The effect of intermittent fasting diet on the hippocampus of adult male mouse after inducing demyelination by ethidium bromide injection / Efecto de la dieta de ayuno intermitente en el hipocampo de ratón macho adulto después de inducir la desmielinización por inyección de bromuro de etidio

Intermittent fasting diet (IF) as a restrictive regimen prevents neural degeneration and stimulates overexpression of various neurotropic factors in the hippocampus of animal models. This study evaluates the potential effect of the IF in the prevention of learning and memory dysfunction and improving the alterations in the number and volume of neurons in an ethidium bromide (EB) induced mouse model of demyelination.Mice were randomly assigned into N group (Normal Diet and normal saline injection), F group (IF and normal saline injection), EBN group (Normal Diet and EB injection), EBF group (IF and EB injection). The hidden platform test was carried out based on path length, escape latency and swim speeds of mice. Stereological studies were determined by the Cavalieri and the Optical Dissector technique. Maintenance of mice on the IF results in significantly decreased the body weight and biochemical parameters, increased total number of neurons and volume of the hippocampus, and improved learning and memory parameters of adult male mice. However, IF in EBF group did not show as excellently as F group. The EBF group displayed significantly spatial memory improvement than that in EBN group. There were no statistically significant differences between EBF and EBN groups in stereological and learning parameters, though the EBF group displayed faster escape latencies, and swam faster and shorter path lengths than the EBN group in these parameters. Therefore as a conclusion, The IF fairly improved some adverse effects of EB in experimental demyelination models.

La dieta de ayuno intermitente (AI) como régimen restrictivo, previene la degeneración neural y la estimación de la presencia de diversos factores neurotrópicos en el hipocampo de modelos animales. Este estudio evalúa el efecto potencial de la AI en la prevención del aprendizaje y la disfunción de la memoria y mejora las alteraciones en el número y el volumen de las neuronas en un modelo de desmielinización, en ratón, inducido con bromuro de etidio (BE). Los ratones se asignaron al azar en el grupo N (dieta normal e inyección salina normal), Grupo A (AI e inyección salina normal), Grupo BEN (dieta normal e inyección BE), Grupo EBF (inyección AI y BE). La prueba de la plataforma oculta se llevó a cabo en función de la longitud del trayecto, la latencia de escape y la velocidad de nado de los ratones. Los estudios estereológicos fueron determinados por la técnica de Cavalieri y la técnica del disector óptico. En el grupo AI disminuyeron significativamente el peso corporal de los ratones, los parámetros bioquímicos, el número total de neuronas y el volumen del hipocampo, y los parámetros de aprendizaje y la memoria de los ratones machos adultos. Sin embargo, el grupo AI en BEF no se mostró tan bien como el grupo A. El grupo EBF mostró una mejora en la memoria espacial significativamente mayor que la del grupo BEN. No hubo diferencias estadísticamente significativas entre los grupos A, BE y BEN en los parámetros estereológicos y de aprendizaje, aunque el grupo EBF mostró latencias de escape más rápidas, y nado en las rutas más rápidas y más cortas que el grupo BEN en estos parámetros. Por lo tanto, como conclusión, el grupo AI mejoró bastante algunos efectos adversos de la BE en los modelos de desmielinización experimental.

Curcumin decreases astrocytic reaction after gliotoxic injury in the rat brainstem / Curcumina reduz a reação astrocitária após injúria gliotóxica no tronco encefálico de ratos

ABSTRACT Recent studies have demonstrated that curcumin (Cur) has antioxidant, anti-inflammatory and anti-fibrotic effects. Ethidium bromide (EB) injections into the central nervous system (CNS) are known to induce local oligodendroglial and astrocytic loss, resulting in primary demyelination and neuroinflammation. Peripheral astrogliosis is seen around the injury site with increased immunoreactivity to glial fibrillary acidic protein (GFAP). This investigation aimed to evaluate the effect of Cur administration on astrocytic response following gliotoxic injury. Wistar rats were injected with EB into the cisterna pontis and treated, or not, with Cur (100 mg/kg/day, intraperitoneal route) during the experimental period. Brainstem sections were collected at 15, 21 and 31 days after EB injection and processed for GFAP immunohistochemical staining. Astrocytic reactivity was measured in a computerized system for image analysis. In Cur-treated rats, the GFAP-stained area around the lesion was significantly smaller in all periods after EB injection compared to untreated animals, showing that Cur reduces glial scar development following injury.

