Expression of Pax6 and Pax7 proteins during the central nervous system development in human embryos / Expresión de proteínas Pax6 y Pax7 durante el desarrollo del sistema central nervioso en embriones humanos

The family of paired box (Pax) genes encodes the transcription factors that have been emphasized for the particular importance to embryonic development of the CNS, with the evidence obtained from various animal models. Human embryos have rarely been available for the detection of the expression of Pax family members. In this study 32 human embryos of Carnegie (CS) stages 10-20 were investigated to find the differences in the expression of Pax6 and Pax7 proteins in different regions of the neural tube and the caudal spinal cord. The expression of Pax6 and Pax7, as determined by immunohistochemistry, showed a tendency to increase in the later stages of the development both in the spinal cord and the brain. Significantly weaker expression of Pax6 and Pax7 was observed at CS 10 as compared to the later stages. At CS 10-12 weak expression of Pax6 was noticed in both dorsal and ventral parts of the developing spinal cord, while the expression of Pax7 was restricted to the cells in the roof plate and the dorsal part of the spinal cord. At CS 14-20 in the developing spinal cord Pax6 and Pax7 were detected mostly in the neuroepithelial cells of the ventricular layer, while only weak expression characterized the mantle and the marginal layers. At the same stages in the developing brain Pax6 and Pax7 were expressed in the different regions of the forebrain, the midbrain and the hindbrain suggesting for their involvement in the differentiation of neurons in specific parts of the developing brain.

La familia de genes Pax del inglés (Paired box) codifica los factores de transcripción debido a la particular importancia en el desarrollo embrionario del SNC, con la evidencia obtenida de varios modelos animales. Rara vez han estado disponibles embriones humanos para la detección de la expresión de genes de la familia Pax. En este estudio, se investigaron 32 embriones humanos de Carnegie (CS) etapas 10-20 para encontrar las diferencias en la expresión de las proteínas Pax6 y Pax7 en diferentes regiones del tubo neural y la médula espinal caudal. La expresión de Pax6 y Pax7, según la inmunohistoquímica, se observó una tendencia a aumentar en las etapas posteriores del desarrollo, tanto en la médula espinal como en el cerebro. Se observó una expresión significativamente más débil de Pax6 y Pax7 en CS 10 en comparación con las etapas posteriores. En CS 10-12 se notó una expresión débil de Pax6 en las partes dorsal y ventral de la médula espinal en desarrollo, mientras que la expresión de Pax7 se limitó a células en la placa del techo y dorsal de la médula espinal. En CS 14-20 en la médula espinal en desarrollo, Pax6 y Pax7 se observó principalmente en las células neuroepiteliales de la capa ventricular, mientras que expresión débil se caracterizó en las capas marginales. En las mismas etapas en el cerebro en desarrollo, Pax6 y Pax7 se expresaron en las diferentes áreas del prosencéfalo, el mesencéfalo y el mesencéfalo, lo que sugiere su participación en la diferenciación de las neuronas en partes específicas del cerebro en desarrollo.

Immunohistochemical detection of BMP-2 and BMP-4 in the developing neural tube and spinal cord of human embryos / Detección inmunohistoquímica de BMP-2 y BMP-4 en el desarrollo del tubo neural y médula espinal del embrión humano

The role of bone morphogenetic proteins (BMP-s) in the development of the nervous system has been widely studied on avian and rodent embryos. Human embryos have rarely been available for detection of BMP expression. In this study 39 human embryos of Carnegie stages (CS) 10-20 were investigated. The embryos were fixed in paraformaldehyde, embedded in paraffin and sectioned serially in transverse direction. BMP-2 and BMP-4 protein expression in the developing neural tube and the caudal spinal cord was determined by immunohistochemistry. Our data show that BMP-s tend to be more expressed in the neural tube in earlier stages; in particular, BMP-4 staining was found to be higher at CS10 compared to CS20. More detailed analysis was performed on embryos of CS14-18. Stronger BMP-2 and BMP-4 expression was found in the dorsal part than in the ventral part of the spinal cord. No differences were seen in the staining intensity of BMP-s in the spinal ganglia. Interestingly, in neural crest cells BMP-2 staining was stronger at CS16 and CS18 as compared to CS14, while no differences were found in BMP-4 staining. On the other hand, in the non-neural ectoderm BMP-4 staining was found to be stronger at CS16 than at CS14, while no differences were seen for BMP-2. In conclusion, expression of BMP-s in the developing neural tube and spinal cord of human embryos is generally in accordance with the findings made in rodents and birds.

