Toxicological Parameters of a Formulation Containing Cinnamaldehyde for Use in Treatment of Oral Fungal Infections: An In Vivo Study

OBJECTIVE

We aimed to define the safety and toxicity of both isolated and embedded cinnamaldehyde using a pharmaceutical formulation for the treatment of oral fungal infections in an in vivo study.

MATERIALS AND METHODS

Acute toxicity was assessed in studies with Galleria mellonella larvae and Danio rerio embryos (zebrafish), and genotoxicity was assessed in a mouse model. The pharmaceutical formulation (orabase ointment) containing cinnamaldehyde was evaluated for verification of both in vitro antifungal activity and toxicity in keratinized oral rat mucosa.

RESULTS

In Galleria mellonella larvae, cinnamaldehyde was not toxic up to the highest dose tested (20 mg/kg) and presented no genotoxicity up to the dose of 4 mg/kg in the model using mice. However, it was found to be toxic in zebrafish embryos up to a concentration of 0.035 μg/mL; LC50 0.311; EC50 0.097 (egg hatching delay); and 0.105 (Pericardial edema). In the orabase antifungal susceptibility test, cinnamaldehyde exhibited activity in concentrations greater than 200 μg/mL. As for safety in the animal model with rats, the orabase ointment proved to be safe for use on keratinized mucosa up to the maximum concentration tested (700 μg/mL).

CONCLUSIONS

At the concentrations tested, cinnamaldehyde was not toxic in vertebrate and invertebrate animal models and did not exhibit genotoxic activity. In addition, when used in the form of an ointment in orabase, having already recognized antifungal activity, it was shown to be safe up to the highest concentration tested.

[The combined effect of lead and zinc on the embryonic development of laboratory rats]

In the article there are presented the results of the study of the impact of inorganic lead and zinc compounds, as well as their organic forms produced with the use of nanotechnoloy, on the embryonic development of laboratory rats. Metals were orally administered daily during 19 days of gestation at the doses of 0.05 mg/kg of lead, and 1.5 mg/kg of zinc. The impact of the test substances was evaluated by integral and specific indices with the use of physiological, morphological and quantitative methods of analysis. Lead in a dose of 0.05 mg/kg was established to disturb the antenatal development of the offspring of experimental animals, which is pronounced in the increased embryo lethality rate, deterioration of somatometric indices of male fetuses in the litter as compared with the control group, and compared with females. In permits to suggest the greater sensitivity of male fetuses to exposure to lead. The isolated impact of zinc in the dose of 1.5 mg/kg body weight does not influence on the levels of embrio mortality rate, as well as somatometric indices of fetuses. However, the combined administration of the compounds of zinc and lead weakens the embryotoxic effect of the latter in terms of embrio lethality and the amount of live fetuses in the litter with more effective bioprotection for zinc in the nanoaquachelate form.

[Immunohistochemical study of Dlx1 and Msx1 expression during cephalic development of Dumbo and Wistar rats. Correlation with morphological data]

The Dumbo rat is characterized by a short snout, low ears and relative hypoplasia of maxillar and zygomatic bones. It corresponds to an autosomal recessive genotype. Previous study demonstrated a global deficit of Dlx1 and Msx1 genes expression in comparison to Wistar embryos as considered as control animals. We performed a histological study of cephalic development of Dumbo rats compared to Wistar embryos and an immunohistochemical analysis of Dlx1 and Msx1 protein expression during cephalogenesis. Our data indicate that the pattern of expression of both genes is similar in both strains, but that quantitative differences in gene expression can be the result of delayed organogenesis in Dumbo rat in comparison to Wistar. Some data about gene expressions are discussed at the light of the postulated function of Dlx1 and Msx1 in cephalic development.

Investigation of Direct Toxic and Teratogenic Effects of Anticoagulants on Rat Embryonic Development Using In Vitro Culture Method and Genotoxicity Assay

Heparin and low molecular weight heparins (LMWHs) are used to reduce the incidence of venous thromboembolism in pregnancy. Although, these agents have been shown to be safe when used during pregnancy, the studies about direct toxic and teratogenic effects of these drugs on embryonic development are limited. In this study, the effects of heparin and LMWHs on rat embryonic development were investigated by using in vitro embryo culture and micronucleus (MN) assay methods. Rat embryos were cultured in vitro in the presence of different concentrations of heparin (5-40 IU/ml), dalteparin (2.5-20 IU/ml), enoxaparin (25-100 microg/ml) and nadroparin (1-4 IU/ml). Effects of anticoagulants on embryonic developmental parameters were compared and embryos were evaluated for the presence of any malformations. After culturing the embryos, classic MN assay was performed. Anticoagulants significantly decreased all growth and developmental parameters dose-dependently. Dalteparin and enoxaparin were found to cause more developmental toxicity than heparin and nadroparin. Along with haematoma in general, heparin and nadroparin caused maxillary deformity, situs inversus and oedema most frequently, while neural tube defects were observed with dalteparin and enoxaparin. All agents also significantly induced MN formation in rat embryonic blood cells. These results indicate the possible genotoxic effects of anticoagulant agents on the developing rat embryo when applied directly.