RESUMO Estudos recentes têm demonstrado que a curcumina (Cur) possui efeitos antioxidantes, anti-inflamatórios e antifibróticos. Sabe-se que a injeção de brometo de etídio (EB) no sistema nervoso central induz a perda oligodendroglial e astrocitária, resultando em desmielinização primária e neuroinflamação. Astrogliose periférica é observada ao redor da lesão com aumento da imunorreatividade à proteína glial fibrilar ácida (GFAP). A presente investigação objetivou avaliar o efeito da Cur sobre a resposta astrocitária após injúria gliotóxica. Ratos Wistar foram injetados com EB na cisterna basal e tratados ou não com Cur (100 mg/kg/dia, via intraperitoneal) durante o período experimental. Amostras do tronco encefálico foram coletadas aos 15, 21 e 31 dias pós-injeção de EB e processadas para estudo imuno-histoquímico para a GFAP. A reatividade astrocitária foi medida em um sistema computadorizado para análise de imagem. Nos ratos tratados com Cur, a área marcada para GFAP foi significantemente menor em todos os períodos pós-injeção de EB, indicando que a Cur reduz o desenvolvimento da cicatriz glial após injúria.

Evaluación del efecto del tratamiento con ácido lipoico administrado a la rata Wistar intoxicada con el fruto de Karwinskia humboldtiana / Evaluation of the effect of treatment with lipoic acid administered to the Wistar rat intoxicated with the fruit of Karwinskia humboldtiana

La ingesta accidental de fruto de Karwinskia humboldtiana ocasiona una parálisis flácida, simétrica, progresiva y ascendente, similar al síndrome de Guillain-Barré. Evoluciona en el transcurso de 3 a 12 meses hasta su recuperación total, pero los casos graves terminan en la muerte por insuficiencia respiratoria. No existe un tratamiento específico. La lesión histopatológica descrita en nervio periférico de pacientes, y animales de experimentación corresponde a una desmielinización segmentaria acompañada de degeneración Walleriana. Una de las toxinas extraídas a partir de la semilla, la T-514, ocasiona un incremento de radicales libres in vitro. Los radicales libres se han relacionado con la desmielinización que se presenta en otros tipos de neuropatías como en la diabética. Ya que la lesión ultraestructural que se presenta en los modelos animales de diabetes es similar a la que se observa en la intoxicación experimental con fruto de K. humboldtiana, se decidió administrar un potente agente antioxidante, el ácido a-lipoico en un modelo de intoxicación crónica por fruto de K. humboldtiana. Sin embargo, no se observó mejoría sobre las manifestaciones clínicas evaluadas en los animales o sobre las lesiones histopatológicas presentes en el nervio periférico. Estos resultados sugieren que los radicales libres no son el mecanismo principal de lesión sobre el nervio periférico en la polineuropatía causada por K. humboldtiana.

The accidental ingestion of Karwinskia humboldtiana causes a flaccid, symmetrical, progressive and ascending paralysis, similar to Guillain-Barre syndrome. It evolves over the course of 3 to 12 months until full recovery, but severe cases end in death due to respiratory failure. There is no specific treatment. The histopathological lesions described in peripheral nerve of patients and in experimental animals, corresponds to segmental demyelination accompanied by Wallerian degeneration. One of the toxins extracted from the seed, T-514, causes an increase of free radicals in vitro. Free radicals have been associated to demyelination that occurs in other types of neuropathy such as diabetic neuropathy. Since the ultrastructural damage that occurs in animal models of diabetes is similar to that observed in experimental poisoning with the fruit of K. humboldtiana, we decided to administer a powerful antioxidant, a-lipoic acid, in a model of chronic poisoning due of K. humboldtiana. However, no improvement was observed on the clinical manifestations evaluated in animals or in the histopathological lesions in the peripheral nerve. These results suggest that free radicals are not the primary mechanism of injury on the peripheral nerve caused by K. humboldtiana.

