RÉSUMÉ
Tyrosine kinase A (TrkA)is an essential component of the high affinity nerve growth factor (NGF) receptor necessary to the mediate the biological effects of the neurotrophins, NGF. This study examined the distribution of TrkA-immunoreactivity (IR)cells in the postnatal rat cerebral cortex and the changes that occur in postnatal development as a result of the expression of this protein. TrkA-IR was detected at postnatal day (PD)3, PD6, PD9 and PD15. Base upon their somatodendritic morphology, the most commonly labeled cell type was the pyramidal neurons. At PD3 and PD6, layer I, II, III and V was immunopositive for TrkA, at PD9, not only at layer I, II, III, and V but also at layer VI. At PD15, the TrkA-positive cells were distributed in all layers. These TrkA-positive cells were not detected at PD0. In contrast, there was significant increase in the percentage of cells exhibiting TrkA-IR with development and the highest level was detected at PD15. These results suggest that the cerebral cortex expresses TrkA strongly during the postnatal period. Moreover, the postnatal development-related increase in the expression of TrkA-cells shows that NGF may have a trophic effect on these cerebral cortex neurons from the postnatal period.
Sujet(s)
Animaux , Rats , Animaux nouveau-nés , Cortex cérébral , Régulation de l'expression des gènes au cours du développement/physiologie , Neurones/métabolisme , Rat Sprague-Dawley , Récepteur trkA/métabolismeRÉSUMÉ
Unipolar brush cells (UBCs) are a class of putative interneurons found in the granular layer of mammalian cerebellum and dorsal cochlear nucleus. The unipolar brush cells (UBCs), as with granular cells, which receives afferent synaptic input from extrinsic mossy fiber and whose axons branch in the granular layer and establish a system of cortex-intrinsic mossy fibers, which synapse with granule cells and other UBCs. In general, UBCs have been identified most readily by their expression of the calcium-binding protein, calretinin. The purpose of this study was to provide information about UBCs distributions of the new ataxic animal model, pogo mouse cerebellum using anti-calretinin immunohistochemistry, immunofluorescence and its effect on calcium homeostasis. Through the examination of calretinin immunohistochemistry and immunofluorescence, we observed that many calretinin immunoreactive UBCs were distributed widely throughout the lobules IX and X of the granular layer of both group. But, we found the number of calretinin immunoreactive UBCs of ataxic pogo (pogo/pogo) mouse was decreased and distribution pattern was altered, compared to control mouse. This result also suggest that reduced calretinin expression may effect on cerebellar Ca2+/-homeostasis, and it may in turn, explain the impaired motor coordination found in the ataxic pogo mice.
Sujet(s)
Animaux , Souris , Ataxie , Axones , Calbindine-2 , Calcium , Cervelet , Noyau cochléaire , Technique d'immunofluorescence , Homéostasie , Immunohistochimie , Interneurones , Modèles animaux , SynapsesRÉSUMÉ
TrkA is essential components of the high-affinity NGF receptor necessary to mediate biological effects of the neurotrophins NGF. Here we report on the expression of trkA in the cerebral cortex and diencephalon of mongolian gerbils during postnatal development. The expression of trkA was identified by immunohistochemical method. In parietal cortex and piriform cortex, higher levels of trkA-IR (immunoreactivity) were detected at 3 days postnatal (P3) and at P9. Although trkA was not expressed till P3 in the parietal cortex, it was detectable at birth in the piriform cortex. Several regions, such as Layers I, IV & VI, did not show much expression. Layer I showed especially weak labeling. In the hippocampus, thalamus, and hypothalamus, higher levels of trkA-IR were detected at P6 and P12 than earlier days. But trkA was not expressed at birth in the hippocampus, at P3 in the reticular thalamic nucleus (Rt), or neonatally in the dorsomedial hypothalamic nucleus (DM). This data shows that expression of trkA is developmentally regulated and suggests that high affinity neurotrophin-receptors mediate a transient response to neurotrophines in the cerebral cortex and diencephalon during mongolian gerbil brain ontogeny.