Development of parthenogenetic rat embryos

In an effort to establish cloning technology for the rat, we tested several methods (electric stimulation, treatment with ethanol or strontium) for the parthenogenetic activation of rat oocytes. We observed marked individual differences among rats of the outbred Wistar strain in their ability to yield activatable oocytes. These differences were independent of the activation protocol and may be due to a genetic predisposition that is crucial for the parthenogenetic activation of oocytes. The activation of oocytes was dependent upon the time between superovulation of the donor animal and the collection of the embryos. Aged oocytes (derived about 24 h after superovulation) were more prone to activation by each method than were younger oocytes, and some even underwent spontaneous activation without treatment and exhibited pronuclear formation and blastocyst development. All activation methods were effective in generating parthenogenetic rat embryos, and rat parthenotes developed until implantation. However, in general, short-term (15 min) and long-term (2 h) strontium treatment was superior to stimulation by ethanol or electric pulse for parthenogenetic activation. These results will be helpful in achieving successful cloning in the rat.

Functional interaction between neuropeptide Y receptors and modulation of calcium channels in the rat hippocampus

We investigated the functional interaction between neuropeptide Y (NPY) receptors using nerve terminals and cultured rat hippocampal neurons, and we evaluated the involvement of voltage-gated Ca(2+) channels (VGCCs) in NPY receptors-induced inhibition of Ca(2+) influx and glutamate release. The KCl-evoked release of glutamate from hippocampal synaptosomes was inhibited by 1 microM NPY and this effect was insensitive to either BIBP3226 (Y1 receptor antagonist) or L-152,804 (Y5 receptor antagonist), but was sensitive to BIIE0246 (Y2 receptor antagonist). We could also pharmacologically dissect the NPY receptors activity by using Y1, Y2 and Y5 receptor agonists ([Leu(31),Pro(34)]NPY, NPY13-36, NPY (19-23)-(Gly(1),Ser(3),Gln(4),Thr(6),Ala(31),Aib(32),Gln(34))-pancreatic polypeptide (PP), respectively), and in all the cases we observed that these agonists could inhibited the KCl-induced release of glutamate. However, the selective and specific co-activation of both Y1 and Y2 or Y2 and Y5 receptors resulted in non-additive inhibition, and this effect was prevented in the presence of the Y2 antagonist, but was insensitive to the Y1 or Y5 receptor antagonist. Moreover, as we previously showed for Y1 receptors, we also observed that the activation of Y5 receptors inhibited the glutamate release in the dentate gyrus and CA3 subregion, without significant effect in the CA1 subregion of the hippocampus. The same qualitative results were obtained when we investigated the role of NPY Y1 and Y2 receptors in modulating the changes in [Ca(2+)](i) due to KCl depolarisation in cultured hippocampal neurons. The inhibitory effect of nitrendipine (L-type VGCC blocker) or omega-conotoxin GVIA (omega-CgTx; N-type VGCC blocker) was not potentiated by the simultaneous activation of Y1 or Y2 receptors. Moreover, the exocytotic release of glutamate was inhibited by omega-agatoxin IVA (omega-Aga; P-/Q-type VGCC blocker), and this VGCC blocker did not potentiate Y1, Y2 or Y5 receptor-mediated inhibition of glutamate release. Also, the effect of ionomycin in inducing the exocytotic release of glutamate from hippocampal synaptosomes was insensitive to the activation of NPY receptors. In the present paper, we identified a role for NPY Y1, Y2 and Y5 receptors in modulating the exocytotic release of glutamate and the [Ca(2+)](i) changes in the rat hippocampus. In conditions of co-activation, there appears to exist a physiological cross-talk between Y1 and Y2 and also between Y2 and Y5 receptors, in which Y2 receptors play a predominant role. Moreover, we also show that Y1 and Y2 receptors exert their inhibitory action by directly modulating L-, N-, and P-/Q-type VGCCs, whereas the inhibition of glutamate release mediated by the Y5 receptors seems to involve P-/Q-type VGCCs.

In vitro formation of tetraploid rat blastocysts after fusion of two-cell embryos

Gene targeting technology is not available in the rat which is an animal model of major importance, e.g., in cardiovascular research. This is due to the fact that the rat embryonic stem cell (ESC)-like cells established by several groups do not form germ-line chimeras when injected into blastocysts. In the mouse, the aggregation of ESC with tetraploid embryos has allowed the generation of animals completely derived from these cells. However, aggregation of rat ESC-like cells with tetraploid rat embryos has not yet been attempted to evaluate their developmental capacity. Therefore, we established a method to produce tetraploid rat embryos by fusion at the two-cell stage. Chemical fusion by polyethylene glycol (PEG) was shown to be less efficient (56.3% fused embryos) than electrofusion (96.1% fused embryos). The rate of development of fused embryos to blastocysts was independent of the fusion method and similar to the rate of control embryos. However, this rate was lower when the embryos had been cultured from the zygote state before fusion (14-20%) compared to freshly isolated two-cell embryos (41-63%). Alike for the mouse, blastocysts derived from fused two-cell rat embryos contained about half the number of cells as control blastocysts and were homogeneously tetraploid with no evidence of mosaicism. This method may be useful for the establishment of gene-targeting technology in the rat.