El papel de las proteínas morfogenéticas óseas (BMP-s) ha sido ampliamente estudiado en el desarrollo del sistema nervioso en embriones de aves y roedores. Los embriones humanos rara vez han estado disponibles para la detección de la expresión de BMP. En este estudio se investigaron 39 embriones humanos de los estadios Carnegie (CS) 10-20. Los embriones fueron fijados en paraformaldehído, embebidos en parafina y seccionados en serie en dirección transversal. Se determinó por inmunohistoquímica BMP-2 la expresión de la proteína BMP-4 en el tubo neural y en la médula espinal caudal en desarrollo. Nuestros resultados mostraron que la BMP-s tienden a ser más expresadas en el tubo neural en etapas tempranas, en particular, se encontró tinción BMP-4 más alta en comparación con CS10 CS20. Un análisis más detallado se realizó en embriones de CS14-18. En la parte dorsal se observó mayor expresión de BMP-2 y de BMP-4 que en la parte ventral de la médula espinal. No se observaron diferencias en la intensidad de la tinción de BMP-s en los ganglios espinales. Curiosamente, en las células de la cresta neural BMP-2 la tinción fue más fuerte en CS16 y CS18 en comparación con CS14, mientras que no se encontraron diferencias en la tinción de BMP-4. Por otro lado, en el ectodermo no neural se encontró tinción BMP-4 más fuerte en CS16 que en CS14, mientras que no se observaron diferencias para BMP-2. En conclusión, la expresión de BMP-s en el tubo neural en desarrollo y la médula espinal de embriones humanos está generalmente de acuerdo con los hallazgos realizados en roedores y aves.

Evaluation of an experimental model for anorectal anomalies induced by ethylenethiourea

PURPOSE: To evaluate an experimental model for anorectal anomalies and their principal associated malformations induced by ethylene thiourea (ETU). METHODS: Rat fetuses were utilized, divided into two groups: experimental group - fetuses from rats that received ETU on the 11th day of gestation at the dose of 125 mg/kg, diluted in distilled water to 1 percent concentration (12.5 ml/kg); and control group - fetuses from rats that received distilled water alone, at a volume of 12.5 ml/kg. On the 21st day of gestation, the animals were sacrificed by hypoxia in a carbon dioxide chamber, followed by laparotomy to remove the fetuses. These were initially examined externally to determine the sex and whether anorectal anomalies and malformations of the vertebral column and tail were present. Then, with the aid of microscopy, the fetuses underwent exploratory laparotomy to characterize the type of anorectal anomaly and investigate urological malformations. RESULTS: None of the fetuses in the control group presented anorectal anomaly, vertebral column malformation or urological structural alterations. In the experimental group, 71 percent presented anorectal anomaly, 80 percent presented vertebral column alterations and 35 percent presented urological alterations. CONCLUSION: The model described was shown to be easy to implement and presented results that allow its use in studying anorectal anomalies and associated malformations.

OBJETIVO: Avaliar o modelo experimental de AAR, induzido pela Etilenotiouréia (ETU), quanto à ocorrência de anomalia anorretal e das principais malformações associadas. MÉTODOS: Foram utilizados fetos de ratos distribuídos em 2 grupos: Grupo experimental - Fetos provenientes de ratas que receberam ETU no décimo primeiro dia de gestação na dose de 125 mg/Kg, diluída em água destilada na concentração de 1 por cento (12,5 ml/Kg) e Grupo controle - Fetos de ratas que receberam somente água destilada num volume de 12,5 ml/Kg. No 21° dia de gestação, os animais foram submetidos à eutanásia por hipóxia em câmara de gás carbônico e laparotomia para retirada dos fetos. Os fetos foram, inicialmente, examinados externamente para determinação do sexo, presença de AAR, de malformações de coluna vertebral e da cauda. A seguir, com o auxílio de microscopia, os fetos foram submetidos a laparotomia exploradora para caracterização do tipo de AAR e investigação de malformações urológicas. RESULTADOS: Nenhum dos fetos do grupo controle apresentou AAR, malformações de coluna vertebral e alterações urológicas estruturais. No grupo experimental, 71 por cento apresentaram anomalia anorretal, 80 por cento apresentaram alterações de coluna vertebral e 35 por cento apresentaram alterações urológicas. CONCLUSÃO: O modelo descrito se mostrou de fácil execução e apresentou resultados que permite o seu emprego no estudo das anomalias anorretais e das malformações associadas.

