Appearance of acid phosphatase activity in the developing anterior pituitary of the rat

The ultrastructure of the anterior pituitary gland in developing rats was investigated according to Gomori's method for acid phosphatase. During the earlier period of development (day 14 to 16 of gestation), enzyme activity could not be found, although nonspecific deposits of lead were observed within the nuclear envelope, ER, and Golgi cisternae. This facilitated observation of the topographical relationship of the intracellular membrane system and suggestive evidence was obtained that the nuclear envelope in the pituitary anlage is involved in formation of the Golgi apparatus.During days 17 and 18 of gestation, when granule formation begins, little acid phosphatase activity was detectable in the Golgi apparatus and in the secretory granules. A polarized distribution of acid phosphatase was first detected in the Golgi apparatus on day 20 of gestation, with a concomitant increase of lysosomes.From these findings it seems that acid phosphatase begins to contribute to the secretory process a few days after granule formation has started.     

A morphometric study of developing pancreatic acinar cells of rats during prenatal life

Summary The pancreatic acinar cells of rat embryos obtained at 15, 17, 19 and 21 days of gestation have been examined using fine-structural and morphometric techniques.Morphometric analysis demonstrates significant variations in the average volume of the cell, nucleus and cytoplasm, and the volume, surface and numerical densities of various cytoplasmic organelles during fetal life. In particular, the volume and surface densities of rER exhibit maximal values at 19 days of gestation, suggesting that secretory proteins are produced most actively at this time. Further-more, membrane continuity between the nuclear envelope and rER is frequently discernible in acinar cells, indicating that at this stage the rER is mainly derived from the nuclear envelope. Zymogen granules first appear at 17 days of gesstation. By 21 days, they occupy the greater part of the cytoplasm of the acinar cells, no polarity being seen in their distribution pattern. No direct evidence for the secretion of zymogen granules has been observed during fetal life.It therefore appears that membrane transport involved with intracellular movement of newly synthesized proteins from rER via the Golgi complex to zymogen granules occurs in one direction and lacks regulation.     

Ultrastructural morphology and relaxin immunolocalization in giant trophoblast cells of the golden hamster placenta

Relaxin immunoreactivity was previously demonstrated in three cell types within the hamster placenta; fetal primary and secondary giant trophoblast cells (GTCs) and maternal endometrial granulocytes. The objectives of the present research were to examine the ultrastructure of the GTCs and identify the intracellular relaxin storage site. Primary GTCs, first present on day 8 of gestation, were characterized by numerous polyribosomes and large heterogeneous cytoplasmic inclusions suggesting phagocytic activity. Primary and secondary GTCs from days 10, 14, and 15 of gestation contained numerous polyribosomes, mitochondria with tubular cristae, and extensive Golgi complex, and abundant rough endoplasmic reticulum, all characteristics of a cell actively involved in protein synthesis. Membrane-bound secretory granules were not present. Relaxin was immunolocalized within the Golgi complex of primary and secondary GTCs using the avidin-biotin-peroxidase method. Following differential centrifugation of hamster placental homogenates and radioimmunoassay (RIA) of subcellular fractions, the majority of relaxin immunoactivity was detected in the postmicrosomal fraction; however, the majority of relaxin immunoactivity from similarly treated pig corpora lutea was present in the mitochondrial/granule fraction. These data indicate that hamster placental relaxin is not stored in membrane-bound secretory granules but is contained within the extensive Golgi complex of the GTC.     

The development of rat alpha 2-macroglobulin. Studies in vivo and in cultured fetal rat hepatocytes

During inflammation and tissue injury, there is an increase in the plasma concentration of several proteins, the acute-phase proteins. The levels of some acute-phase proteins have been reported to increase in pregnant and tumour-bearing animals. Rat alpha 2-macroglobulin is classified as an acute-phase protein. In this study we report the expression of alpha 2-macroglobulin in various tissues during development of the rat embryo by analysis of mRNA. The tissues studied are liver, visceral yolk sac, placental labyrinth, decidua and trophoblast. In addition, the sites of alpha 2-macroglobulin expression are localized by in situ hybridization of cDNA for alpha 2-macroglobulin to mid-sagittal cryosections of rat embryos. The level of mRNA coding for alpha 2-macroglobulin is determined in the liver of rats aged between 12 days gestation and 2 days postnatal. alpha 2-Macroglobulin mRNA is first observed in fetal liver from 12 days of gestation and increases after day 17, reaching a maximum on day 20. At this time the level is greater than that found in the liver of an adult rat suffering from acute inflammation. alpha 2-Macroglobulin mRNA is detectable in the yolk sac, placental labyrinth, trophoblast tissue and decidua. In the decidua the alpha 2-macroglobulin message is first detected at 8 days of gestation, with high levels observed from 10 to 21 days of gestation. These observations are supported by in situ hybridization studies. Experiments using cultured hepatocytes show that cells derived from rats at 15 days and 19 days of gestation are capable of synthesizing and secreting alpha 2-macroglobulin. Both synthesis and secretion can be induced by the addition of dexamethasone to the culture medium.     