An oral (gavage) control embryo-fetal development study in the Wistar Hannover rat

Many of the studies conducted to examine the developmental and reproductive toxicity potential of candidate pharmaceuticals use the Sprague-Dawley rat as the animal model. This is due in part to the large database for this outbred rat available for comparison of litter data, and the low incidence of fetal malformations and variations. The following study was conducted to generate information on potential embryo-fetal developmental defects and litter data in another outbred stock of rat, the Wistar Hannover. One hundred fifty pregnant female Wistar Hannover rats (Tac:Glx:WIfBR) were dosed orally once per day with distilled water from Gestation Days (GD) 6 through 17 covering the time from implantation to closure of the hard palate (GD0 = day of insemination). Caesarean sections were performed on Day 20 of gestation. All fetuses were examined for external, visceral and skeletal malformations and variations. Macroscopic and histomorphologic examinations were also completed for the F0 females at termination. The percent pregnant (88%) and litter size (average 10.6) were found to be lower than that commonly reported for the Sprague-Dawley rat (Crl:CD (SD)BR; 95.4% and 14.6, respectively). Pre-implantation loss (14.1%), post-implantation loss (7.4%) and percent resorptions (7.2%) occurred at a higher incidence than typically seen in the Sprague-Dawley rat (5.9, 5.6 and 5.1%, respectively). The average fetal body weights for both the female and male rats were lower than those typically seen in the Sprague-Dawley rat. External, visceral and skeletal examination of the F1 fetuses revealed numerous malformations and variations which also occurred at higher incidences than those reported for the Sprague-Dawley rat. Routine macroscopic and histomorphologic examination showed there were no changes that would be interpreted to have impaired mating performance, fertility or gestation. Thus, this study provides information on the reproductive effects and the background incidence of embryo-fetal development defects that could be used for comparison to those identified when using this outbred rat for developmental and reproductive toxicity studies, as well as for comparison to the more commonly used rat stock, the Sprague-Dawley rat. For the parameters evaluated, the Wistar Hannover rat had greater variability and an increased incidence of spontaneous malformations as compared to the Crl:CD (SD)BR Sprague-Dawley rat. These findings should be considered if this stock of rat is selected in the conduct of developmental and reproductive toxicity studies.

The development of sex differences in the locus coeruleus of the rat

Development of sex differences in the locus coeruleus (LC) is investigated. The LC is a sexually dimorphic structure in which the female manifests a larger volume and greater number of neurons than do males. Male and female Wistar rats were sacrificed on prenatal days (E) 16 and 20 and postnatally (P) on days 1, 3, 7, 15, 35, 45, 60, and 90. Male and female rats show a continuous increase in the number of neurons after birth that stops in the males by P45 and in females by P60. These findings point out the existence of different patterns of development in male and female rats and may suggest that sex differences could be established because of the existence of a differential period of neurogenesis in both sexes in the postpubertal period.

Developmental changes in 5-hydroxytryptamine-induced rhythmic activity in the spinal cord of rat fetuses in vitro

The roles played by glycine- and glutamate-mediated synaptic transmission in the generation of 5-hydroxytryptamine (5-HT)-induced rhythmic activity were examined in isolated spinal cord preparations from fetal rats. Bath application of 5-HT (0.1-30 microM) evoked rhythmic activity in lumbar ventral roots at and after E14.5. Bath application of strychnine (5 microM), a glycine-receptor antagonist, reduced the frequency of the rhythmic activity to 37% of control at E14.5. Although, kynurenate (4 mM), a glutamate-receptor antagonist, had little effect at this stage, it completely abolished the 5-HT-induced rhythmic activity at and after E18.5, when strychnine had little effect on the frequency. These results indicate that, at and shortly after its onset, the rhythmic activity is driven mainly by glycinergic rather than glutamatergic excitatory synaptic inputs, but that the latter become dominant later on.

Levetiracetam does not modulate neuronal voltage-gated Na+ and T-type Ca2+ currents

This study investigated whether the mechanism of action of levetiracetam (LEV) is related to effects on neuronal voltage-gated Na+ or T-type Ca2+currents. Rat neocortical neurones in culture were subjected to the whole-cell mode of voltage clamping under experimental conditions designed to study voltage-gated Na+ current. Additionally, visually identified pyramidal neurones in the CA1 area of rat hippocampal slices were subjected to the whole-cell mode of voltage clamping under experimental conditions designed to study low-voltage-gated (T-type) Ca2+ current. LEV (10 microM-1 mM) did not modify the Na+ current amplitude and did not change (200 microM) the steady-state activation and inactivation, the time to peak, the fast kinetics of the inactivation and the recovery from the steady-state inactivation of the Na+ current. Likewise, LEV (32-100 microM) did not modify the amplitude and did not change the steady-state activation and inactivation, the time to peak, the fast kinetics of the inactivation and the recovery from the steady-state inactivation of the T-type Ca2+current. In conclusion, neuronal voltage-gated Na+ channels do not appear directly involved in the antiepileptic mechanism of action of LEV, and LEV was devoid of effect on the low-voltage-gated (T-type) Ca2+ current in hippocampal neurones.