Sujet(s)
Animaux , Animaux nouveau-nés , Cortex cérébral/métabolisme , Diencéphale/métabolisme , Gerbillinae/métabolisme , Immunohistochimie/médecine vétérinaire , Facteur de croissance nerveuse/métabolisme , Récepteur trkA/métabolismeRÉSUMÉ
The spicoreticulocerebellar (SRC) tract is an indirect spinocerebellar tract formed by the reticular formation (RF), which is connected to the cerebellum and spinal cord. The RF receives ascending fibers to both the spinal enlargement and sends descending fibers to the cerebellum. This study demonstrated that the connectivity of the neurons in the RF is concerned to the cerebellum and spinal cord using the anterograde projection with biotinylated dextran amine (BDA) and retrograde labeling with wheat germ agglutinin-horseradish peroxidase (WGA-HRP). Until now, a preliminary study in mammals has dealt with the afferent and efferent pathways in separating groups of neurons in the RF. There are only few reports on chickens. This study examined the SRC tract in chickens. Following bilateral injections we injected BDA into chicken spinal cord (lumbosacral enlargement) and WGA-HRP into the cerebellum. Both of single- and double-labeled cells were found within the RF. The spinoreticular axons were mainly distributed from the potomedullary junction to the rostral medulla in the rostro-caudally RF levels, for example, nucleus of reticularis (n. r.) pontis oralis, locus coeruleus, n. r. pontis caudalis, n. r. pars gigantocellularis, n. r. gigantocellularis and n. r. parvocellualris. Reticulocerebellar labeling by the WGA- HRP was found in the same place as well as that of the BDA-projection. We observed that the proportion and location of double labeling cells in the chicken were almost similar in each level, comparing to the rodents. These results suggest that the reticular formation is strongly related to the spicoreticulocerebellar tract in chickens.
Sujet(s)
Animaux , Voies afférentes/physiologie , Biotine , Cervelet , Poulets , Dextrane , Voies efférentes/physiologie , Microinjections , Formation réticulaire , Moelle spinale , Wheat germ agglutinin-horseradish peroxidase conjugateRÉSUMÉ
Approximately 90% of freshly imported macaques and other Old World Monkeys are known to be infected with respiratory mites. The lung associated pigments are integral components of pulmonary acariasis in Old World Monkeys; at least three distinctive pigmental bodies are identified in association with lung mite infection. Two major components of pigments are recently identified as silica by using elemental analysis using a high voltage electron microscope and an energy-dispersive X-ray analysis technique. Since a limited number of infected monkey lung tissues and associated pigments can be examined by this tedious procedure, it was important for us to examine much greater number of specimens to verify our initial observation. Ten microincineration technique described provided a unique and practical way to identify the mineral elements in as many 27 histologic sections within a short span of time. Silica and silicates are heat resistant whereas majority of organic materials including lung mite parasites disintegrated under the extreme temperature. Mineral elements were exclusively located within the polarizable white ash. More than 90% of total pigmental bodies identified were found to be related to siliceous materials in 20 incinerated infected monkey lung tissues whereas five noninfected lungs similarly examined did not reveal any pigmental bodies. Other than a small of fine granular mucin substances which were PAS positive, the majority of lung mite associated pigments such as large granules of hemosiderin, needle-like crystals and other fine granules engulfed by macrophages were identified to be siliceous materials as they have persisted even after microincineration. Mite parasites and other organic materials were completely disintegrated. Similar pigmental bodies examined by microscope X-ray analysis were positive for silicate. This finding suggests that lung mite infection in Old Monkeys apparently predisposed silicosis. Therefore, until the link between lung mite infection and silicosis is clarified, expreimental inhalation toxicologic findings in mite-infected Old World monkeys should be interpreted cautiously.