Semi-quantitative analysis of the effects of cyclosporine on remyelination following gliotoxic injection in the brainstem / Análise semiquantitativa dos efeitos da ciclosporina na remielinização após injeção gliotóxica no tronco encefálico

The use of cyclosporine (CsA) has shown to induce an increase in the density of oligodendrocytes near remyelinating areas following the injection of ethidium bromide (EB), a demyelinating agent, in the rat brainstem. This study was designed in order to evaluate if CsA has the capacity of increasing remyelination. In this context, a comparison between the final balance of myelin repair in CsA treated and non-treated rats was assessed using a semi-quantitative method developed for documenting the extent and nature of remyelination in gliotoxic lesions. Wistar rats were submitted to intracisternal injection of 10 microliters of 0.1 percent EB. Some were treated during 31 days with CsA (group III - 10 mg/kg/day by 7 days and, thereafter, 3 times a week, with a minimal interval of 48 hours) by intraperitonial route. Others were not treated with CsA (group I). A control group was planned receiving into the cisterna pontis 10 microliters of 0.9 percent saline solution and following after that the same CsA administration protocol (group II). Results clearly demonstrate that in vivo administration of CsA after EB-demyelinating lesions stimulated oligodendrocyte remyelination (mean remyelination scores of 3.72±0.25 for oligodendrocytes and 1.04±0.39 for Schwann cells) compared to non-treated animals (3.13±0.71 and 1.31±0.62, respectively), although the mechanisms by which this positive CsA effect occurs are unclear.

O uso de ciclosporina (CsA) mostrou induzir um aumento na densidade de oligodendrócitos próximos a áreas de remielinização após injeção de brometo de etídio (EB), um agente desmielinizante, no tronco encefálico de ratos. Este estudo foi desenvolvido a fim de avaliar se a CsA possui a capacidade de acelerar a remielinização. Neste contexto, foi feita uma comparação entre o balanço final de reparo mielínico em ratos tratados ou não com CsA usando-se um método semiquantitativo desenvolvido para documentação da extensão e natureza da remielinização em lesões gliotóxicas. Ratos Wistar foram submetidos à injeção intracisternal de EB a 0,1 por cento. Alguns foram tratados durante 31 dias com CsA (grupo III - 10 mg/kg/dia por 7 dias e, após, 3 vezes por semana, com um intervalo mínimo de 48 horas entre as aplicações) por via intraperitoneal. Outros não foram tratados com CsA (grupo I). Um grupo controle foi desenvolvido recebendo, na cisterna pontina, 10 microlitros de solução salina e seguindo após o mesmo protocolo de administração de CsA (grupo II). Os resultados mostram claramente que a administração in vivo de CsA após lesões desmielinizantes induzidas pelo EB estimulou a remielinização por oligodendrócitos (escores médios de remielinização de 3,72±0,25 para oligodendrócitos e 1,04±0,39 para células de Schwann) em comparação aos animais não-tratados (3,13±0,71 e 1,31±0,62, respectivamente), embora os mecanismos pelos quais este efeito positivo da CsA ocorre sejam desconhecidos.