Quantitative changes of lung tissue components during perinatal period in rats

Quantitative changes of lung tissue components (air spaces lined by PAS-positive and PAS-negative epithelium, blood vessels and interstitium) were investigated in developing rats from fetal day 18 through neonatal day 1. The volume of the left lung increased significantly from fetal day 18 through neonatal day 1. The percentage and volume of the air spaces increased strikingly between fetal days 20 and 21. However, the percentage of the air spaces lined by PAS-positive epithelium decreased significantly from fetal days 20 to 21, and that of the spaces lined by PAS-negative epithelium increased between the two days. The proliferating cell nuclear antigen (PCNA)-positive cells were rich in the interstitium and epithelium of the air spaces on fetal days 18 and 19. The percentage of the interstitium decreased significantly from fetal day 18 through neonatal day 1, showing remarkable decrease between fetal days 20 and 21. From fetal day 20 onward, the PCNA-positive cells decreased in number and located in the epithelium of the conducting air ways and interstitium. Based upon these findings, the present study suggests that the period from fetal days 20 to 21 is a critical time for the development of fetal lung: the period before fetal day 20 is that for proliferation and the period after fetal day 21, functional differentiation of the lung.

[Micrometric and morphological assessment of early stage rat embryos -- application for in vivo teratology testing]

Authors presented the whole embryo culture (WEC) method suggested for embryotoxicity study. The present paper concentrates on morphological scoring system proposed by Brown and Fabro in 1981. The scoring system provides a precise index of embryonic development and allows a quantitative comparison of development and growth. In our study we used this system with slight modification for assessing an 86 control rat embryos. We have found that routine use of this scoring system in teratology embryo culture experiments may afford further benefits.

Quantitative analysis of cerebellar lobulation in normal and agranular rats

Cerebellar pattern formation was investigated in rats treated with DNA modifying agents. Animals were subjected to combinations of daily injections of methylazoxymethanol acetate (MAM) for the last 6 days gestation and/or localised X-irradiation of the hindbrain on postnatal days 1 and 5 (P1 and P5). Animals were analysed on embryonic day 18 (E18), P0, P3, P7, and P14. Five parameters of the cerebellum were recorded from midsagittal sections: the number of primary lobules; the thickness of the external germinal layer (EGL); the density of cells in the internal granule cell layer (IGL) region; and the midsagittal area and perimeter. In addition, the laterolateral cerebellar distance was calculated. The data demonstrate that pre- and postnatal reduction of the EGL results in reduced cerebellar growth and folding. Cessation of the treatment at birth results in a recovery and eventual overproduction of EGL, but cerebellar growth and the development of fissures lags behind that of normal rats. Pre- and postnatal destruction of the EGL severely limited cerebellar growth and fissuration, and the cerebella contained only five primary lobules at P14. Rats subjected to postnatal X-irradiation alone had a similar low density of granule cells relative to those treated with a combination of prenatal MAM injections and postnatal X-irradiation, and yet the cerebella contained deeper fissures and more lobules (nine at P14). The data indicate that there are two phases of cerebellar folding: the establishment of five lobules that arise independent of granule cell production, and the granule cell-dependent expansion and partitioning of these five principal lobules during postnatal development. We propose that the lack of correlation between the severity of the granule cell loss and degree of lobulation in agranular rats indicates that granule cells exert an inductive influence over lobulation that is in part independent of the forces generated by their production and differentiation.

Fibroblast growth factor 2 promotes pancreatic epithelial cell proliferation via functional fibroblast growth factor receptors during embryonic life

Several investigators have postulated that soluble growth factors are involved in the early development of the pancreas. In many tissues in which soluble factors are implicated in development, these factors act on their target cells through tyrosine kinase receptors. Because we had some preliminary evidence that fibroblast growth factor receptors (FGFRs) were expressed in the early pancreas, we investigated the effect of fibroblast growth factors (FGFs) during embryonic pancreatic development. For that purpose, we first studied the distribution and the functionality of FGFRs during pancreatic organogenesis. FGFR1 and FGFR4 were shown to be expressed at a high level during early pancreatic development before embryonic day 16, their levels of expression decreasing thereafter. The functionality of FGFR was studied next. It was demonstrated in vitro that both FGF1 and FGF2 induce the expression of NGFI-A mRNA, a useful indicator of functional growth factor-signaling pathways. Finally, the effect of FGF2 on embryonic pancreatic epithelial cell proliferation was studied. It was shown that FGF2 induces the proliferation of pancreatic epithelial cells during embryonic life. Taken together, these data strongly suggest that FGFs are implicated in pancreatic development during embryonic life.

Microtubule and microfilament dynamics in rat embryos during the two-cell block in vitro

Developmental block of rat embryo is induced by phosphate at the late two-cell stage. The present study uses immunocytochemistry and laser scanning confocal microscopy to examine microtubule and microfilament dynamics in blocked and nonblocked two-cell-stage rat embryos. Thin fibrous microtubules were distributed homogeneously in the cytoplasm in nonblocked embryos during the interphase of the two-cell stage and then translocated into mitotic spindles at the M-phase. In embryos blocked at the two-cell stage, much thicker fibrous microtubules were formed and distributed as rude meshwork structures in the cytoplasm. Microfilaments were distributed adjacent to nuclei and along the inside of the plasma membrane in nonblocked embryos during the two-cell stage, at M-phase, and at cleavage to the four-cell stage. In embryos blocked at the two-cell stage, however, microfilaments formed granules and dispersed in the cytoplasm. The distribution of microtubules and microfilaments changed relative to the occurrence of two-cell block. In summary, these results indicate that both microtubules and microfilaments are closely involved in the developmental block in two-cell rat embryos.