Sujet(s)
Animaux , Poumon/parasitologie , Macaca/parasitologie , Macaca fascicularis/parasitologie , Macaca mulatta/parasitologie , Macaca nemestrina/parasitologie , Microscopie électronique , Acarioses/médecine vétérinaire , Mites (acariens)/composition chimique , Papio/parasitologie , Maladies des primates/parasitologie , Silice/analyseRÉSUMÉ
During cadaver dissection at Chungnam National University in year 2001, we found a case of horseshoe kidney. The characteristic findings of this kidney were as follows; 1. Horseshoe kidney was located at the level of 12th thoracic vertebra and 4th lumbar vertebra, and its isthmus was located at the level of 3rd lumbar vertebra, just below inferior mesenteric artery. The upper pole of the right kidney was 11 mm higherthan that of left kidney. 2. Both renal arteries originated normally from the abdominal aorta below superior mesenteric artery and divided into 2 branches at the front of the renal hilum. The lower branches entered normally into the renal hilum respectively, but, 2 upper branches of right renal artery and 3 upper branches of left renal artery entered into the upper segment of both kidneys respectively. 3. The 2 accessory renal arteries were found. One was the branch of the median sacral artery, which asended anterior to the bifurcation of abdominal aorta and divided 2 branches, of which larger right branch entered inferior pole of right kidney and smaller left branch entered into the isthmus. The other was originated from abdominal aorta 1/3 distance from the origin of inferior mesenteric artery to the bifurcation of abdominal aorta, and entered into the posteroinferior part of left kidney. 4. There were additional 2~3 minor calyces in the lower part of the both kidneys in frontal section, which formed a major calyx draining into the renal pelvis. Parenchymal tissues of both kidneys were continuous through isthmus. In frontal section, renal pyramids were twice in number, and arranged into 2 groups at the upper and lower parts of the both kidneys. Especially, one renal pyramid laid transversely in the isthmus and the renal papilla of it opened into the minor calys of left kidney. It is thought that this horseshoe kidney might be resulted from the elongation of a ureteric bud, which induced new broad -field nephron within the metanephric blastema, and formed a group of additional renal pyramids. The additional renal pyramids formed slight later than normal period, and the separation of both kidneys should be failed and resulted horseshoe kidney. During ascent of kidney, the inferior mesenteric artery interrupted upward migration. It can be concluded that the error of reciprocal induction between ureteric bud and metanephric mesenchyme may be an important mechanism of horseshoe kidney formation.
Sujet(s)
Aorte abdominale , Artères , Cadavre , Pelvis rénal , Rein , Artère mésentérique inférieure , Artère mésentérique supérieure , Mésoderme , Néphrons , Artère rénale , Rachis , UretèreRÉSUMÉ
For the study the effects of X -ray irradiation on the development of lens and interactions between optic vesicle and lens, 200 rads X -ray irradiated to the preganat rats (Sprague -Dawley strain) on gestation day 9.5. The rats were sacrificed daily from the gestation day 10.5 to 17.5, and investigated the development of lens with light microscope. The results were as follows; 1. The survival rate of X -irradiated rat fetuses was decreased significantly compared with that of the control group. 2. The mean body weight of the X -irradiated rat fetuses was decreased significantly compared with that of the control group. 3. The congenital anomalies of the eye in the rat fetuses after X -irradiation were anophthalmia, congenital aphakia, lens aplasia, lens luxation, and coloboma of the retina. 4. The critical period of lens development of the Sprague -Dawley rats was considered from GD 9. 5 to GD 10.0. 5. In the X -irradiated rat fetuses on gestation day 9.5, optic vesicle did not developed, but lens developed independently , and moved deeply toward the forebrain vesicle. According to above results, it could be concluded that the development of lens from surface ectoderm might be independent from the inductive influence of optic vesicle, and the movement of lens toward the forebrain vesicle could be mediated by chemotactic factors secreted from the brain vesicle. Further studies are needed to reveal the mechanisms of lens development and interaction between lens and brain vesicle.
Sujet(s)
Animaux , Grossesse , Rats , Anophtalmie , Aphakie , Poids , Encéphale , Facteurs chimiotactiques , Colobome , 3440 , Ectoderme , Foetus , Prosencéphale , Rétine , Taux de survieRÉSUMÉ
Thymus is a lymphoid organ forming T-cells from hematogenous stem cells. There is no report on the germinal centers in the thymus except the Myasthenia gravis in human. In this study, new germinal centers were experimentally induced from 6 days after 5-FU treatment in the Sprague-Dawley rats. With germinal center formation, proteins of molecular weight 123 kDa on 6 days after 5-FU treatment, and 162 kDa and 205 kDa on 9 days after 5-FU treatment were increased in 5-FU treated group. These proteins revealed alpha 1 -and beta 1 -integrins on integrin Western Blot. In this experiment, it was cosidered that alpha 1-integrins and beta 1 -integrins were the key proteins for proliferation of B cells within the newly formed thymic germinal centers and the massive apoptotic disposal of B-cells from the germinal centers, and the new formation of T cells within the cortex.
