neural differentiation of cells. Small granulated cells observed from the 12th day of gestation and neuroblasts differentiate earlier than glial cells. In the ganglia of late fetuses nerve cells varied in the electron density of the cytoplasm, in the degree of distention of rough endoplasmic reticulum and in vacuolization of mitochondria.     

Effect of ethanol on the cerebellar cortex of the chick embryo

The effect of ethanol on the cerebellar cortex of chick embryos was studied in semi-thin sections of material prepared for electron microscopy. The embryos were injected with ethanol on the 3rd or 6th day of incubation and observed until days 13, 15, 17 and 21 of development. A decrease was seen in the number of germinal cells generated, together with defects in neuronal migration and the existence of a lower quantity of cells due to a generalised process of cell death. At the same time, a progressive neuronal degeneration was observed until the 15th day of incubation, the tissue recovering progressively on days 17 and 21. On the other hand, the embryos treated with ethanol on the 3rd day were less affected than those injected on the 6th day.     

Development and loss of androgen responsiveness in the embryonic rudiment of the mouse mammary gland

The androgen-responsive phase in the development of the mammary gland was determined by exposing rudiments of various developmental stages to testosterone in vitro. Although testosterone causes destruction of the mammary epithelium in 14-day male fetuses, it failed to prevent formation of mammary buds in explanted 11-day skin. It was found that mammary rudiments become responsive to androgens only late in Day 13 of gestation, and that they are no longer responsive on Day 15 and later. Both acquisition and loss of androgen responsiveness do occur on time in explanted glands, indicating intrinsic developmental changes in the rudiment. The experiments and their results are schematically summarized in Fig. 2.     

Teratogenic effects of excess glucose on head-fold rat embryos in culture.

Rat embryos explanted at nine and one-half days of gestation (early head-fold stages) were cultured for 48 hours in rotating bottles containing rat serum and a gas phase. Addition of 12-15 mg/ml of D-glucose to the culture medium resulted in severe abnormalities and retarded development in a high proportion of embryos, whether or not the osmolarity increase brought about by the addition of glucose was corrected. The raised osmolarity, however, increased the frequency and severity of malformations observed. L-glucose produced no abnormalities, though embryonic development was retarded.     

Normal prenatal growth of the golden hamster (author's transl)]

In the golden hamster (Mesocricetus auratus) the gestation period and the loculus size of the gravid uterus from day 6 to day 15.5 (parturition) of gestation as well as the weight, width (umbilcus-black) and lenght (crown-rump) of the embryos from day 9 to the parturition were measured. The results obtained were as follows: 1. The gestation period of the golden hamster was 15 days and 15 +/- 3 hours post coitum. 2. The average values of the length (in the direction of uterine long axis) and width (mesome-trial-antimesometrial axis) in the loculus of the gravid uterus were 0.39 cm and 0.56 cm at 6 days, and 2.42 cm and 1.74 cm at 15.5 days (partiurition), respectively. 3. The average values of the crown-rump measurements, width (umblicus-back) and weight in the hamster embryos were 0.42 cm, 0.24 cm and 0.026 g at 9 days, and 2.40 cm, 1.39 cm and 2.272 g at 15.5 days (parturition), respectively. 4. The loculus size of the gravid uterus, the crown-rump measurements and width (umblicus-back) of the embryos in the period from day 13 to day 14 of gestation were markedly increased in comparison with any other period, and the weight increase of the embryos occurred rapidly from day 13 of gestation. 5. The shape of the loculus during the gestation was ovoid (mesometrial-antimesometrial axis) until the end of 10 days converged to the spherical form and thereafter changed gradually to the ovoid from in the direction of uterine long axis contraly to the previous days.     

Epithelial induction of stromal tenascin in the mouse mammary gland: from embryogenesis to carcinogenesis

The distribution of the extracellular matrix glycoprotein tenascin was studied by immunofluorescence in the developmental history of the mouse mammary gland from embryogenesis to carcinogenesis. Tenascin appeared only in the mesenchyme immediately surrounding the epithelia just starting morphogenesis, that is, in embryonic mammary glands from 13th to 16th day of gestation, in mammary endbuds which are a characteristic structure starting development during maturation of the mammary gland, and in the stroma of malignant mammary tumors. However, tenascin was absent in the elongating ducts of embryonic, adult, proliferating, and involuting mammary glands and preneoplastic hyperplastic alveolar nodules. The transplantation of embryonic submandibular mesenchyme into adult mammary glands induces the development of duct-alveolus nodules, which morphologically resemble developing endbuds. Tenascin reappeared around those nodules during the initial stages of their development. Tenascin expression could be induced experimentally in several ways. First, tenascin was detected at the site where the first mammary tumor cells GMT-L metastasized. Second, tenascin was detected in the connective tissue in the tumors derived from the injected C3H mammary tumor cell line CMT315 into Balb/c nude mouse. Cross-strain marker anti-CSA antiserum clearly showed that the tenascin-positive fibroblasts were of Balb/c origin. Third, when embryonic mammary epithelium was explanted on to embryonic mammary fat pad cultures, the mesenchymal cells condensed immediately surrounding the epithelium. Tenascin was detected in these condensed cells. From these three observations we conclude that both embryonic and neoplastic epithelium induced tenascin synthesis in their surrounding mesenchyme.