A technique based on the use of activated charcoal for easier subsequent retrieval of neocortical grafts placed in the neocortex of newborn rats

The mechanisms underlying the differentiation of neocortical areas are still largely unknown. The development of neural connectivity constitutes one important step in neocortical differentiation. One way to study the mechanisms guiding this developmental stage is to examine the connections established by transplants of neocortical tissue of varying embryonic age placed in varying areas of the neocortex of newborn hosts. Neurotracer injection into the transplant at different intervals following transplantation is then used to identify the development of host-transplant connectivity. In most cases, however, it is rather difficult to retrieve the transplant within the host cortex even shortly after grafting. Hence, it is very difficult to perform tracer injections limited to the transplant without any involvement of the host cortex. In some instances, the transplant position can be predicted by some weaker vascularization within or at the surface of the graft. This is not, however, a reliable criterion to establish the rostrocaudal and mediolateral coordinates of the tracer injection. In this report, we describe the use of activated charcoal to mark the transplant at the time of transplantation. The transplant containing black dots can subsequently be easily distinguished from the host pale pink cortex.

Study on the developmental toxicity of orally administered isobutylidenediurea in rats

Developmental toxicity of isobutylidenediurea (IBDU) was determined by oral administration to Wistar rats. The substance was administered as an aqueous suspension to 22-24 pregnant rats per group by gavage in daily doses of 100, 400 and 1000 mg/kg body weight from day 6 post-coitum (p.c.) to day 15 p.c. The control group received the vehicle only (0.5% aqueous carboxymethyl cellulose solution). There were no substance-related effects in the dams concerning food consumption, body weight, body weight gain, uterine weights and clinical or autopsy observations even at the highest dose of 1000 mg/kg body weight/day. The reproduction data revealed no biologically relevant differences between the control and treated groups. The incidence and type of the foetal external, soft tissue and skeletal findings, which were classified as malformations, variations and/or retardations observed in the treated foetuses were similar to the concurrent and/or historical control data. Thus, under the conditions of this study, no signs of maternal toxicity or embryo/foetotoxicity were induced by IBDU and the no-observable-adverse-effect level on the maternal and developing organism was 1000 mg/kg body weight/day.

Fluorescence localization of anti-pregnant rat kidney antibody and lectin binding analysis in exencephalic rat embryos

We sought to determine the distribution of anti-pregnant rat kidney serum (ARKS) in fetuses that subsequently developed a form of neural tube defect (NTD). We produced exencephaly in rat embryos by injecting a rabbit anti-pregnant rat kidney serum into the peritoneal cavity of pregnant Wistar rats on day 7 of gestation; 71.1% (27/38) of the rat embryos developed this anomaly. Fluorescence immunohistochemical studies were performed to localize ARKS binding in the embryos. We also investigated the binding of two lectins, concanavalin A (ConA) and wheat germ agglutinin (WGA), to glycoconjugates on neuroepithelium during the process of neurulation in rat embryos injected with normal rabbit serum (NRS) and ARKS. We found for the first time that ARKS directly affected the neural tube during neurulation. Intense fluorescence was observed on the luminal side of the neuroepithelium in the intercellular region and on the basement membrane of the neural tube in embryos on day 9 of gestation (GD9). In GD21 embryos there was much more intense fluorescence in the extracellular matrix and the ependymal lining cells of the ventricles than in controls. The binding of the two lectins on the cell surface of the neuroepithelium during neurulation was different in rat embryos injected with ARKS than in normal embryos injected with NRS. These results support the idea that simple nonclosure and overgrowth constitute the mechanism of NTD. However, the lectinbinding data suggest that dysraphic states may be induced by cell-to-cell adhesive molecular failure.

Fetal and postnatal development of palmar, plantar, and digital pads, and flexion creases of the rat (Rattus norvegicus)

Fetal development of the hands and feet of rats was investigated to determine the feasibility of using rats as an experimental model for studying the factors influencing early development of the hands and feet, and especially the dermatoglyphics in humans. Eighty rats fetuses of 14-21 days gestational age and 80 newborn rats of 0-7 days of age were used to study the morphological features of the palmar, plantar, and digital areas and to determine the timing of appearance and the location of the volar pads and flexion creases. Comparisons between analoguous developmental stages of rat and human fetuses demonstrate striking similarities in overall fetal development. Marked differences, however, were found between rat and human fetuses in the timing of developmental milestones and in some morphological features. The results indicate that rats can serve as a useful experimental model in studies of the utility of the epidermal ridge configurations and flexion creases in medical disorders, provided that the differences in the timing of development are taken into consideration.

The development of fibrocartilage in the rat intervertebral disc

The development of fibrocartilage in rat lumbar intervertebral discs has been correlated with an immunohistochemical analysis of the changing distribution of extracellular matrix components. Disc anlagen were first recognised by embryonic day 14 as segmental cell condensations. By E16, the notochord formed a series of bulges, each representing a future nucleus pulposus, and the annulus fibrosus had differentiated in the disc anlagen. The inner part of the annulus was composed of cartilage which linked that of adjacent vertebral bodies. The outer part was fibroblastic, with layers of parallel fibroblasts. The long axes of the cells in successive layers lay at an angle of approximately 90 degrees to each other. This criss-cross orientation of cells preceded the oriented deposition of collagen fibres to form the lamellae. Disc anlagen were immunolabelled weakly for types I and III collagen, chondroitin 6-sulphate and dermatan sulphate. Later tissue differentiation was marked by the appearance of type II collagen, chondroitin 4-sulphate and keratan sulphate in the inner annulus. These components also appeared in the outer annulus, but only in adult animals, and indicated metaplastic change in the lamellar fibroblasts. Fibrocartilage in the nucleus pulposus was only seen in old animals, and the origin of the tissue was less clear. However, the fibrocartilage cells appeared to be derived from the cartilage end plate and/or from the inner annulus. We conclude that fibrocartilage in the intervertebral disc is derived from several sources and that the radial distribution patterns of extracellular matrix components in the adult disc are explained by the embryonic origins of its parts.