Sujet(s)
Animaux , Humains , Rats , Lymphocytes B , Technique de Western , Fluorouracil , Centre germinatif , Intégrines , Masse moléculaire , Myasthénie , Rat Sprague-Dawley , Cellules souches , Lymphocytes T , Thymus (glande)RÉSUMÉ
The distribution of the nerve growth factor (NGF), the glial fibrillary acidic protein (GFAP) and the ciliary neurotrohic factor (CNTF) was performed in coronal sections of the mesencephalon, rhombencephalon and spinal cord in the developing Mongolian gerbils. Generally, NGF specifically recognizes neurons with the NGF receptor, whereas GFAP does the glia, and CNTF does the motor neurons. The receptor expression was examined separately in gerbils between embryonic days 15 (E15) and postnatal weeks 3 (PNW 3). The NGF-IR was first observed in the spinal cord at E21, which might be related to the maturation. The GFAP reactivity was peaked at the postnatal days 2 (PND2), while the highest CNTF-reaction was expressed at PNW 2. The GFAP stains were observed in the aqueduct and the spinal cord, which appeared to project laterally at E19. The CNTF was observed only after the birth and found in both the neurons and neuroglia of the substantia nigra, mesencephalon, cerebellum and the spinal cord from PND1 to PNW3. These results suggest that NGF, GFAP and CNTF are important for the development of the neurons and the neuroglia in the central nervous system at the late prenatal and postnatal stages.
Sujet(s)
Animaux , Femelle , Grossesse , Tronc cérébral/enzymologie , Facteur neurotrophique ciliaire/métabolisme , Développement embryonnaire et foetal/physiologie , Gerbillinae/embryologie , Protéine gliofibrillaire acide/métabolisme , Immunohistochimie/médecine vétérinaire , Mésencéphale/embryologie , Facteur de croissance nerveuse/métabolisme , Rhombencéphale/embryologie , Moelle spinale/embryologieRÉSUMÉ
GFAP (Glial Fibrillary Acidic Protein) was one of the intermediate filament group and used as an astrocyte marker. The numerous studies about GFAP immunoreactive cell's distribution were investigated for fetus, neonate and aged brains. There are several reports about that GFAP immunoreactive cells were appeared at early fetus and after birth. In cases of mammalian fetus radial glia cells migrated toward pial surface at early stage and revealed GFAP immunoreactivity by the immunostain. But in cases of rodents, they migrated at late gestation or after birth. This study, the GFAP immunoreactive cells' localizations and distribution in the fetuses (the 30 th, 45 th, 60 th, 90 th, 105 th, 120 th of gestation) and neonate mesencephalon of korean native goat were investigated by immunohistoche-mistry (ABC method). The results obtained in this study were summarized as followings; 1. Multipolar astrocytes at 60 days of gestation were found in midbrain, in 90 days of gestation were found in cerebral aqueduct. 2. Radial glial cell presented 60 days of gestation and process of GFAP immunoreaction was to stretch out from ventricular to pia mater and nonpolar immunoreactive cell was transformed to bipolar, monopolar and multipolar immunoreactive cell. 3. The number of GFAP immunoreactive cells of field were gradually decreased from 90 days of gestation till 105 days of gestation. But in 120 days of gestation and newborn were slightly increased. 4. Immunoreactivity of GFAP immunoreactive cells were gradually decreased from 95 days of gestation till 120 days of gestatioin. These results were suggested that radial glial cell of midbrain developed very earlier than that of cerebral aqueduct. However, cerebral aqueduct developed lately than that of midbrain, but faster developing than other.