Onset of the constrictive effect of indomethacin on the ductus arteriosus in fetal rats.

The time of onset of the constrictive effect of indomethacin on the ductus arteriosus (DA) in fetal rats was assessed by measurement of the caliber of the DA after maternal treatment with indomethacin on days 19-21 of gestation. The day following overnight mating was regarded as day 0 of gestation. Observation was performed by direct exposure of the DA by hand shaving of intact frozen fetuses. On days 20 and 21, the DA was significantly constricted 3 h after maternal treatment with 1 mg/kg of indomethacin. When the DA was examined at 19 1/2 and 19 2/3 days of gestation (3 h after indomethacin exposure), it was significantly constricted at 19 2/3 days but not at 19 1/2 days. Higher doses of indomethacin (10 and 100 mg/kg) induced a significant constriction of the DA at day 19 1/2, but not at the beginning of the same day (1.00 a.m.). These results suggest that the onset of the susceptibility of the DA to the constrictive effect of indomethacin occurs in the first half of day 19 of gestation.     

Experimental oligohydramnios decreases collagen in hypoplastic fetal rat lungs

Neonates with premature rupture of the membrane and oligohydramnios have an increased risk of acute respiratory morbidity. The aims of this study are to investigate the effects of experimental oligohydramnios on transforming growth factor (TGF)-beta1 and connective tissue growth factor (CTGF) expressions and collagen level in fetal rat lungs. On day 16 of gestation, we anesthetized timed pregnant Sprague-Dawley dams, punctured the uterine wall and fetal membranes of each amniotic sac which resulted in oligohydramnios. Fetuses in the opposite uterine horn served as controls. On days 19 and 21 of gestation, fetuses were delivered by cesarean section. Rats exposed to oligohydramnios exhibited significantly lower lung weight/body weight ratios on days 19 and 21 of gestation than did the control rats. Lung type I collagen and TGF-beta1 mRNA expressions and lung collagen levels were significantly decreased in rats exposed to oligohydramnios on days 19 and 21 of gestation. Type I collagen and inhibitors of metalloproteinase-1 (TIMP-1) proteins were decreased and matrix metalloproteinase-1 (MMP-1) was increased in oligohydramnios-exposed rats on days 19 and 21 of gestation. CTGF mRNA expressions were comparable between control and oligohydramnios-exposed rats on days 19 and 21 of gestation. These data suggest that downregulation of collagen might be involved in the pathogenesis of oligohydramnios-induced respiratory morbidity.     

Temporal-spatial expression of ANG-(1-7) and angiotensin-converting enzyme 2 in the kidney of normal and hypertensive pregnant rats

We recently demonstrated that renin-angiotensin system (RAS) overactivity during late gestation in rats is associated with increased kidney and urine levels of ANG-(1-7) and enhanced kidney immunostaining of ANG-(1-7) and angiotensin-converting enzyme 2 (ACE2). To understand the temporal-spatial changes in normal and hypertensive pregnancies, the renal distribution of ANG-(1-7) and ACE2 in association with kidney angiotensin peptides and ACE2 activity was examined in virgin, normal pregnant (NP; gestational days 5, 15, and 19) and reduced uterine perfusion pressure (RUPP at day 19) pregnant Sprague-Dawley rats. ANG-(1-7) and ACE2 immunocytochemical staining increased 1.8- and 1.9-fold and 1.7- and 1.8-fold, respectively, at days 15 and 19 of NP, compared with virgin rats. ANG-(1-7) and ANG II concentrations were increased in the kidney at 19 days of gestation. ACE2 activity measured using a fluorescent substrate was increased 1.9- and 1.9-fold in the cortex and 1.9- and 1.8-fold in the medulla at days 15 and 19 of NP. In the RUPP animals, ANG-(1-7) immunostaining and concentration were significantly decreased compared with 19-day NP rats. ACE2 activity was unchanged in the cortex and medulla of RUPP rats. In conclusion, during NP, the concurrent changes of ACE2 and ANG-(1-7) suggest that ACE2 plays an important role in regulating the renal levels of ANG-(1-7) at mid to late gestation. However, the decrease in renal ANG-(1-7) content in the absence of a concomitant decrease in ACE2 implicates the participation of other ANG-(1-7) forming or degrading enzymes during hypertensive pregnancy.     

