SUMMARY: Autism spectrum disorder (ASD) is characterized by persistent deficits in communication and social interaction, as well as restrictive or repetitive activities or interests. Its etiology is complex and heterogeneous, and the neurobiological mechanisms that give rise to the clinical phenotype are not yet fully understood. Research points to genetic and environmental factors that affect the developing brain. These advances are consistent with an enhanced understanding of the physiological functions and pathological potential of neuroglia in the central nervous system (CNS) which supports the conclusion of the contribution of these cells in ASD. Therefore, the objective of this article was to briefly review the key risk factors associated with ASD and then explore the contribution of glia in this disorder. The role of astrocytes, microgliocytes and oligodendrocytes in the homeostatic control of the CNS in the immune regulation of the brain and in axonal myelination, as well as malfunction and morphological alterations of these cells in autistic brains are emphasized.

RESUMEN: El trastorno del espectro autista (TEA) se caracteriza por presentar déficits persistentes en la comunicación y en la interacción social. Además, patrones de comportamiento, intereses o actividades de tipo restrictivo o repetitivo. Su etiología es compleja y heterogenia, y los mecanismos neurobiológicos que dan lugar al fenotipo clínico aún no se conocen por completo. Las investigaciones apuntan a factores genéticos y ambientales que afectan el cerebro en desarrollo. Estos avances coinciden con un aumento en la comprensión de las funciones fisiológicas y el potencial patológico de la neuroglia en el sistema nervioso central (SNC) que llevó a la noción de la contribución fundamental de estas células en el TEA. Así, el objetivo de este artículo fue revisar brevemente los factores de riesgo clave asociados al TEA y luego, explorar la contribución de la neuroglia en este trastorno. Se destaca el rol de los astrocitos, los microglocitos y los oligodendrocitos en el control homeostático del SNC, en la regulación inmunitaria del cerebro y en la mielinización axonal, así como el mal funcionamiento y las alteraciones morfológicas de estas células en los cerebros autistas.

RESUMEN La leucoencefalopatía multifocal progresiva es una enfermedad desmielinizante secundaria a la infección por el virus de John Cunnigham, con baja incidencia a pesar de su alta seroprevalencia en la población general. Su principal factor de riesgo es la inmunosupresión, incluyendo la infección por el virus de la inmunodeficiencia humana (VIH), cánceres hematológicos, enfermedades inflamatorias crónicas y medicamentos inmunosupresores sistémicos. Después de la infección primaria, el virus queda latente y por mutaciones en su genoma adquiere la capacidad neuroinvasiva e infecta a los oligodendrocitos, a los que lleva a su destrucción, con el consecuente proceso desmielinizante, mientras se enfrenta a la inmunidad celular del huésped. El diagnóstico se basa en manifestaciones clínicas secundarias al compromiso encefálico, clásicamente supratentorial, así como la demostración de la presencia de genoma viral o anticuerpos en suero o líquido cefalorraquídeo y hallazgos imagenológicos e histopatológicos de lesiones en la sustancia blanca cerebral. El tratamiento, en general, consiste en la recuperación de la función inmune alterada, con reparos cuando esta se presenta en el contexto de un estado de reconstitución inmune. En este escrito se revisan los aspectos básico-clínicos más relevantes de esta enfermedad.

SUMMARY The progressive multifocal leukoencephalopathy is a demyelinating disease secondary to infection to John Cunningham Virus, it has a low incidence despite a high seroprevalence in the general population. The principal risk factor for its development is an immunosuppression, including Human Immunodeficiency Virus infection, hematologic neoplasms, chronic inflammatory diseases and systemic immunosuppressive drugs. After the primary infection, the virus stays in a latent state, acquiring a neuroinvasive capacity following a set of mutations in its genome. After infecting oligodendrocytes it takes them to destruction with the consequent demyelinating process whilst its fight to the host's cellular immune system. The diagnosis is based on a set of clinical findings secondary to encephalic compromise, classically supratentorial, in addition to a demonstration of viral genome or antibodies in serum or cerebrospinal fluid and the presence of diagnostic images and histopathologic findings on the cerebral white matter. Its treatment is based on the enhancement of the disturbed immune function, with the exception of immune reconstitution state where other strategies are applied. In this paper we will review the more relevant basic and clinical aspects of this disease.