Sujet(s)
Humains , Nouveau-né , Grossesse , Astrocytes , Encéphale , Aqueduc du mésencéphale , Cellules épendymogliales , Foetus , Capra , Filaments intermédiaires , Mésencéphale , Névroglie , Parturition , Pie-mère , RodentiaRÉSUMÉ
GFAP (Glial Fibrillary Acidic Protein) was one of the intermediate filament group and used as an astrocyte marker. The numerous studies about GFAP immunoreactive cell's distribution were investigated for fetus, neonate and aged brains. There are several reports about that GFAP immunoreactive cells were appeared at early fetus or after birth. In cases of mammalian fetus radial glia cells migrated toward pial surface at early stage and revealed GFAP immunoreactivity by the immunostain. But in cases of rodents, they migrated last gestation or after birth. This study, the GFAP immunoreactive cells' localizations and distribution in the fetuses (the 30th, 45th, 60th, 90th, 95th, 105th 120th of gestation) and neonate telencephalon of Korean native goat were investigated by immunohisto-chemistry (ABC method). The results obtained in this study were summarized as followings; 1. Multipolar astrocytes of 60 days of gestation were found cerebral cortex, in 95 days of gestation were found cerebral medulla, in 105 days of gestation were found lateral ventricle. 2. Radial glial cell presented 45 days of gestation and process of GFAP immunoreactive was to stretch out from ventricular to pia mater. And the nonpolar immunoreactive cells were transformed bipolar immunoreactive cells and they were transformed to monopolar and multipolar immunoreactive cell. 3. The number of GFAP immunoreactive cells of a field were gradually increased from 45 days of gestation till 90 days of gestation and decreased from 90 days of gestation till 105 days of gestation. But in 120 days of gestation and newborn were slightly increased. 4. Immunoreactivity of GFAP immunoreactive cells were gradually decreased from 95 days of gestation till 120 days of gestatioin. However, most pia mater areas and ventricles had high immunoreactivity and medulla part had low immunoreactivity. These results were suggested that radial glial cell of cerebral cortex and cerebral medulla were developed faster than lateral ventricle.
Sujet(s)
Humains , Nouveau-né , Grossesse , Astrocytes , Encéphale , Cortex cérébral , Cellules épendymogliales , Foetus , Capra , Immunohistochimie , Filaments intermédiaires , Ventricules latéraux , Névroglie , Parturition , Pie-mère , Rodentia , TélencéphaleRÉSUMÉ
Neuropeptide Y (NPY) was a 36-amino acid peptide that biochemical structure to be resemble the pancreatic polypeptide in mammalian and it was first isolated from porcine brain by Tatemoto et al. (1982). It is now known to neurotransmitter or neuromodulator as well as it has important effects to sexual precocity, regulation of feeding behavior and function of pituitary gland in avians. The distribution and morphological study of NPY-immunoreactive neurons (NPY-IR) is studied in many experimental animal but in developing chick brain have been not studied. The present study provided the distribution and morphological study of NPY-IR in developing chick brain. The developing brain of Korean native chicks embryos at E8, E10, E12, E14, E16, E18, and E20 days of incubation were used. Experimental animals were perfused with 4% paraformaldehyde through the left ventricle and aorta. The brains were removed and transferred 30% sucrose, and then cut on a cryostat into 60 mm-thick. The tissue immunostained with free-floating and avidin-biotin complex (ABC) method. The results obtained in this study are that followings. The numerous of NPY-IR first observed at E8 days in the telencephalon of neostriatum, ectostriatum, archistriatum intermedium pars ventralis, nucleus taeniae and paleostriatum agumentatum, at E12 days in telencephalon of hippocampus, at E14 days in telencephalon of hyperstriatum. In the telencephalon, NPY-IR distributed predominantly in neostriatum and ectostriatum. shape of neuron's that E8 days of incubation were oval shape neurons and increased days of chicks was sphere, oval and many multigonal shapes. Their processes were also omnidirectional. The process of neuron's that E8 days of incubation was observed a few and weak immunity and increased days of chicks was numerous and strong immunity. According to increasing the days the morphology of NPY-IR showed the tendency to increase their sizes and numbers. We suggest that the regional differences in the distribution of NPY-containing neuron types may reflect adaptations of local neuronal circuits for specialized functions.