Liporotein particles in the jejunal mucosa of fetal rats.

The jejunal mucosa of fetal rats contains particles of the same size, electron density and distribution as particles identified by others in adult jejunum as very low density lipoprotein particles. These particles are first seen in 19-day fetuses at which time the jejunal mucosa is still relatively undifferentiated and formation of villi is just beginning. They become progressively more abundant during the last 3 days of gestation as differentiation proceeds and are seen in virtually all absorptive cells in the apical third of jejunal villi of fetuses at term.     

Development of the taste buds in rat embryogenesis

Electron microscopic studies have been made on the developing taste buds in fungiform and vallate papillae of prenatal rats. Three stages of differentiation of these buds are described. The first stage is characterized by presence of the nervous fibers in the connective tissue of the papillae and dense granules of various size, as well as dense-cored vesicles (500-700 A in diameter) in the basal parts of some epithelial cells at the top of the papillae (16-17th days of gestation). The second stage is characterized by nerve processes entering the epithelium and by formation of afferent synaptic contacts between the differentiating epithelial cells and the nervous fibers (19th day of gestation). At the third stage, the cluster of differentiating epithelial cells attains a form which is similar to mature taste buds (21-22nd days of gestation). Thus, to the birthday of rats, differentiation of the basal parts of the taste buds takes place, whereas the apical parts of the taste buds remain undeveloped and do not communicate with the oral cavity. Peculiarities of fine structure of differentiating epithelial cells at the three stages are discussed.     

Ontogeny of the hypothalamo-neurohypophysial system in rats--an immunohistochemical study.

In fetal rats neurophysin has been visualized immunohistochemically first at the 16th gestation day in perikaryons of the supraoptic nucleus, followed by the median eminence and the neurohypophysis at the 17th day, and the paraventricular neurons at the 19th day. The external zone of the median eminence contains abundantly immunoreactive fibres at the first days post partum. In the perikaryons of the suprachiasmatic nucleus immunoreactive material appears after the 3rd day of postnatal development.     

Fetal lung development in streptozotocin-induced experimental diabetes: cytidylyl transferase activity, disaturated phosphatidyl choline and glycogen levels

The influence of streptozotocin-induced maternal diabetes on choline phosphate cytidylyltransferase activity (EC.2.7.7.15) glycogen content and disaturated phosphatidyl choline in fetal lung was studied between 19 and 21 days of gestation. In this experimental model, induction of maternal diabetes two days after mating, resulted in fetal hyperglycemia and hyperinsulinemia; the fetuses were neither macrosomic nor showed any evidence of fetal growth retardation. The glycogen content of lungs on days 19 and 20, but not on day 21 of gestation was significantly higher in fetuses of diabetic rats than in controls. The pulmonary cytosol cytidylyltransferase activity was similar in the two groups of fetuses on days 19 and 20. On day 21 of gestation the enzyme activity was significantly lower in fetuses of diabetic rats than in those of controls. On day 21 of gestation and in newborns of diabetic mothers, although there was no difference in the total pulmonary phospholipids, the levels of disaturated phosphatidyl cholines were significantly lower than in controls.     

Effects of prolonged maternal fast on the pancreas of 18–21-day-old foetal rats

Summary After maternal fasting for 72 h the pancreatic cells of 18-day-old foetal rats show a conspicuous enrichment in secretory material, with an increase of pancreatic insulin concentration and a marked development of the rough endoplasmic reticulum and the Golgi apparatus.The morphometric analysis shows that the intracytoplasmic migration of the secretory granules is inhibited, principally inside the cell web. Consequently the number of secretory granules fused with plasma membrane decreases and this is associated with a decreased foetal plasma insulin.The difference in the ultrastructural aspect of the cells of foetuses from fasting mothers and of foetuses from fed mothers is less conspicuous at 19 days of gestation and progressively disappears at 20 and 21 days.The modifications in ultrastructural aspect and in functional state are discussed.     