OBJECTIVES: Leukoaraiosis is described as white matter lesions that are associated with cognitive dysfunction, neurodegenerative disorders, etc. Myelin depletion is a salient pathological feature of, and the loss of oligodendrocytes is one of the most robust alterations evident in, white matter degeneration. Recent studies have revealed that claudin proteins are aberrantly expressed in leukoaraiosis and regulate oligodendrocyte activity. However, the roles of claudin-1 and claudin-3 in oligodendrocytes and leukoaraiosis are still not well-defined. METHODS: Quantitative polymerase chain reaction was used to measure the expression of claudin-1 (CLDN1), claudin-3 (CLDN3), and myelinogenesis-related genes such as myelin basic protein (MBP), proteolipid protein (PLP), oligodendrocyte transcription factor 2 (OLIG2), and SRY-box transcription factor 10 (SOX10) in leukoaraiosis patients (n=122) and healthy controls (n=122). The expression of claudin-1 and claudin-3 was either ectopically silenced or augmented in Oli-neu oligodendrocytes, and colony formation, apoptosis, and migration assays were performed. Finally, the expression of myelin proteins was evaluated by western blotting. RESULTS: Our results revealed that in addition to SOX10, the expression levels of claudin-1, claudin-3, and myelinogenesis-related proteins were prominently downregulated in leukoaraiosis patients, compared to those in healthy controls. Furthermore, the growth and migration of Oli-neu cells were downregulated upon silencing claudin-1 or claudin-3. However, the overexpression of claudin-1 or claudin-3 resulted in the reduction of the degree of apoptosis in Oli-neu cells. In addition, claudin-1 and claudin-3 promoted the expression of MBP, OLIG2, PLP, and SOX10 at the translational level. CONCLUSION: Our data has demonstrated that the abnormal expression of claudin-1 and claudin-3 regulates the pathological progression of leukoaraiosis by governing the viability and myelination of oligodendrocytes. These findings provide novel insights into the regulatory mechanisms underlying the roles of claudin-1 and claudin-3 in leukoaraiosis.

SUMMARY: Disturbances of sensory and motor nerve conduction velocity in the spinal cord as well as degenerated myelin sheaths are observed in diabetic patients and animal models. Indeed, oligodendrocytes (OLs), which are important neuroglial cells, generate myelin in the central nervous system. Spinal enlargement, including cervical and lumbar enlargements, innervates all limbs. Thus, the purposes of this study were to examine and compare the ultrastructural alterations of OLs in spinal enlargements of streptozotocin (STZ)- induced diabetic rats and controls. Thirteen male Sprague-Dawley rats were induced with STZ in citrate buffer and six control rats were injected with the same buffer solution. All rats were sacrificed after inductions at four (short-term DM) and twenty-four weeks (long-term DM). The selected spinal enlargements were processed for transmission electron microscopy. The OL alterations in both the cervical and lumbar enlargements were apparently the same. In short-term DM, the nuclei of OLs became swelled with chromatin clumping. Cytoplasmic organelles were moderately damaged. In long-term DM, OLs contained shrinkage nuclei with thick heterochromatin clumping. Severely degenerated mitochondria with disrupted cristae and broken membranes were observed. Moreover, distended and fragmented rough endoplasmic reticulum were observed, and large clear areas were present in the cytoplasm. Additionally, the loosening, splitting, and destruction of myelin lamellae were found. This study can provide important preliminary information about the alteration of OLs in the spinal cords of diabetic patients, which might be involve in the impairments of sensory and motor conduction velocities in these individuals.