Sujet(s)
Animaux , Aorte , Encéphale , Structures de l'embryon , Comportement alimentaire , Globus pallidus , Ventricules cardiaques , Hippocampe , Néostriatum , Neurones , Neuropeptide Y , Neuropeptides , Agents neuromédiateurs , Polypeptide pancréatique , Hypophyse , Saccharose , Taenia , TélencéphaleRÉSUMÉ
3 cases of azygos lobe were found during dissection at Chungnam National University of Korea in 2000 ~2001. All the azygos lobes located at the right upper lobe, and azygos fissures began from the upper anterior part of hilum, curved laterally and postieriorly around the apical portion of right lung toward the upper posterior part of hilum. Each azygos vein of 3 cases ran along the azygos fissure in its base, forming azygos arch, and ended into the superior vena cava at the level of 2nd costal cartilage. Bronchopulmonary dissection revealed the B 1 a and B 1 b supplying the azygos lobe in all cases.
Sujet(s)
Veine azygos , Cartilage , Corée , Poumon , Veine cave supérieureRÉSUMÉ
Mongolian gerbil (Meriones unguiculatus) has been as an model animal for studing the neurologic disease because of the long-term survival in the condition of water-deprived desert condition. In order to accomplish the this research, first of all another divided the laboratory animals 10groups. In this study of the long term water deprived condition investigated catecholamine synthetic enzymes, tyrosine hydroxylase(TH), dopamine-beta-hydroxylase (DBH), and phenylethanolamine-N- methyltransferase(PNMT) in the brain by using immunohistochemical stain. The results obtained in this study were summarized as following. 1. It were observed TH-IR cells in substantia nigra pars compacta, ventral tegmental area and substantia nigra pars reticular of Midbrian. Most of them were presented in pars compacta and ventral tegmental area, but a few in pars reticular. TH-IR cell decreased until the 5th water-deprived day, increased from the 10th water-deprived day to the 15th water-deprived day and redecreased in the 20th water-deprived day 2. In locus ceruleus and rubrospinal tract were observed TH-IR cells and a few DBH-IR cell. Therefore there was composed of dopaminergic neuron and noradrenergic neuron. 3. The quantity of dopamin in serum were decreased until the 4th water-deprived day, increased from the 5th water-deprived day, redecreased on the 15th water-deprived day and reincreased from the 20th water-deprived day.
Sujet(s)
Animaux , Neurones adrénergiques , Animaux de laboratoire , Encéphale , Neurones dopaminergiques , Gerbillinae , Locus ceruleus , Mésencéphale , Pont , Substantia nigra , Tyrosine , Aire tegmentale ventraleRÉSUMÉ
Mongolian gerbil has been as an model animal for studing the neurological diseases such as stroke and epilepsy because of the congenital incompleteries in Willis circle, as well as the investigation of water metabolism because of the long time-survival in the condition of water-deprived desert condition, compared with other animal species. In order to accomplish this research, first of all another divided the laboratory animals 5 groups of which each group include the 5 animals. In this study of the long term water deprived condition author investigatied the vasopressinergic and oxytocinergic magnocellular neurons of the hypothalamus by using a quantitative immunohistochemistry, measured the plasma osmolalities at the time of sacrifice of indivisual animals, and the body weights every day during water-deprived. The results obtained in this study were summarized as followings: 1. The body weights and decreasing rates of the body weight in water-deprived animal groups were continuosly decreased. 2. The plasma osmolalities were increased from the 5th water-deprived day, after then the gradually increase reached nearly its equilibrium state at the 10th water-deprived day. 3. Vasopressin and oxytocin immunoreactive cells were mainly observed in PVN, SON and a few in the lateral magnocellular area of hypothalamus. 4. The number of VP immunoreactive cells in paraventricular and supraoptic nucleus were abruptly decreas-ed until the 5th day in the supraoptic nucleus in number and until the 10th day in the paraventricular nucleus of water-deprived. 5. The OT secreting cells were severely decreased on the 5th water deprived day in paraventricular and supraoptic nucleus, after than these cells were very slowly decreased until to the 38th water deprived day.