Development of the small intestine in the hypophysectomized rat. II. Influence of cortisone, thyroxine, growth hormone, and prolactin.

The intestinal deficiencies caused by hypophysectomy of rats at 6 days of age can be repaired to varying degrees by thyroxine or cortisone but not by growth hormone or prolactin. Administration of daily doses of thyroxine alone from 19–22 days raises duodenal alkaline phosphatase activity to normal levels at 24 days; it has a strong effect on jejunal sucrase and maltase, although these activities remain below those of controls. Thyroxine causes a marked increase in rough endoplasmic reticulum and restores the Golgi complexes to their normal appearance. It also elicits an intensification of periodic acid-Schiff (PAS) stainability of the brush border. Cortisone acetate given from 19 to 22 days elevates sucrase and maltase to normal levels but does not fully restore phosphatase activity. Like thyroxine, cortisone causes intensification of PAS staining of the brush border and also increases rough endoplasmic reticulum. It seems to stimulate Golgi activity, but results in the appearance of a variety of abnormal forms. The defects in Golgi configuration, brush border carbohydrate content, and activity of glycoprotein enzymes that are bound to the brush border may all reflect impaired glycosylation in the hypophyseoprivic state; the results of thyroxine or cortisone administration suggest that both hormones may affect glycosylation but in different ways.     

Transformation of erythrocytes and their ultrastructure with respect to aging

Transformation and ultrastructure of erythrocytes have been investigated in 58 white non-inbred rats on the 1st, 2nd, 3d days after birth and at the age of 1.5, 3, 8, 20 months. The transformation index of the erythrocytes drops by the 8th month of life and further it rises in old animals. In newborn rats echino-poikiloid forms predominate; they are mainly presented as reticulocytes with remnants of nuclei, mitochondria and other organells. During first three days of life cells of the erythroid line actively free themselves from the nucleus by means of its pyknosis and chromatinolysis. In newborn rats erythrocytes have folds of plasmolemma of linear and spotted form on their surface; their number sharply decreases in mature animals. The least changes in form and ultrastructure of erythrocytes are noticed in 3-8-month-old animals.     

Cyclic localization change of Golgi apparatus in Sertoli cells induced by mature spermatids in rats

Previously we reported that the intracellular localization of the Golgi apparatus of rat Sertoli cells changes during the seminiferous epithelial cycle, and that the cyclic changes seem to be correlated to specific generations of germ cells. To ascertain which generations of germ cells are responsible for the cyclic changes, we determined the relative volume of the Golgi apparatus within the basal, mid, and apical cytoplasm of Sertoli cells in testes with and without mature spermatids. In normal adult rats, the Golgi apparatus was usually localized exclusively in the basal cytoplasm, whereas at stages VII-IX it increased remarkably in mid and apical cytoplasm, with a concomitant decrease in the basal cytoplasm. In young adult testes without spermatids at steps 15-19 of spermiogenesis (2nd layer spermatids), the Golgi apparatus was localized in the basal cytoplasm throughout the seminiferous epithelial cycle. Orchiopexy maintained for 35 days following 60 days of cryptorchidism allowed germ cells to regenerate to spermatids at steps 1-14 of sperminogenesis (1st layer spermatids), but failed to change the intracellular localization of the Golgi apparatus in Sertoli cells. At 50 days after orchiopexy, when all generations of germ cells appeared in the tubules, the cyclic changes in localization of the Golgi apparatus were restored similar to those in normal adult testes. These findings indicate that the cyclic change in localization of the Golgi apparatus in Sertoli cells is evoked by the presence of 2nd layer spermatids.     

Cytodifferentiation of the acinar cells of the rat submandibular gland

The present study examines the cytodifferentiation of the acinar exocrine cells of the rat submandibular gland (SMG) at the ultrastructural level. Submandibular glands from rats at 14 days of gestation through 12 weeks postpartum were examined. The acinar cells of the SMG begin to develop at 15–16 days of gestation and are not fully differentiated until 3–4 weeks after birth. The earliest cells show multiple Golgi zones and a few strands of widely dilated rough endoplasmic reticulum (rer). Subsequently, the cells show an orderly sequence of organelle changes and rearrangement which leads to fully differentiated exocrine cells. A series of five morphologically distinct secretory granules is observed during differentiation and these granules serve as markers of the functional maturity of the cells. Attention is given in this study to the development of the apical-basal polarity of functional organelles typically seen in exocrine cells and its relationship to secretory granule production. The findings of the current study are compared with similar reports in the literature on the developing pancreas and parotid gland of the rat. It is concluded that different developmental pathways are followed to attain a similar functional capacity in the three organs.     