RESUMEN: En pacientes diabéticos y modelos animales se observan alteraciones de la velocidad de conducción nerviosa sensorial y motora en la médula espinal, así como vainas de mielina degeneradas. De hecho, los oligodendrocitos (OL), que son importantes células neurogliales, generan mielina en el sistema nervioso central. La intumescencia espinal, a nivel cervical y lumbar, inerva los miembros. Por lo tanto, los propósitos de este estudio fueron examinar y comparar las alteraciones ultraestructurales de los OL en la intumescencia espinal de ratas diabéticas inducidas por estreptozotocina (STZ) y controles. Se indujeron trece ratas macho Sprague-Dawley con STZ en tampón citrato y se inyectaron seis ratas de control con la misma solución tampón. Todas las ratas se sacrificaron después de la inducción a las cuatro (DM a corto plazo) y a las veinticuatro semanas (DM a largo plazo). Las ampliaciones de la columna seleccionadas se procesaron para microscopía electrónica de transmisión. Las alteraciones de OL en las intumescencias cervical y lumbar eran aparentemente las mismas. En la DM a corto plazo, los núcleos de los OL se hincharon con la acumulación de cromatina. Los orgánulos citoplasmáticos sufrieron daños moderados. En la DM a largo plazo, los OL contenían núcleos de contracción con aglutinación de heterocromatina gruesa. Se observaron mitocondrias severamente degeneradas con crestas y membranas rotas. Además, se observó un retículo endoplásmico rugoso distendido y fragmentado, y estaban presentes grandes áreas claras en el citoplasma. Además, se encontraron el aflojamiento, la división y la destrucción de las laminillas de mielina. Este estudio puede proporcionar información preliminar importante sobre la alteración de los OL en la médula espinal de los pacientes diabéticos, que podría estar involucrada en las alteraciones de las velocidades de conducción sensorial y motora en estos individuos.

Abstract: BACKGROUND: Extrapontine myelinolysis is part of the osmotic demyelination syndrome, being an acute non-inflammatory demyelinating disease caused by hyperosmotic stress that injures oligodendrocytes and causes myelin loss in regions of the central nervous system other than the pons of the brain stem. Primarily caused by a rapid sodium correction in patients with hyponatremia, in pregnant women its most frequent association is with hyperemesis gravidarum. CLINICAL CASE: A 32-year-old indigenous woman was referred to a university hospital of high complexity, in Bogotá, from a territory of the Colombian Amazon, within the framework of a new health care model, with a 15-week pregnancy, who had a convulsive episode, aphasia and oral automatism, and a recent history of hyperemesis gravidarum. Another history of hyperemesis and hyponatremia a month ago. Initially, eclampsia and neuroinfection were suspected, a rapid correction of sodium, anticonvulsant, remission and management in the intensive care unit was performed. MRI was compatible with extrapontin myelinolysis. After a month she returned to the territory of origin for rehabilitation. She had a home delivery at 38.3 weeks and went to the hospital for placental delivery. CONCLUSION: Extrapontin myelinolysis should be considered in the differential diagnosis between pregnancy with acute neurological symptoms conditions and a history of hyperemesis or hyponatremia. In case of a repeated history of acute hyponatremia in pregnant women with hyperemesis, chronicity should be considered. It is recommended to integrate university hospitals to rural territories to optimize the diagnosis and management of this type of cases.

Resumen: ANTECEDENTES: La mielinolisis extrapontina forma parte del síndrome de desmielinización osmótica que lesiona los oligodendrocitos y ocasiona la pérdida de mielina en regiones del sistema nervioso central diferentes al puente del tronco encefálico. Se origina por la corrección rápida de sodio en pacientes con hiponatremia y en mujeres embarazadas se asocia con hiperémesis gravídica. CASO CLÍNICO: Paciente indígena, de 32 años, enviada a un hospital universitario de alta complejidad en Bogotá, desde un territorio de la Amazonia colombiana, en el marco de un nuevo modelo de salud, con embarazo de 15 semanas, quien tuvo un episodio convulsivo, afasia y automatismo bucal, con antecedente de hiperémesis gravídica y otro episodio de hiperémesis con hiponatremia un mes antes. Inicialmente se sospechó eclampsia y neuroinfección; se implementó tratamiento para la corrección rápida del sodio y prescripción de anticonvulsivos. La resonancia magnética cerebral fue compatible con mielinolisis extrapontina. Luego de un mes regresó a su territorio de origen para rehabilitación. Tuvo parto domiciliario a las 38.3 semanas y acudió al hospital para el alumbramiento. CONCLUSIONES: La mielinolisis extrapontina debe considerarse en el diagnóstico diferencial entre embarazo con cuadro neurológico agudo y antecedente de hiperémesis e hiponatremia. Es importante integrar, sistemáticamente, hospitales universitarios o de alta complejidad en los territorios rurales para optimizar el diagnóstico y tratamiento de estas pacientes.