Ethidium bromide-induced demyelination in the sciatic nerve of diabetic rats / Desmielinização induzida pelo brometo de etídio no nervo ciático de ratos diabéticos

This study aims to observe the process of myelin loss and repair following the injection of the gliotoxic agent ethidium bromide (EB) in the sciatic nerve of rats previously induced to diabetes mellitus by streptozotocin. Injection of EB was also done in non-diabetic rats. The animals were euthanatized from 3 to 31 days after intraneural injection and nerve sections were collected for ultrastructural study. In non-diabetic rats, Schwann cells (CS) showed signs of intoxication 3 days after, with cytoplasmic vacuolization and rejection of their myelin sheaths. Myelin debris were removed by macrophages in the endoneurium and mast cells were abundant in the lesions. From 14 days following EB injection, supernumerary CS were seen in the expanded endoneurium as well as thin myelin sheaths indicating remyelination. Diabetic rats presented a more extensive myelin vesiculation and segmentar demyelination, with delayed activities from both macrophages and remyelinating SC. No mast cells were noted.

O estudo visa à observação do processo de perda e reparo mielínico pós-injeção do gliotóxico brometo de etídio (BE) no nervo ciático de ratos previamente induzidos a diabetes mellitus pela estreptozotocina. Injeção de BE foi igualmente realizada em ratos não-diabéticos. Os animais foram eutanasiados dos 3 aos 31 dias pós-injeção intraneural, com colheita de amostras neurais para estudo ultra-estrutural. Nos animais não-diabéticos, as células de Schwann (CS) mostraram sinais de intoxicação a partir dos 3 dias pós-gliotóxico, com vacuolização citoplasmática e rejeição de suas bainhas de mielina. Restos mielínicos eram removidos por macrófagos no interior do endoneuro e mastócitos eram abundantes nas lesões. A partir dos 14 dias, CS supranumerárias foram encontradas no endoneuro expandido, além de finas bainhas de mielina indicativas de remielinização. Os ratos diabéticos apresentaram vesiculação mielínica e desmielinização segmentar mais extensas, bem como ausência de mastócitos e atraso na atividade macrofágica e na função remielinizante das CS.

Remyelination in experimentally demyelinated connexin 32 KnockOut mice / Remielinização em camundongos KnockOut para conexina 32 desmielinizados experimentalmente

The aim of this study was to evaluate the role of connexin 32 (Cx 32) during remyelination of the peripheral nervous system, through a local injection of either 0,1 percent ethidium bromide solution or saline in the sciatic nerve of Cx 32 knockout mice. Euthanasia was performed ranging from 1, 2, 3, 7, 15, 21 to 30 days after injection. Histochemical, immunohistochemical, immunofluorescence and transmission electron microscopical techniques were used to analyze the development of the lesions. Within the sciatic nerves, Schwann cells initially showed signs of intoxication and rejected their sheaths; after seven days, some thin newly formed myelin sheaths with uneven compactness and redundant loops (tomacula) were conspicuous. We concluded that the regeneration of lost myelin sheaths within the PNS followed the pattern already reported for this model in other laboratory species. Therefore, these results suggest that absence of Cx 32 did not interfere with the normal pattern of remyelination in this model in young mice.

Este estudo visou avaliar o papel da conexina 32 (Cx 32) durante a remielinização no sistema nervoso periférico. Uma injeção local de 0,1 por cento de solução de brometo de etídio foi realizada no nervo ciático de camundongos deletados para a Cx 32, com eutanásia dos animais aos 1, 2, 3, 7, 15, 21 e 30 dias pós-injeção. Avaliações histoquímicas, imunoistoquímicas, por imunofluorescência e por microscopia eletrônica de transmissão foram utilizadas na análise do desenvolvimento das lesões. Nos nervos ciáticos, células de Schwann mostraram inicialmente sinais de intoxicação e rejeitaram suas bainhas. Após sete dias, observaram-se finas bainhas neoformadas, com compactação desigual e alças redundantes (tomácula). Conclui-se que a regeneração de bainhas de mielina perdidas no SNP seguiu o padrão já relatado deste modelo em outras espécies de laboratório. Portanto, estes resultados sugerem que a ausência da Cx 32 não interferiu com o padrão normal de remielinização em camundongos jovens neste modelo.