Role of nerve and muscle factors in the development of rat muscle spindles

The soleus muscles of fetal rats were examined by electron microscopy to determine whether the early differentiation of muscle spindles is dependent upon sensory innervation, motor innervation, or both. Simple unencapsulated afferent-muscle contacts were observed on the primary myotubes at 17 and 18 days of gestation. Spindles, encapsulations of muscle fibers innervated by afferents, could be recognized early on day 18 of gestation. The full complement of spindles in the soleus muscle was present at day 19, in the region of the neuromuscular hilum. More afferents innervated spindles at days 18 and 19 of gestation than at subsequent developmental stages, or in adult rats; hence, competition for available myotubes may exist among afferents early in development. Some of the myotubes that gave rise to the first intrafusal (bag2) fiber had been innervated by skeletomotor (alpha) axons prior to their incorporation into spindles. However, encapsulated intrafusal fibers received no motor innervation until fusimotor (gamma) axons innervated spindles 3 days after the arrival of afferents and formation of spindles, at day 20. The second (bag1) intrafusal fiber was already formed when gamma axons arrived. Thus, the assembly of bag1 and bag2 intrafusal fibers occurs in the presence of sensory but not gamma motor innervation. However, transient innervation of future bag2 fibers by alpha axons suggests that both sensory and alpha motor neurons may influence the initial stages of bag2 fiber assembly. The confinement of nascent spindles to a localized region of the developing muscle and the limited number of spindles in developing muscles in spite of an abundance of afferents raise the possibility that afferents interact with a special population of undifferentiated myotubes to form intrafusal fibers.     

Neuro-epithelial bodies in organ cultures of fetal rabbit lungs

Lung explants from fetal rabbit at the late glandular stage of development (20 days' gestation) and near term (31 days' gestation) were maintained in organ culture for up to 22 days. They were studied by light and electron microscopy to determine whether neuro-epithelial bodies (NEB) of the lung retain structural integrity in vitro. Cultured NEB retained argyrophilia and specific amine fluorescence after formaldehyde condensation. Their ultrastructural morphology showed some differences from that of uncultured NEB: the terminal axons had degenerated and the secretory granules (dense-core vesicles, DCV) were slightly larger, more pleomorphic, more electron-dense, and redistributed throughout the cytoplasm rather than being confined chiefly to the basal regions. These changes, together with hypertrophy of Golgi zones, suggest increased synthesis and storage of secretory products in the DCV during culture. In NEB from near-term explants cultured for 7 days and incubated with reserpine, the core of DCV decreased in size and electron-density and became finely granular, a sign of amine release. Ca++ ionophore No. A-23187, also, induced changes in the ultrastructure of DCV, suggesting that the secretory process in lung neuro-endocrine cells, as in other secretory cells, is Ca++-dependent.     

Ontogeny of glucagon-like immunoreactive peptides in rat intestine

The ontogeny of the intestinal glucagon-like peptides was investigated in rats between 16 days of gestation and 4 postnatal days. The intestinal content of glucagon-like immunoreactive (GLI) peptides increased from 0.09 +/- 0.02 pmol/nmol protein at 16-17 days to plateau at 2.8 +/- 0.4 pmol/nmol protein by 20 days of gestation (P less than 0.001). The apparent immunoreactive glucagon (IRGa) content of the gut ranged from 0.03 +/- 0.01 to 0.08 +/- 0.01 pmol/nmol protein. No developmental trends in IRGa peptide content were observed. Following gel filtration of intestines extracted from rats of 18 days of gestation or greater, two main GLI peptides were detected with apparent mol. wts. of 11-12 and 5-6 kDa. Significant peaks of GLI peptides were not detected following gel filtration of intestines extracted from 16- or 17-day fetuses, nor were peaks of IRGa found at any age. In conclusion, the fetal rat intestine undergoes maturational development between 17 and 19 days of gestation to produce the GLI peptides.