Resumen Introducción. La lesión de la médula espinal (LME) es un evento devastador con implicaciones físicas, psicológicas y socioeconómicas. En el tejido cercano a la lesión se instauran cambios morfofisiológicos que determinan la recuperación funcional del segmento medular y de los órganos efectores dependientes de los tractos axonales lesionados. Objetivo. Describir los eventos bioquímicos secuenciales más relevantes de la respuesta de las células gliales posterior a la LME. Materiales y métodos. Se realizó una búsqueda de publicaciones científicas de los últimos 18 años en las bases de datos PubMed y ScienceDirect, bajo los términos en inglés spinal cord injury (SCI), SCI pathophysiology, SCI inflammation, microglia in SCI, glial scar y chondroitin sulfate proteoglycans (CSPG). Resultados. Los procesos fisiopatológicos que se producen después de la LME determinan la recuperación neurológica de los pacientes. La activación de las células gliales juega un papel importante, ya que promueve la producción de moléculas bioactivas y la formación de barreras físicas que inhiben la regeneración neural. Conclusión. El conocimiento de los cambios neurobiológicos ocurridos tras la LME permite una mayor comprensión de la fisiopatología y favorece la búsqueda de nuevas alternativas terapéuticas que limiten la progresión de la lesión primaria y que minimicen el daño secundario responsable de la disfunción neurológica.

Abstract Introduction: Spinal cord injury (SCI) is a devastating event with physical, psychological and socioeconomic implications. Morphophysiological changes are observed in the tissue close to the injury, which allow determining the functional recovery of the medullary segment and the effector organs that depend on the injured axonal tracts. Objective: To describe the most relevant sequential biochemical events of glial cells response after SCI. Materials and methods: A search of scientific publications released in the past 18 years was carried out in PubMed and Science Direct databases, with the terms spinal cord injury (SCI), SCI pathophysiology, SCI inflammation, microglia in SCI, glial scar and chondroitin sulfate proteoglycans (CSPG). Results: The pathophysiological processes resulting from SCI are determinant for the neurological recovery of patients. Activation of glial cells plays an important role in promoting bioactive molecules and the formation of physical barriers that inhibit neural regeneration. Conclusion: Knowledge of neurobiological changes after SCI allows a greater understanding of the pathophysiology and favors the search for new therapeutic alternatives that limit the progression of the primary injury and minimize secondary damage, responsible for neurological dysfunction.

The possibility that exosomes function as a new form of inter cellular communication to establish and maintain brain circuits is beginning to be investigated. Exosomes are released from cells and interact with other receptor cells to mediate physiological changes. All brain cells release exosomes including neural stem cells, neurons, astrocytes, microglia, oligodendrocytes and endothelial cells. The aim of this review is to gather current evidence on the protective, anti-inflammatory and regenerative functions of exosomes in ischemic stroke in rats. A systematic search of sensitive and specific literature was carried out in the following database search engines: Medline, EMBASE, Web of Science, Scopus, TRIP database, SciELO and LILACS with free and MeSH terms data. MSC generated exosomes can be used in the treatment of stroke. Oligodendrocyte exosomes also exert a variety of effects on receptor neurons and influence a wide spectrum of neuronal physiology. Together these results suggest that MSC exosome-mediated transfer of miR-133b to astrocytes and neurons, thus regulating gene expression, benefiting both neurite remodeling, such as functional recovery following a stroke. It would be important in the future to develop methods to quantify and characterize exosomes in brain ischemia. This would allow correlation between the amount of exosomes in the brain and functional recovery providing information relevant to its action mechanisms.

