ABSTRACT
Although ultrastructural characteristics of mature neuroglia in the central nervous system (CNS) are very well described in mammals, much less is known in reptiles, especially serpents. In this context, two specimens of Bothrops jararaca were euthanized for morphological analysis of CNS glial cells. Samples from telencephalon, mesencephalon and spinal cord were collected and processed for light and transmission electron microscopy investigation. Astrocytes, oligodendrocytes, microglial cells and ependymal cells, as well as myelin sheaths, presented similar ultrastructural features to those already observed in mammals and tended to maintain their general aspect all over the distinct CNS regions observed. Morphological similarities between reptilian and mammalian glia are probably linked to their evolutionary conservation throughout vertebrate phylogeny...
Muito embora as características ultraestruturais da neuróglia madura do sistema nervoso central (SNC) sejam bem descritas em mamíferos, muito pouco é conhecido em répteis, especialmente em serpentes. Neste contexto, dois espécimes de Bothrops jararaca foram eutanasiados para análise morfológica das células gliais presentes no SNC. Amostras de telencéfalo, mesencéfalo e medula espinhal foram coletadas e processadas para investigação por microscopia de luz e eletrônica de transmissão. Astrócitos, oligodendócitos, células microgliais e ependimárias, bem como bainhas de mielina, apresentaram características ultraestruturais similares àquelas já observadas em mamíferos e tenderam a manter seu aspecto geral pelas diferentes regiões observadas no SNC. Similaridades morfológicas entre as células gliais de mamíferos e de répteis estão provavelmente ligadas a sua conservação evolutiva ao longo da filogenia dos vertebrados...
Subject(s)
Animals , Bothrops/anatomy & histology , Neuroglia/ultrastructure , Central Nervous System/ultrastructure , Cell Nucleus Shape , Snakes/anatomy & histologyABSTRACT
The effect of manganese toxicity on the ultrastructure of the olfactory bulb was evaluated. Male albino mice were injected intraperitoneally with MnCl2 (5 mg/Kg/day) five days per week during nine weeks. The control group received NaCl (0.9%). The olfactory bulbs of five mice from each group were processed for transmission electron microscopy after 2, 4, 6 and 9 weeks of manganese treatment. On week 2, some disorganization of the myelin sheaths was observed. After 4 weeks, degenerated neurons with dilated cisternae of rough endoplasmic reticulum and swollen mitochondria appeared. A certain degree of gliosis with a predominance of astrocytes with swollen mitochondria, disorganization of the endomembrane system, dilation of the perinuclear cisternae and irregularly shaped nuclei with abnormal chromatin distribution were observed after 6 weeks. Some glial cells showed disorganization of the Golgi apparatus. On week 9, an increase in the number of astrocytes, whose mitochondrial cristae were partially or totally erased, and a dilation of the rough endoplasmic reticulum were found. Neurons appear degenerated, with swollen mitochondria and a vacuolated, electron dense cytoplasm. These changes seem to indicate that the olfactory bulb is sensitive to the toxic effects of manganese.
Subject(s)
Male , Animals , Mice , Golgi Apparatus , Golgi Apparatus/ultrastructure , Astrocytes , Astrocytes/ultrastructure , Chlorides/toxicity , Endoplasmic Reticulum, Rough , Endoplasmic Reticulum, Rough/ultrastructure , Olfactory Bulb , Olfactory Bulb/ultrastructure , Manganese Compounds , Microscopy, Electron, Transmission , Mitochondria , Mitochondria/ultrastructure , Neuroglia , Neuroglia/ultrastructure , Neurons , Neurons/ultrastructureABSTRACT
The ethidium bromide-demyelinating model (EB) was used to study remyelination in the brainstem under the use of cyclosporine (CsA). Wistar rats were submitted to intracisternal injection of 0.1 percent EB or 0.9 percent saline solution, and others were taken as histologic controls (group I). Within those injected with EB, some have not received immunosuppressive treatment (II); some were treated by intraperitonial route with CsA (III.E - 10 mg/kg/day). Rats from group III.C were injected with saline solution and treated with CsA. The animals were perfused from 15 to 31 days post-injection collecting brainstem sections for light and transmission electron microscopy studies. After EB injection it was noted the presence of macrophages and non-degraded myelin debris, demyelinated axons, oligodendrocyte or Schwann cell remyelinated axons, groups of infiltrating pial cells, hypertrophic astrocytes and few lymphocytes. Tissue repair of EB-induced lesions in group III.E was similar to that of group II, but with the presence of a higher density of oligodendrocytes near remyelinating areas.