Identification and characterization of scirr1, a novel gene up-regulated after spinal cord injury

Spinal cord injury and regeneration involves transcriptional activity of many genes, of which many remain unknown. Using the rat spinal cord full- transection model, bioinformatics, cloning, expression assays, fusion proteins, and transfection techniques, we identified and characterized one such differentially expressed gene, termed scirr1 (spinal cord injury and/or regeneration related gene 1). Fourteen orthologs were found in 13 species from echinoderm to insect and human by Blast search of NCBI protein reference sequence database. However, no further information is available for these homologues. Using whole-mount in situ hybridization, mouse scirr1 mRNA was expressed temporally and spatially in accordance with the early development sequence of the central nervous system. In adult rat spinal cord, expression of scirr1 mRNA was localized to neurons of gray matter by in situ hybridization. Using immunohistochemistry, SCIRR1 protein was found to be up-regulated and expressed more highly in spinal cord neurons farther from the epicenter of injury. Although the precise function of SCIRR1 is unknown, its unique pattern of expression during CNS early development and up-regulation after spinal cord injury suggest that SCIRR1 should be involved in the succeeding injury and/or repair processes of the injured spinal cord. Also, the typical F-box and leucine-rich repeat (LRR) architecture of rat SCIRR1 indicated that it may play an important substrate recruiting role in the pleiotropic ubiquitin/proteasome pathway. All these make scirr1 a new interesting start to study the spinal cord injury and regeneration mechanism.

Developmental regulation of the expression of sodium currents in Xenopus primary neurons

The electrophysiological properties of neurons are determined by the expression of defined complements of ion channels. Nonetheless, the regulation mechanisms of the expression of neuronal ion channels are poorly understood, due in part to the diversity of neuron subtypes. We explored the expression of voltage-gated currents of Xenopus primary spinal neurons unequivocally identified by means of single-cell RT-PCR. We found that identified spinal neurons exhibit heterogeneity in the temporal appearance of voltage-gated currents. Nevertheless, all neurons progress to similar functional phenotypes. A physiological feature is the onset and increase of the expression of sodium currents. To understand the mechanisms underlying this process, we studied the effect of a dominant negative form of the transcriptional silencer REST/NRSF and found that it associates to an increase in the density of sodium currents. This observation is compatible with a role of this factor in the regulation of gene expression in neurons. These experiments constitute a proof of principle for the feasibility of analyzing molecular mechanisms of the regulation of ion channel genes during early neuronal development and provide direct evidence of the role of REST/NRSF in the control of neuronal sodium channel expression.

Immunohistochemical Localization of Nerve Growth Factor, Glial Fibrillary Acidic Protein and Ciliary Neurotrophic Factor in Mesencephalon, Rhombencephalon, and Spinal Cord of Developing Mongolian Gerbil

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.

Ontogénia de la Función Cerebral / Ontogenesis of Brain Function

En tanto el encéfalo no pueda realizar cuando menos una de sus funciones básicas, el sistema sólo tendrá el potencial del funcionamiento encefálico del organismo humano. La definición tentaaativa del inicio de la vida encefálica humana es idéntica al inicio del aspecto operacional de éste sistema crítico. El uso del término "vida cerebral", es dificil de definir; sin embargo debe considerarse en el contexto de su capacidad estructural y funcional en su totalidad. La neurogénesis recapitula la ontogénia cerebral de la misma manera que la ontogénesis recapitula la filogénesis. En este trabajo se revisan los aspectos neurogenéticos y la ontogénesis del Sistema Nervioso.

Síndrome da medula presa: registro de dois casos / Tethered spinal cord syndrome: report of 2 cases

Registro de dois casos da síndrome de medula presa nos quais o estabelecimento correto do diagnóstico permitiu adotar conduta terapêutica adequada. Esta consiste na ressecçäo cirúrgica do filum terminale. Säo comentados aspectos embriológicos e fisiopatogênicos de interesse à síndrome, bem como säo analisadas suas manifestaçöes clínicas principais, os exames complementares que possibilitam o diagnóstico, particularmente a mielografia, e aspectos da terapêutica cirúrgica

On the Origin of Oligodendrocytes

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.