La posibilidad de que los exosomas funcionen como una nueva forma de comunicación intercelular para establecer y mantener circuitos cerebrales está comenzando a ser explorada. Los exosomas son liberados desde células e interactúan con otras células receptoras para mediar cambios fisiológicos. Todas las células cerebrales liberan exosomas incluyendo las celulas madre neuronales, las neuronas, astrocitos, microglia, oligodendrocitos y las celulas endoteliales. El objetivo de esta revisión es reunir evidencia actualizada sobre las funciones de protección, antiinflamación y regeneración de los exosomas en el ataque cerebrovascular (ACV) isquémico en ratas. Se realizó una búsqueda sistemática de la literatura sensible y específica en base de datos Medline, EMBASE, Web of Science, Scopus, TRIP database, SciELO y LILACS con términos libres y meSH. Los exosomas generados de CSMs pueden ser utilizados para el tratamiento del ACV. Los exosomas de oligodendrocitos también ejercen una variedad de efectos sobre las neuronas receptoras e influencian un amplio espectro de la fisiología neuronal. En conjunto estos resultados sugieren que los exosomas de las CSMs mediados con miR-133b se transfieren a astrocitos y neuronas, las que regulan la expresión génica, beneficiando tanto la remodelación de neuritas, como la recuperación funcional despues de un ACV. Sería importante en el futuro desarrollar métodos para cuantificar y caracterizar los exosomas en el cerebro con isquemia. Esto permitiría correlacionar entre la cantidad de exosomas en el cerebro y la recuperación funcional entregando información sobre sus mecanismos de acción.

Resumo: O epitélio olfatório (EO) é uma fonte promissora de células-tronco (CTEO) para o uso terapêutico na medicina veterinária e humana, especialmente em doenças correlacionadas com o sistema nervoso periférico (medula espinhal) e central (cérebro e tronco encefálico) , pois as CTEO possuem a capacidade de se diferenciar em células do sistema nervoso, tais como: neurônios, oligodendrócitos e astrócitos. Em humanos estas células são utilizadas em ensaios terapêuticos de doenças degenerativas como o Alzheimer e Parkinson. Em animais a casuística relativa das doenças neurodegenerativas crônicas ou agudas é baixa, devido à dificuldade de diagnóstico definitivo, desta forma o enfoque das pesquisas com terapia celular são em sua grande maioria em lesões mecânicas na medula espinhal. Devido à falta de padronização e seleção das melhores metodologias que permitam confrontação de estudos, esta revisão busca reunir as mais recentes publicações, descrevendo o potencial uso das células-tronco do epitélio olfatório em terapias celulares, discutindo os principais desafios e perspectivas futuras com enfoque na medicina veterinária.

Abstract: The olfactory epithelium (OE) is a promising source of stem cells (OESC) for therapeutic use in veterinary and human medicine, especially in diseases correlated with the peripheral (spinal cord) and central (brain and brainstem) nervous system (CNS), because of its ability to differentiate into neurons, astrocytes and oligodendrocytes cells. In humans, OESC has been used primarily in therapeutic trials for degenerative diseases such as Alzheimer and Parkinson. In animals, the frequency of corresponding cases of chronic or acute neurodegenerative diseases is very low, because of the difficulty of a definitive diagnosis; thus, the focus of cell therapy research are mostly mechanical spinal cord injuries. Due to the lack of normalization and selection of the best methodologies for comparative studies, this review aims to analyze recent reports on the potential use of stem cells from the olfactory epithelium in cell therapies and to discuss the main challenges and future prospects in veterinary medicine.

Background and Objectives: Previously we reported in layer 3 of the inferior parietal lobule a reduction in the numerical density of oligodendrocytes (Nv Ol), oligodendrocyte clusters (Nv OlC) in BA 39, and in the number of perineuronal oligodendrocytes (N PnOl) in BA 39/40 areas in schizophrenia. These changes were associated with lack of insight. We hypothesized that similar abnormalities might occur in layer 5 in BA 39/40, and they might be associated with lack of insight. Methods: We estimated the Nv Ol, the Nv OlC by optical disector method and the N PnOl in layer 5 in BA 39/40 in Nissl stained sections from 24 males with schizophrenia and 24 normal male controls from the Stanley Parietal Collection. The schizophrenia group was divided into three subgroups based on level of insight: poor, fair or good. Results: We found a significant deficit in the parameters measured in BA 39 in the schizophrenia group and in the subgroup of subjects having poor insight as compared to the control group. In BA 40 the Nv Ol and the Nv OlC were significantly lower in the schizophrenia group compared to controls, and the N PnOl was not changed. Each insight subgroup showed a decreased the Nv Ol and the Nv OlC compared to controls. There were no subgroup differences in BA 39/40. Conclusions: Schizophrenia is characterized by the reduction in the Nv Ol and the Nv OlC in layer 5 of BA 39/40. Oligodendrocyte abnormalities in BA 39 are associated with poor insight in schizophrenia.