Ultrastructural study of the effects of cyclosporine in the brainstem of Wistar rats submitted to the ethidium bromide demyelinating model / Estudo ultra-estrutural dos efeitos da ciclosporina no tronco encefálico de ratos Wistar submetidos ao modelo desmielinizante do brometo de etídio

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.

Central nervous system demyelination associated with etanercept in a 51 years old woman

There are few case reports documenting a new onset of demyelinating processes in patients receiving anti-tumour necrosis factor alpha therapy [anti-TNF alpha] for chronic inflammatory arthropathies. Whether anti-TNF alpha therapy induces new onset demyelination or just exacerbates pre-existing latent multiple sclerosis is not fully understood. We are reporting a 51-year-old woman without a prior history of multiple sclerosis, who developed demyelinating brain lesions three months after starting Etanercept. Her symptoms partially resolved on cessation of the drug. Our case was unusual compared to some previous case reports, as the patient's age at presentation was beyond that for idiopathic multiple sclerosis. This may strengthen the hypothesis of a causal relationship between new onset demyelination and Etanercept; however, exacerbation of pre-existing demyelinating process by Etanercept in this patient still cannot be totally excluded. We recommend doing magnetic resonance imaging [MRI] of the brain before starting patients on anti-TNF alpha therapy to exclude latent demyelination. In addition, new onset demyelination following anti-TNF alpha therapy should be reported and studied thoroughly as this may yield a significant advancement in our understanding of the pathogenesis of multiple sclerosis. Long-term follow-up of these cases is also important to determine the long-term prognosis and the rate of relapse of demyelinating process in this group of patients

OSP-Immunofluorescent remyelinating oligodendrocytes in the brainstem of toxically-demyelinated Wistar rats

A remielinização do sistema nervoso central após desmielinização tóxica é um processo bem conhecido. No encéfalo, os oligodendrócitos remielinizam uma área maior do que na medula espinhal, onde as células de Schwann são preponderantes. Embora esses fatos sejam bem conhecidos, ainda não se conhece com certeza a origem das células remielinizantes. Esta investigação foi desenhada para esclarecer a participação de oligodendrócitos maduros na reconstrução das bainhas perdidas após a desmielinização induzida por brometo de etídio (BE) no tronco encefálico de ratos Wistar normais e imunossuprimidos com ciclosporina A. Trinta ratos fêmeas adultas foram divididos em três grupos experimentais. No grupo 1, os ratos receberam uma injeção de 10 mL de BE em 0,9% salina (n=10) na cisterna basal; no grupo 2, os ratos receberam a injeção de BE e foram tratados com ciclosporina A (n=10); no grupo 3 os ratos receberam uma injeção de 10 mL de 0,9% salina e foram tratados com ciclosporina A. Os ratos foram sacrificados aos 15, 21 e 31 dias após a injeção. A partir dos 15 dias muitas células da periferia das lesões tiveram marcação positiva para OSP (proteína específica do oligodendrócito), marcador de oligodendrócitos maduros e mielina. Assim, foi possível comprovar que células maduras da linhagem oligodendroglial participam do processo de remielinização neste modelo gliotóxico.

Avaliação da atividade locomotora após indução local de desmielinização tóxica no tronco encefálico de ratos Wistar / Evaluation of locomotor activity after a local induction of toxic demyelination in the brainstem of Wistar rats

Lesões desmielinizantes induzidas pelo gliotóxico brometo de etídio (BE) têm sido estudadas com o objetivo de permitir a compreensão do limitado processo de reparo mielínico no sistema nervoso central, bem como avaliar estratégias terapêuticas no sentido de acelerar a reconstrução das bainhas de mielina perdidas. Muito embora estudos eletrofisiológicos correlacionando situações de desmielinização e remielinização experimental sejam bem estabelecidos, os efeitos comportamentais não têm sido adequadamente investigados. Neste estudo, foram analisadas ultra-estruturalmente as lesões desmielinizantes e a atividade locomotora de ratos submetidos à indução focal de desmielinização pelo modelo do BE na superfície ventral do tronco encefálico, mediante observação de sua movimentação e controle motor durante a travessia de uma trave elevada de madeira (beam walking test). Foi observada a ocorrência de deficiências locomotoras até 31 dias pós-injeção de BE, constatando-se ainda que a subseqüente remielinização estava relacionada com o retorno da função perdida.