Empregou-se o modelo desmielinizante do brometo de etídio (BE) com o objetivo de estudar a remielinização no tronco encefálico frente ao uso de ciclosporina (CsA). Foram utilizados ratos Wistar, submetidos à injeção de BE a 0,1 por cento ou de solução salina na cisterna pontina, assim como controles histológicos (grupo I). Dos animais injetados com BE, alguns não receberam tratamento imunossupressor (II); outros foram tratados por via intraperitoneal com CsA (III.E - 10 mg/kg/dia). O grupo III.C incluiu animais injetados com salina e tratados com CsA. Os animais foram perfundidos dos 15 aos 31 dias pós-injeção, com colheita de material do tronco encefálico para estudos de microscopia de luz e eletrônica de transmissão. Após injeção de BE, foram observados macrófagos e restos de mielina não-degradada, axônios desmielinizados ou remielinizados por oligodendrócitos e por células de Schwann, grupos de células piais infiltrantes, astrócitos hipertróficos e poucos linfócitos. O processo de reparo das lesões no grupo III.E apresentou-se similar ao do grupo II, porém com maior densidade de oligodendrócitos próximos às áreas de remielinização.
Subject(s)
Animals , Male , Rats , Brain Stem/drug effects , Cyclosporine/therapeutic use , Demyelinating Diseases/pathology , Immunosuppressive Agents/therapeutic use , Neuroglia/ultrastructure , Brain Stem/cytology , Brain Stem/physiology , Brain Stem/ultrastructure , Disease Models, Animal , Drug Evaluation, Preclinical , Demyelinating Diseases/chemically induced , Demyelinating Diseases/drug therapy , Demyelinating Diseases/physiopathology , Ethidium , Microscopy, Electron, Transmission , Macrophages/drug effects , Macrophages/ultrastructure , Myelin Sheath/drug effects , Myelin Sheath/physiology , Neuroglia/drug effects , Neuroglia/physiology , Oligodendroglia/drug effects , Oligodendroglia/ultrastructure , Rats, Wistar , Schwann Cells/drug effects , Schwann Cells/ultrastructureABSTRACT
Invertebrate glial cells show a variety of morphologies depending on species and location. They have been classified according to relatively general morphological or functional criteria and also to their location. The present study was carried out to characterize the organization of glial cells and their processes in the zona fasciculata and in the protocerebral tract of the crab Ucides cordatus. We performed routine and cytochemical procedures for electron microscopy analysis. Semithin sections were observed at the light microscope. The Thiéry procedure indicated the presence of carbohydrates, particularly glycogen, in tissue and in cells. To better visualize the axonal ensheathment at the ultrastructural level, we employed a method to enhance the unsaturated fatty acids present in membranes. Our results showed that there are at least two types of glial cells in these nervous structures, a light one and a dark one. Most of the dark cell processes have been mentioned in the literature as extracellular matrix, but since they presented an enveloping membrane, glycogen and mitochondria - intact and with different degrees of disruption - they were considered to be glial cells in the present study. We assume that they correspond to the perineurial cells on the basis of their location. The light cells must correspond to the periaxonal cells. Some characteristics of the axons such as their organization, ensheathment and subcellular structures are also described
Subject(s)
Animals , Central Nervous System/chemistry , Neuroglia/ultrastructure , Axons/ultrastructure , Brachyura , Darkness , Extracellular Matrix , Light , Microscopy, ElectronABSTRACT
Müller cells provide nutrition for neural cells. We studied the structure and ultrastructure of Müller cells in the retina of thirty 3-month old Wistar rats, divided equally into 3 groups: normal rats, alloxan diabetic rats and treated alloxan diabetic rats, 1 and 12 months after induction of diabetes. We observed that the Müller cell nuclei under light microscope examination had hexagonal shape and higher density than the other nuclei. Differences between groups could be observed only by electron microscopy. In the diabetic rats, Müller cells presented dispersion of nuclear chromatin and electrondense nuclear granulations, with the presence of increased glycogen, dense bodies and lysosomes in the cytoplasm. The alterations were more frequent in the perivascular region and at 12 months. The treated diabetic rats exhibited some alterations we observed in diabetic rats, but these alterations were less intense. We conclude that, despite the treatment, the diabetic retinopathy continues to evolve
Subject(s)
Animals , Rats , Diabetes Mellitus, Experimental/pathology , Neuroglia/ultrastructure , Diabetic Retinopathy/pathology , Alloxan , Insulin/administration & dosage , Rats, Wistar , Retina/ultrastructureABSTRACT
This study was performed to investigate the sequential changes of the retinal tissue in tissue culture condition. The human sensory retinal tissues were cultured for up to 2 weeks and 4 weeks, respectively. The initial changes showed the separation of the intercellular space and the consequent widening of the intercellular space with prolapse of cytoplasmic processes into the widened intercellular space. The internal limiting membrane was also separated from the inner retina, which led to the prolapse of the cytoplasm of the Muller cell. The growth of the Muller cell was most prominent during the 4-weeks' tissue culture period. These findings suggest that the Muller cell might contribute to the formation of cellular membrane in case of the defect of the internal limiting membrane in several pathologic conditions.