Distribution of histamine-, 5-hydroxytryptamine-, and tyrosine hydroxylase-immunoreactive neurons and nerve fibers in developing rat brain

Although the general patterns of the developing histaminergic system in the rat brain are known, no comparative studies between the development of the brain histaminergic system and the development of other neuroactive substances have yet been published. Interestingly, separate immunohistochemical studies on the development of the 5-HT system and on the catecholaminergic system in the rat imply common features in the different aminergic systems. Therefore, the spatial distribution of histamine-immunoreactive (HA-ir) neurons and nerve fibers was compared to the distribution of 5-hydroxytryptamine (5-HT)-, and tyrosine hydroxylase-immunoreactive (TH-ir) ones in the developing rat brain between embryonic days 12 (E12) and 20 (E20) by using a double-immunostaining method. The high-pressure liquid chromatography (HPLC) fluorometric method was used for determination of histamine concentration in different brain regions during the same period of development and synthetic oligonucleotide probes complementary to the rat histidine decarboxylase (HDC) to determine the origin of HA in the brain during the development with in situ hybridization. The immunohistochemical results revealed co-localization of HA and 5-HT within a subgroup of cells in the developing raphe nuclei between E14 and E18. From E18 onwards HA immunoreactivity started to gradually disappear from the rhombencephalon, and was totally abolished by E20, while 5-HT-ir cells continued to establish their adult positions. No significant colocalization of HA and TH immunoreactivities was detected. The biochemical results were in agreement with the immunohistochemical ones and confirmed that histamine detected in the early developing brain is authentic. A positive in situ hybridization signal for HDC was detected in a small area in the ventrolateral pons in the same areas as HA- and HDC-ir cell bodies at E16, suggesting that at least some HA may be synthesized locally. These results confirm that HA is one of the first neurotransmitters to appear in the developing brain. In addition, the transient co-localization of HA and 5-HT immunoreactivities and the transient HDC expression at E16 within the developing pontine raphe nuclei may imply an interesting and a more general role for HA in modification of brain development.

Fetal endoderm primarily holds the temporal and positional information required for mammalian intestinal development

In rodents, the intestinal tract progressively acquires a functional regionalization during postnatal development. Using lactase-phlorizin hydrolase as a marker, we have analyzed in a xenograft model the ontogenic potencies of fetal rat intestinal segments taken prior to endoderm cytodifferentiation. Segments from the presumptive proximal jejunum and distal ileum grafted in nude mice developed correct spatial and temporal patterns of lactase protein and mRNA expression, which reproduced the normal pre- and post-weaning conditions. Segments from the fetal colon showed a faint lactase immunostaining 8-10 d after transplantation in chick embryos but not in mice; it is consistent with the transient expression of this enzyme in the colon of rat neonates. Heterotopic cross-associations comprising endoderm and mesenchyme from the presumptive proximal jejunum and distal ileum developed as xenografts in nude mice, and they exhibited lactase mRNA and protein expression patterns that were typical of the origin of the endodermal moiety. Endoderm from the distal ileum also expressed a normal lactase pattern when it was associated to fetal skin fibroblasts, while the fibroblasts differentiated into muscle layers containing alpha-smooth-muscle actin. Noteworthy, associations comprising colon endoderm and small intestinal mesenchyme showed a typical small intestinal morphology and expressed the digestive enzyme sucrase-isomaltase normally absent in the colon. However, in heterologous associations comprising lung or stomach endoderm and small intestinal mesenchyme, the epithelial compartment expressed markers in accordance to their tissue of origin but neither intestinal lactase nor sucrase-isomaltase. A thick intestinal muscle coat in which cells expressed alpha-smooth-muscle actin surrounded the grafts. The results demonstrate that: (a) the temporal and positional information needed for intestinal ontogeny up to the post-weaning stage results from an intrinsic program that is fixed in mammalian fetuses prior to endoderm cytodifferentiation; (b) this temporal and positional information is primarily carried by the endodermal moiety which is also able to change the fate of heterologous mesodermal cells to form intestinal mesenchyme; and (c) the small intestinal mesenchyme in turn may deliver instructive information as shown in association with colonic endoderm; yet this effect is not obvious with nonintestinal endoderms.