Objective The diabetic state induced by streptozotocin injection is known to impair oligodendroglial remyelination in the rat brainstem following intracisternal injection with the gliotoxic agent ethidium bromide (EB). In such experimental model, propentofylline (PPF) recently showed to improve myelin repair, probably due to its neuroprotective, antiinflammatory and antioxidant effects. The aim of this study was to evaluate the effect of PPF administration in diabetic rats submitted to the EB-demyelinating model. Materials and methods Adult male rats, diabetic or not, received a single injection of 10 microlitres of 0.1% EB solution into the cisterna pontis. For induction of diabetes mellitus the streptozotocin-diabetogenic model was used (50 mg/kg, intraperitoneal route – IP). Some diabetic rats were treated with PPF (12.5 mg/kg/day, IP route) during the experimental period. The animals were anesthetized and perfused from 7 to 31 days after EB injection and brainstem sections were collected for analysis of the lesions by light and transmission electron microscopy. Results Diabetic rats injected with EB showed larger amounts of myelin-derived membranes in the central areas of the lesions and considerable delay in the remyelinating process played by surviving oligodendrocytes and invading Schwann cells after the 15th day. On the other hand, diabetic rats that received PPF presented lesions similar to those of non-diabetic animals, with rapid remyelination at the edges of the lesion site and fast clearance of myelin debris from the central area. Conclusion The administration of PPF apparently reversed the impairment in remyelination induced by the diabetic state. Arch Endocrinol Metab. 2015;59(1):47-53

Background and Objectives: Previously we reported a significant reduction in the numerical density of oligodendrocytes and oligodendrocyte clusters in the inferior parietal lobule (IPL) in schizophrenia that was associated with lack of insight. We also found a significant decrease in the number of perineuronal oligodendrocytes (PnOl) in the prefrontal cortex in schizophrenia and therefore we hypothesized that there may also be a deficit of PnOl in the IPL in schizophrenia and that it could be associated with poor insight. Methods: We estimated the number of PnOl adjacent to pyramidal neurons in layer 3 of BA39 and BA40 in Nissl stained sections from 24 males with schizophrenia and 24 normal male controls from the Stanley Parietal Collection. The schizophrenia group was divided into three subgroups based on level of insight: poor, fair or good. Results: We found a significant deficit of PnOl in layer 3 of BA39 and BA40 in the schizophrenia group as compared to the control group (p<0.01). In the control group but not in the schizophrenia group in BA39 the number of PnOl was significantly higher in the left hemisphere compared to the right hemisphere. In schizophrenia, in BA39 the number of PnOl was decreased in the subgroup with poor insight vs. controls. In BA40 the subgroups with both poor and fair insight were decreased vs. controls (p<0.01). In BA40 the subjects with fair insight also differed from those with good insight (p<0.01). Conclusions: The reduction of PnOl in the IPL in schizophrenia is associated with impaired insight and lack of hemispheric asymmetry.

Background and Objectives: Deficits in oligodendrocytes have been consistently reported in the brains of patients with schizophrenia and include alterations in the clustering pattern of oligodendrocytes. Recently it has been shown that oligodendrocyte progenitors proliferate in the adult mammalian brain to form oligodendrocyte clusters (OlC). We previously found a deficit of oligodendrocytes in layer 3 of the inferior parietal lobule (IPL) in subjects with schizophrenia with poor insight into disorder. We hypothesized that the number of OlC might be reduced in schizophrenia subjects with poor insight. Methods: Nissl-stained sections from the Stanley "Parietal Collection" from male schizophrenia subjects (n = 24) that have poor, fair, or good insight into their disorder and normal matched controls (n = 24) were studied. The numerical density (Nv) of OlC was estimated in layer 3 of BA 39 and BA 40 by optical disector method. Results: The Nv of OlC was 23% lower in BA 39 and 30% lower in BA40 in the schizophrenia group compared to the control group (p Conclusions: The deficit of OlC may be associated with altered proliferation and/or maturation of oligodendrocyte progenitors in schizophrenia.