Delayed Schwann cell and oligodendrocyte remyelination after ethidium bromide injection in the brainstem of Wistar rats submitted to streptozotocin diabetogenic treatment

Schwann cell disturbance followed by segmental demyelination in the peripheral nervous system occurs in diabetic patients. Since Schwann cell and oligodendrocyte remyelination in the central nervous system is a well-known event in the ethidium bromide (EB) demyelinating model, the aim of this investigation was to determine the behavior of both cell types after local EB injection into the brainstem of streptozotocin diabetic rats. Adult male Wistar rats received a single intravenous injection of streptozotocin (50 mg/kg) and were submitted 10 days later to a single injection of 10 æL 0.1 percent (w/v) EB or 0.9 percent saline solution into the cisterna pontis. Ten microliters of 0.1 percent EB was also injected into non-diabetic rats. The animals were anesthetized and perfused through the heart 7 to 31 days after EB or saline injection and brainstem sections were collected and processed for light and transmission electron microscopy. The final balance of myelin repair in diabetic and non-diabetic rats at 31 days was compared using a semi-quantitative method. Diabetic rats presented delayed macrophage activity and lesser remyelination compared to non-diabetic rats. Although oligodendrocytes were the major remyelinating cells in the brainstem, Schwann cells invaded EB-induced lesions, first appearing at 11 days in non-diabetic rats and by 15 days in diabetic rats. Results indicate that short-term streptozotocin-induced diabetes hindered both oligodendrocyte and Schwann cell remyelination (mean remyelination scores of 2.57 ± 0.77 for oligodendrocytes and 0.67 ± 0.5 for Schwann cells) compared to non-diabetic rats (3.27 ± 0.85 and 1.38 ± 0.81, respectively).

Neurological complications of rabies vaccines.

The rabies vaccines containing neural elements are used in some countries including India. We report three cases that presented with various neurological complications following the use of these vaccines. The presenting manifestations included those of encephalitis, radiculitis and acute inflammatory demyelinating polyradiculoneuropathy. These neurological complications are highlighted so that scientific evidence compels the community to discontinue the use of the neural tissue rabies vaccines. Newer generation cell culture rabies vaccines should be preferred over the neural tissue rabies vaccines for post-exposure prophylaxis.

Ethidium bromide-induced demyelination of the sciatic nerve of adult Wistar rats

Peripheral nerve ultrastructure was assessed after single or multiple local injections of the intercalating dye ethidium bromide. Thirty-four adult Wistar rats of both sexes were divided into five groups and maintained in a controlled environment with rat chow and water ad libitum throughout the experiment. The experimental animals were injected with 1 æl of 0.1 percent ethidium bromide in 0.9 percent saline into the central third of the left sciatic nerve 1 (group 1), 2 (group 2), 4 (group 3), 6 (group 4) or 8 (group 5) times. In groups 2 to 5 the injections were made at 28-day intervals. Control animals received the same amount of 0.9 percent saline. The animals were killed at different times after injection: group 1 at 7 days (2 rats) and 15 days (2 rats); for groups 2, 3, 4 and 5, all rats were killed 10 days after the last injection and the lesions were investigated by light and transmission electron microscopy. In the acute lesions, intoxicated Schwann cells showed a vacuolated cytoplasm and separation of the sheaths from the axon. Myelin sheaths underwent progressive vesiculation and subsequent segmental demyelination. Myelin debris were withdrawn by macrophages and remyelination by Schwann cells was prominent. With the increase in the number of injections collagen fibers also increased in number and progressively enveloped smaller numbers of remyelinated axons composing new fascicles. Wallerian degeneration of fibers apparently not affected by ethidium bromide was more intense in the nerves from groups 4 and 5. The peripheral nerve repairs itself after demyelinating challenges with a profusion of collagen fibers and new fasciculations. This experimental model is valid to mimic recurrent demyelinating neuropathies