Ontogeny of rat thymic dendritic cells

In the present study we have combined various in vivo and in vitro approaches to analyse the appearance and development throughout ontogeny and postnatal life of the dendritic cell (DC) populations of rat thymus. The in situ ultrastructural study demonstrated immature interdigitating cells (IDC)/DC in the thymus of 17-day-old embryonic rats, but thymic stromal cell cultures from 16-day-old fetal rats seemed to contain DC precursors which, after several days in culture, produced strongly class II major histocompatibility complex (MHC)-positive, mature DC. According to morphology and class II MHC expression we also defined three different DC populations in the late embryonic rat thymus; two of them, which remained in the adult rat thymus, could represent distinct developmental stages within the IDC/DC lineage. The third cell subset might be involved in a massive process of negative selection, presumably occurring at the end of fetal life in the rat thymus. In supporting the existence of thymic DC subpopulations, we also demonstrated a differential expression of various cell markers, including CD4, CD8, CD25, adhesion molecules and the antigen recognized by OX44 monoclonal antibody (mAb), on thymic DC during both embryonic and adult life. Their possible significance for the attributed functions to thymic DC are discussed extensively.

Developmental regulation of rat serine dehydratase gene expression: evidence for the presence of a repressor in fetal hepatocytes

To determine why the rat serine dehydratase gene becomes transcriptionally activated just after birth, we examined the interactions of DNA binding proteins of fetal and adult rat livers with the serine dehydratase gene promoter by DNase I protection analysis and gel mobility shift assay. Several binding regions of nuclear proteins were found to be common to fetal and adult livers and interaction of factors with the characteristics of Sp1 or NF-Y was suggested. Two additional regions, named regions B and I, were specific to fetal liver. These regions contain GATA-like sequences and competition experiments by gel mobility shift assay suggested that the fetal liver-enriched factor binds to the GATA-like sequences. The function of the regions B and I in transcription regulation was investigated in fetal and adult hepatocytes by transient DNA transfer experiments with serine dehydratase-chloramphenicol acetyltransferase fusions. These experiments showed that these regions functioned as negative cis-acting elements in fetal hepatocytes, but not in adult hepatocytes.

Histochemical and immunocytochemical study of the migration of neurons from the rat olfactory placode

Immunocytochemical and histochemical methods have been used to describe the neuronal population migrating from the rat olfactory placode and to analyze the spatio-temporal evolution of this neuronal migration during development. Several neuronal markers, such as binding to the lectin Ulex europaeus (UEA I) and the presence of neuron-specific enolase (NSE), olfactory marker protein (OMP), and luteinizing hormone-releasing hormone (LHRH), have been tested in order to determine whether migrating neurons originate from both the medial and the lateral parts of the placode and whether they all express LHRH. Our data show that a large population of differentiated migrating neurons can be identified with an antibody against NSE from the 14th day of gestation and with UEA I one day later. Migrating neurons are closely associated with both the vomeronasal axon fascicles emerging from the medial pit and the olfactory axons originating from the lateral pit. However, the neuron migration from the lateral pit appears to be more discrete than that from the medial pit. No LHRH immunoreactivity has been detected among neurons migrating from the lateral pit. Some neurons accompanying the olfactory axon fascicles exhibit a high level of maturation as shown by their OMP-positivity. Numerous neurons positive for both NSE and UEA I have also been observed within the presumptive olfactory nerve layer in early embryonic stages.

IGF-I is a mitogen involved in differentiation-related gene expression in fetal rat brown adipocytes

Fetal rat brown adipocytes at time zero of culture constitute a population of cells of broad spectrum, as estimated by cell size, endogenous fluorescence and lipid content, and show an intrinsic mitogenic competence. They express constitutively early growth-related genes such as c-myc, c-fos, and beta-actin, tissue specific-genes such as the uncoupling protein (UCP) and the lipogenic marker malic enzyme (ME). Fetal brown adipocytes bear a high expression of insulin-like growth factor receptor (IGF-IR), and show a high affinity IGF-I specific-binding to its receptor, and a high number of binding sites per cell. After cell quiescence, insulin-like growth factor I (IGF-I) was as potent as 10% FCS in inducing DNA synthesis, cell number increase, and the entry of cells into the cell-cycle. In addition, IGF-I or 10% FCS for 48 h increased the percentage of [3H]thymidine-labeled nuclei as compared to quiescent cells. Single cell autoradiographic microphotographs show typical multilocular fat droplets brown adipocytes, resulting positive to [3H]thymidine-labeled nuclei in response to IGF-I. IGF-I increased mRNA expression of the early-response genes c-fos (30 min), c-myc (2 and 24 h), and H-ras (4 and 24 h). 10% FCS also increased c-fos and c-myc, but failed to increase H-ras as an early event. IGF-I or 10% FCS, however, similarly increased the mRNA late expression of c-myc, H-ras, c-raf, beta-actin, and glucose 6-phosphate dehydrogenase (G6PD) at 72 h, as compared to quiescent cells. IGF-I or FCS maintained at 24 h or increased at 48 and 72 h UCP mRNA expression. The results demonstrate that IGF-I is a mitogen for fetal rat brown adipocytes, capable of inducing the expression of early and late growth-regulated genes, and of increasing the lipogenic marker ME and the tissue-specific gene UCP, suggesting the involvement of IGF-I in the differentiation as well as in the proliferation processes.