Background and Objectives: Alterations and deficits of oligodendrocytes reported in the grey and white matter in schizophrenia may contribute to neuronal disconnectivity. Prefrontal-parietal functional disconnections have been implicated in diverse clinical symptoms of schizophrenia, including poor insight. We studied the effects of schizophrenia diagnosis and insight on numerical density (Nv) of oligodendrocytes in the inferior parietal lobule (IPL). Methods: Nissl-stained sections from the Stanley "Parietal Collection" from male schizophrenia subjects (n = 24) having poor, fair, or good insight and healthy matched controls (n = 24) were examined. The Nv of oligodendrocytes was estimated in layer 3 of BA 39 and BA 40 of the IPL and in white matter underlying layer 6 by optical dissector method. Results: In BA 39 we found a significant 15% decrease in the Nv of oligodendrocytes in layer 3 in the schizophrenia group. Nv of oligodendrocytes in the poor+fair insight subgroup was 20% lower compared to controls (p< 0.05) and to good insight subgroup (p = 0.055). Nv of oligodendrocytes in the good insight subgroup did not differ from the control group. A significant lateralization of oligodendrocyte density was detected in layer 3 (L>R) only in the control group. There were no significant group differences in the Nv of oligodendrocytes in BA 40 or in the white matter underlying BA 39/40 areas. Conclusions: Lack of insight in schizophrenia may be associated with a deficit of oligodendroglia in the grey matter of IPL.

The optic nerve carries out the information integrated by retinal ganglion cells towards the optic tectum, so that surrounding environment images are generated. The main goal of this paper is to describe morphometricaly the Tete sea catfish (Ariopsis seemanni) optic nerve, using high resolution optical microscopy (HROM), on 1 micron thick sections. A. seemanni optic nerve does present myelinated nerve fibers, accompanied by oligodendrocytes and astrocytes. The nerve is covered by the meninges, with blood vessels and adipocites. The nerve has a transversal area of 179,604 ± 30163 mm2, a diameter of 478 ± 42 mm and 22848 ± 4350 myelinated fibers, most are small in size, which may be related to a low conduction velocity.

En peces, el nervio óptico es el encargado de transportar la información integrada por las células ganglionares de la retina hacia el tectum óptico, para que se generen imágenes acerca del entorno. El objetivo de este trabajo es describir morfométricamente el nervio óptico del tiburoncito (Ariopsis seemanni), para lo cual se utilizó la Microscopía óptica de Alta Resolución (MOAR), realizando cortes a 1 micra de espesor. El nervio óptico de A. seemanni presenta fibras mielínicas de diverso calibre, acompañadas de oligodendrocitos y astrocitos. El nervio está cubierto por las meninges, que presentan vasos sanguíneos y adipocitos. El nervio tiene un área total de 179604 ± 30163 µm2, diámetro de 478 ± 42 µm y un número total de fibras mielínicas de 22848 ± 4350, de las cuales la mayoría tiene un tamaño pequeño, que puede estar relacionado con una velocidad de conducción baja.

Valioso conhecimento a respeito de esquizofrenia tem sido gerado recentemente para decifrar sua patobiologia e revelar biomarcadores. Entretanto, esforços ainda são necessários, especialmente se levarmos em conta que essa debilitante desordem mental afeta aproximadamente 30 milhões de pessoas ao redor do mundo. Considerando que esquizofrenia é resultado de uma complexa interação entre fatores ambientais, função genética alterada e expressão proteica diferencial sistemática, a proteômica é provavelmente uma ferramenta adequada ao estudo dessa desordem. Aqui sintetizamos os principais achados em estudos proteômicos e posteriores direções a serem tomadas de forma a melhor compreender a bioquímica da esquizofrenia, bem como revelar biomarcadores.

Valuable knowledge about schizophrenia has been recently generated for deciphering its pathobiology and revealing biomarkers. However, efforts are still needed, especially if we take in account that this debilitating mental disorder affects approximately 30 million people worldwide. Considering that schizophrenia is a result of a complex interaction among environmental factors altered gene function and systematic differential protein expression, proteomics is likely to be a suitable tool for studying this disorder. Here we synthetize the main findings by proteomic studies and further directions to be taken in order to better comprehend the biochemistry of schizophrenia as well as reveal biomarkers. In addition, we summarize proteomic methodologies used in such studies.