Behaviour of oligodendrocytes and Schwann cells in an experimental model of toxic demyelination of the central nervous system

Oligodendrocytes and Schwann cells are engaged in myelin production, maintenance and repairing respectively in the central nervous system (CNS) and the peripheral nervous system (PNS). Whereas oligodendrocytes act only within the CNS, Schwann cells are able to invade the CNS in order to make new myelin sheaths around demyelinated axons. Both cells have some limitations in their activities, i.e. oligodendrocytes are post-mitotic cells and Schwann cells only get into the CNS in the absence of astrocytes. Ethidium bromide (EB) is a gliotoxic chemical that when injected locally within the CNS, induce demyelination. In the EB model of demyelination, glial cells are destroyed early after intoxication and Schwann cells are free to approach the naked central axons. In normal Wistar rats, regeneration of lost myelin sheaths can be achieved as early as thirteen days after intoxication; in Wistar rats immunosuppressed with cyclophosphamide the process is delayed and in rats administered cyclosporine it may be accelerated. Aiming the enlightening of those complex processes, all events concerning the myelinating cells in an experimental model are herein presented and discussed

Polineuropatia desmielinizante periférica aguda e insuficiencia renal aguda secundaria a la administración de FK506 / Acute demyelinating peripheral polyneuropathy and acute renal failure after administration of FK506

El FK 506 (tacrolimus) es un potente inmunosupresor, de uso clínico en trasplante de órgano sólido desde 1989. Aproximadamente el 5% de los pacientes que reciben FK 506 desarrollan toxicidad a nivel de sistema nervioso central, pero la afectación de sistema nervioso periférico es poco común. Hay 4 casos reportados de polineuropatía desmielinizante aguda en pacientes trasplantados de hígado. Reportamos un caso de polineuropatía desmielinizante aguda asociada al uso de FK 506 en un paciente trasplantado renal

Inflammatory response of the spinal cord to multiple episodes of blood-brain barrier disruption and toxic demyelination in Wistar rats

Multiple episodes of blood-brain barrier disruption were induced by sequential intraspinal injections of ethidium bromide. In addition to the barrier disruption, there was toxic demyelination and exposure of myelin components to the immune system. Twenty-seven 3-month-old Wistar rats received 2, 3 or 4 injections of 1 mul of either 0.1 percent ethidium bromide in normal saline (19 rats) or 0.9 percent saline (8 rats) at different levels of the spinal cord. The time intervals between the injections ranged from 28 to 42 days. Ten days after the last injection, all rats were perfused with 2.5 percent glutaraldehyde. The spinal sections were evaluated macroscopically and by light and transmission electron microscopy. All the lesions demonstrated a mononuclear phagocytic infiltrate apparently removing myelin. Lymphocytes were not conspicuos and were found in only 34 percent of the lesions. No perivascular cuffings were detected. In older lesions (38 days and older) they were found only within Virchow-Robin spaces. This result suggests that multiple blood-brain barrier disruptions with demyelination and exposure of myelin components to the immune system were not sufficient to induce an immune-mediated reaction in the central nervous system.

Biology of the repair of central nervous system demyelinated lesions

The integrity of myelin sheaths is maintained by oligodendrocytes and Schwann cells respectively in the central nervous system (CNS) and in the peripheral nervous system. The process of demyelination consistin of the withdrawal of myelin sheaths from their axons is a characteristic feature of multiple sclerosis, the most common human demyelinating disease. Many experimental models have been designed to study the biology of demyelination and remyelination (repair of the lost myelin) in the CNS, due to the difficulties in studying human material. In the ethidium bromide (an intercalating gliotoxic drug) model of demyelination, CNS remyelination may be carried out by surviving oligodendrocytes and/or by cells differentiated from the primitive cell lines or either by Schwann cells that invade the CNS. However, some factor such as the age of the experimental anmnals, intensity and time of exposure to the intercalating clinical and the topography of the lesions have marked influente on the repair of the tissue.