Rundown of NMDA-receptor mediated currents is resistant to lowering intracellular [Ca2+] and is prevented by ATP in rat spinal dorsal horn neurons

Intracellular regulation of NMDA-receptor-mediated currents in cultured rat spinal dorsal horn neurons was investigated by means of simultaneously recording whole-cell currents and intracellular Ca2+ concentration ([Ca2+]i). During recordings in which EGTA (11 mM) was used to buffer intracellular Ca2+, NMDA currents showed 'rundown'; the amplitude of the currents gradually declined to a stable level approximately 50% of the initial level within 15 min of the beginning of recording. In these experiments, the level of [Ca2+]i decreased rapidly once whole-cell recording was attained and baseline [Ca2+]i remained below 100 nM. Each NMDA current was associated with a transient increase in [Ca2+]i which was prevented when BAPTA (30 mM) was substituted for EGTA. However, inclusion of BAPTA in the intracellular solution failed to affect the rundown of the currents. In contrast, including Mg-ATP (4 mM) prevented the rundown of NMDA currents and resulted in an increase in the current amplitude. Thus, our results indicate that rundown of the NMDA currents is not due to raised [Ca2+]i and are consistent with regulation of NMDA currents by phosphorylation.

Pancreatic morphogenesis and extracellular matrix organization during rat development

We investigated the rat pancreatic morphology at various developmental stages ranging from 12 days of gestation to the neonatal stage, with special emphasis on alterations in extracellular matrix organization in vivo. The rat pancreatic development in utero could be divided into four representative stages as follows: (1) initial epithelial buds (12 days of gestation), (2) elongated and branching epithelium (13-14 days), (3) tubular structure (15-16 days), and (4) acinar structure (17 days or more). Ultrastructurally, the fetal and neonatal pancreata were almost constantly encompassed by continuous basal lamina, except for the earliest stage, in which minute disruptions of basal lamina were observed. Through the disruption, the direct epithelial-mesenchymal contact was formed between an endocrine cell and an adjacent mesenchymal cell, which implied epithelial-mesenchymal interactions in processes of endocrine cell differentiation. Collagen fibrils were frequently accumulated at the cleft (branchpoint) of the branching epithelium during the second and third stages mentioned above. Immunohistochemically, fibronectin and collagen type-I were localized particularly beside the neck (narrow part) or cleft of the pancreatic epithelium at these stages, although continuous linear localization of these matrices was noted around the initial pancreatic bud. This was in contrast to invariable linear localization of laminin and collagen type-IV at the epithelial/mesenchymal interface throughout the pancreatic development. Diffuse fibrillar localization of fibronectin and collagen type-I in the mesenchyme was pronounced at the later stages and after birth. Collagen type-III was only focally detectable around the pancreatic epithelium from the second stage, and its distinct localization was noted in the interlobular connective tissue after birth. Thus, chronological changes in extracellular matrix organization seemed to be closely related to morphogenetic processes of the rat pancreas, especially in the branching epithelial morphogenesis, and the major alterations appeared prior to distinct acinar cell differentiation.

An electron microscopic study on follicular formation and TSH sensitivity of the fetal rat thyroid gland in organ culture

Thyroids of 15-day rat fetuses prior to culture had no follicles. After 2 days in culture, regardless of added TSH in the medium, thyroids had small, colloid-storing follicles. In the follicular cells, the rER and Golgi apparatus were somewhat well developed as compared with the thyroids prior to culture. Thyroids of 17-day fetuses prior to culture were first inlaid with follicles. With TSH, 2-day cultures of 17-day thyroids showed a more marked dilation of rER and a further development of Golgi apparatus than those without TSH. These results indicate electron microscopically that TSH has no effect on the first formation of follicles as well as on the initial development of follicular cells, but that TSH can promote the further development of follicular cells themselves of once-developed follicles.

Studies on closure of the ductus arteriosus in perinatal rats

Measurements of the inner diameters (calibers) of the ductus arteriosus (DA) and pulmonary artery (PA) were made in late fetal rats and newborn rats, the latter being obtained by spontaneous or caesarean delivery. The fetal and newborn pups were frozen instantly with an acetone-dry ice mixture. The chests of these whole-body frozen pups were shaved with a surgical knife gradually from the back toward the ventral side to expose the DA and PA for measurements of their calibers. As a result, it was revealed that the DA was almost closed 180 min after birth, but that the closure and shrinkage of the DA were accelerated to some extent by caesarean delivery. On the other hand, there was no remarkable change in the PA throughout the postnatal period observed, regardless of the type of delivery, spontaneous or caesarean.

Expression of insulin-like growth factors (IGFs) and their binding proteins (IGF BPs) during pancreatic development in rat, and modulation of IGF actions on rat islet DNA synthesis by IGF BPs

Growth of pancreatic beta-cells is an essential feature of development in order to maintain insulin availability. While glucose has been shown to increase beta-cell DNA synthetic rate in cultures of isolated islets of Langerhans, there is also evidence for a local control of beta-cell growth involving insulin-like growth factors (IGFs). IGF I and II and their specific binding proteins (IGF BPs) are expressed within the developing rat pancreas, and released by isolated fetal rat islets of Langerhans. Glucose-induced beta-cell growth is not mediated by IGF-I, since IGF release does not alter in response to changes in glucose availability. In contrast, IGF BP release is positively associated with glucose concentrations over the physiological range and is therefore a candidate. Exogenous hIGF BP1 or bIGF BP2 synergistically interacted with hIGF I or II to increase DNA synthesis within isolated fetal rat islets. These results suggest a role for IGF BPs in the regulation of beta-cell growth. They may act independently or by modulation of IGF bioavailability during pancreatic development.