Subject(s)
Adult , Humans , Male , Middle Aged , Cell Membrane/ultrastructure , Cells, Cultured , Neuroglia/ultrastructure , Retina/ultrastructureABSTRACT
Brain tissues from 10 patients (of non-neurological disease) were studied for the presence of corpora amylacea (CA) using light microscopy (LM), immunohistochemistry (IH) for localisation of glial fibrillary acidic protein (GFAP) and transmission electron microscopy (TEM). Immunoelectron microscopy (IEM) by post-embedding technique using colloidal gold was also performed in two of these patients for more precise localisation of GFAP. Three types of immunoreactivity were noted by IH under LM; some CA were completely negative for GFAP (type III), while others showed positivity, which was either diffuse (type I) or confined to the periphery (rim positivity-type II). TEM showed variable sizes in electron dense material in the centre associated with different amounts of glial filaments (GFs) at the periphery. Thus the different types of IH staining appeared to corroborate with the presence and amount of GFs in CA. The sensitive technique of IEM confirmed the presence of GFAP in all CA irrespective of their IH typing at LM. It is suggested that CA formation in astrocytes is associated with progressive fragmentation and disintegration of GFs with resulting increase in the accumulation of electron dense GFAP-negative material. As more and more of GFs get incorporated and disintegrated, it results in increase in the size of the CA. Thus, the present study clearly demonstrates that GFAP in the GFs contributes to the composition of CA.
Subject(s)
Aged , Brain/ultrastructure , Brain Chemistry , Glial Fibrillary Acidic Protein/analysis , Humans , Immunohistochemistry , Microscopy , Microscopy, Electron , Microscopy, Immunoelectron , Middle Aged , Neuroglia/ultrastructureABSTRACT
Se estudió con microscopía óptica y electrónica, y algunas técnicas histoquímica, la organización estructural de los ganglios del cordón ventral de las langostas Panuliirus argus y Jasus ventralis. Los ganglios estaban distribuidos en tres grupos bien diferenciados. Un gran espacio extracelular que contenía glicosaminglucoronglicanos atravesado por trabéculas gliales separaba a los grupos ganglionares de la cápsula de tejido conectivo. Varias capas de prolongaciones gliales que envolvían a las neuronas monopolares y sus axones, se interponían entre los grupos neuronales y los vasos sanguíneos. El retículo endoplasmático liso, a veces organizado en cisternas paralelas y la porción intrasomática del axón fueron la sestructuras más llamativas del pericarion neuronal. Con la técnica de doble impregnación argéntica de del Rio Hortega, se observó mejor el citoesqueleto de la porción intrasomática del axón. Acúmulos de gránulos de glicógeno predominaban en las neuronas. Los ganglios estudiados podrían constituir un modelo adecuado para investigar la relación entre estructura y función en un sistema nervioso relativamente simple
Subject(s)
Animals , In Vitro Techniques , Microscopy, Electron , Nephropidae , Neuroglia/ultrastructure , Neurons/ultrastructureABSTRACT
Development and differentiation of astrocytes and oligodendrocytes (OC) in the developing human fetal spinal cord (HFSC) have been investigated by the correlative analysis of light microscopic, EM, Golgi and immunocytochemical studies. The evidence is presented to suggest, (a) that radial glia are the first distinguishable neuroglial element among the cells within the ventricular zone, (b) that radial glia contains astrocyte-specific glial fibrillary acidic protein (GFAP), (c) that radial glia undergoes transformation into astroglial cells, (d) that "transitional forms" possessing the light and EM features of both astroglial and oligodendroglial cells appear just prior to the onset of myelination, and (e) the myelin-forming OC are most likely derived from radial glial cells, either directly or through intermediated astroglial forms.