Desmielinizaçäo tóxica do sistema nervoso central: I. Açäo de uma droga intercalante gliotóxica na medula espinhal de ratos Wistar / Toxic demyelination of the central nervous system: I. Effects of an intercalating gliotoxic chemical in the spinal cord of Wistar rats

Pequenos volumes de brometo de etídio foram injetados nas colunas dorsais da medula lombar de ratos Wistar. Foi assim induzido processo desmielinizante que variou em natureza e velocidade de reparaçäo de acordo com a dose empregada. As lesöes produzidas foram classificadas em três tipos (I, rápidas: II, lentas; III, intermediárias), de acordo com as características histológicas e a extensäo da remielinizaçäo. Em algumas lesöes ou em áreas dentro da mesma lesäo, os restos de mielina e de células eram rapidamente processados por macrófagos e os axônios rapidamente remielinizados por células de Schwann, em quanto em outras lesöes de duraçäo similar, ou em áreas dentro da mesma lesäo, a mielina se transformava em emaranhados de membranas que persistiam ao redor do axônio por longos períodos de tempo. Nas lesöes que continham tais membranas derivadas da mielina, os macrófagos eram escassos e a remielinizaçäo, feita pelas células de Schwann, era demorada e trabalhosa. Concluiu-se que a resoluçäo lenta de algumas lesöes resultara do lapso transcorrido entre a intoxicaçäo e o desaparecimento das células relacionada a mielina, significando que as respostas celulares a desmielinizaçäo tiveram lugar em área livre de células gliais. Esta näo podia sustentar, portnto, a movimentaçäo celular necessária para a remoçäo dos restos de mielina e a posterior remielinizaçäo. Esta investigaçäo indica que o desenvolvimento e o desfecho da desmielinizaçäo podem ser alterados pelos eventos celulares que acompanham a degeneraçäo dos oligodendrócitos

Desmielinizaçäo tóxica do sistema nervoso central: II. Aspectos biológicos das células de Schwann observados durante o processo de reparaçäo do tecido / Toxic demyelination of the central nervous system: II. Biological aspects of Schwann cells observed during the process of tissue repair

A droga gliotóxica brometo de etídio, quando injetada localmente na medula espinhal do rato, induziu áreas de desmielinizaçäo que se desenvolveram em tempos diferentes de acordo com a dose empregada. Doses altas induziram lesöes de desenvolvimento rápido (tipo I) e intermediárias (tipo III), enquanto doses baixas induziram lesöes lentas (tipo II). Após o processo desmielinizante, os azônios desprovidos de suas bainhas de mielina foram remielinizados por oligodendrócitos ou células de Schwann (CS) dependendo de sua localizaçäo em áreas contendo ou näo astrócitos, respectivamente. Na maioria das lesöes, a área remielinizada pelas CS era proeminente. Nas lesöes que repararam mais lentamente foi possível observar os fatores que influenciaram o comportamento dessas células dentro dos limites do sistema nervoso central. Após a invasäo inicial a partir da superfície pial e dos espaços preivasculares, a expansäo das CS dependeu da presenca de matriz extracelular estável. nas lesöes de tipo I, esta matriz estava presente devido a natureza inflamatória do processo. Nas lesöes de tipo II a matriz näo ocorreu e as CS só podiam migrar entre os axônios desmielizados usando-os tal como uma passadeira. Entre as células contíguas podiam ser observadas fibras colágenas de diâmetro pequeno. Näo foi evidenciada migraçäo das CS ao longo dos axônios