Development and regeneration of neuronal circuits in the vertebrate retina

Thesis (Ph.D.)--University of Washington, 2016-08

Concussion: Examining the Effect of Neuronal Oxidative Stress on the Pathophysiology of Brain and Blood Brain Barrier Cells

Neuronal stretching during concussion alters glucose transport and reduces neuronal viability, also affecting other cells in the brain and the Blood Brain Barrier (BBB). Our hypothesis is that oxidative stress (OS) generated in neurons during concussions contributes to this outcome. To validate this, we investigated: (1) whether OS independently causes alterations in brain and BBB cells, namely human neuron-like, neuroblastoma cells (NCs), astrocyte cells (ACs) and brain microvascular endothelial cells (ECs), and (2) whether OS originated in NCs (as in concussion) is responsible for causing the subsequent alterations observed in ACs and ECs. We used H2O2 treatment to mimic OS, validated by examining the resulting reactive oxygen species, and evaluated alterations in cell morphology, expression and localization of the glucose transporter GLUT1, and the overall cell viability. Our results showed that OS, either directly affecting each cell type or originally affecting NCs, caused changes in several morphological parameters (surface area, Feret diameter, circularity, inter-cellular distance), slightly varied GLUT1 expression and lowered the overall cell viability of all NCs, ACs, and ECs. Therefore, we can conclude that oxidative stress, which is known to be generated during concussion, caused alterations in NCs, ACs, and ECs whether independently originated in each cell or when originated in the NCs and could further propagate the ACs and ECs.

Proyecto de aula : "reconocimiento de los efectos nocivos en la comunicaci?n neuronal, a causa del excesivo consumo de alcohol en el ser humano"

Este trabajo consiste en una investigaci?n escolar de car?cter cualitativa a trav?s de la metodolog?a de proyecto de aula, que pretende ense?ar de forma contextualizada como el consumo en excesivo del alcohol afecta la comunicaci?n neuronal del ser humano, para que la muestra de estudiantes de 12 a 14 a?os logren contrastar sus concepciones previas con las posibles hip?tesis de soluci?n del problema planteado y as? para as? comenzar a construir un aprendizaje significativo. Este proyecto de aula se desarrolla a trav?s de 3 fases, quedando planteadas las actividades por desarrollar en investigaciones posteriores. Dichas fases trabajadas fueron: Fase I. Diagn?stico de intereses y concepciones previas de los estudiantes, identificaci?n y formulaci?n del problema. Fase II. Planteamiento de hip?tesis sobre el problema. Fase III. Planteamiento de las actividades de soluci?n del problema. El desarrollo de este estudio ha permitido demostrar la importancia de tener en cuenta la ense?anza contextualizada, ya que nos permite utilizar el contexto de la vida diaria, para mejorar el inter?s de los estudiantes por el aprendizaje de las ciencias.

Neuronal Assembly Detection and Cell Membership Specification by Principal Component Analysis

LOPES-DOS-SANTOS, V. , CONDE-OCAZIONEZ, S. ; NICOLELIS, M. A. L. , RIBEIRO, S. T. , TORT, A. B. L. . Neuronal assembly detection and cell membership specification by principal component analysis. Plos One, v. 6, p. e20996, 2011.

The interplay between neuronal activity and actin dynamics mimic the setting of an LTD synaptic tag

Persistent forms of plasticity, such as long-term depression (LTD), are dependent on the interplay between activity-dependent synaptic tags and the capture of plasticity-related proteins. We propose that the synaptic tag represents a structural alteration that turns synapses permissive to change. We found that modulation of actin dynamics has different roles in the induction and maintenance of LTD. Inhibition of either actin depolymerisation or polymerization blocks LTD induction whereas only the inhibition of actin depolymerisation blocks LTD maintenance. Interestingly, we found that actin depolymerisation and CaMKII activation are involved in LTD synaptic-tagging and capture. Moreover, inhibition of actin polymerisation mimics the setting of a synaptic tag, in an activity-dependent manner, allowing the expression of LTD in non-stimulated synapses. Suspending synaptic activation also restricts the time window of synaptic capture, which can be restored by inhibiting actin polymerization. Our results support our hypothesis that modulation of the actin cytoskeleton provides an input-specific signal for synaptic protein capture.

Detecting cell assemblies in large neuronal populations

Recent progress in the technology for single unit recordings has given the neuroscientific community theopportunity to record the spiking activity of large neuronal populations. At the same pace, statistical andmathematical tools were developed to deal with high-dimensional datasets typical of such recordings.A major line of research investigates the functional role of subsets of neurons with significant co-firingbehavior: the Hebbian cell assemblies. Here we review three linear methods for the detection of cellassemblies in large neuronal populations that rely on principal and independent component analysis.Based on their performance in spike train simulations, we propose a modified framework that incorpo-rates multiple features of these previous methods. We apply the new framework to actual single unitrecordings and show the existence of cell assemblies in the rat hippocampus, which typically oscillate attheta frequencies and couple to different phases of the underlying field rhythm

Neuronal networks with gap junctions: A study of piece-wise linear planar neuron models

The presence of gap junction coupling among neurons of the central nervous systems has been appreciated for some time now. In recent years there has been an upsurge of interest from the mathematical community in understanding the contribution of these direct electrical connections between cells to large-scale brain rhythms. Here we analyze a class of exactly soluble single neuron models, capable of producing realistic action potential shapes, that can be used as the basis for understanding dynamics at the network level. This work focuses on planar piece-wise linear models that can mimic the firing response of several different cell types. Under constant current injection the periodic response and phase response curve (PRC) is calculated in closed form. A simple formula for the stability of a periodic orbit is found using Floquet theory. From the calculated PRC and the periodic orbit a phase interaction function is constructed that allows the investigation of phase-locked network states using the theory of weakly coupled oscillators. For large networks with global gap junction connectivity we develop a theory of strong coupling instabilities of the homogeneous, synchronous and splay state. For a piece-wise linear caricature of the Morris-Lecar model, with oscillations arising from a homoclinic bifurcation, we show that large amplitude oscillations in the mean membrane potential are organized around such unstable orbits.

Evaluación del perfil transcripcional y potenciales vías de señalización neuronal afectadas tras la inhibición del gen PRR12 por ArNi

Introducción: El sistema nervioso tiene como función el controlar y regular el funcionamiento de los diversos órganos y sistemas de los vertebrados, coordinando su interrelación, así como la relación del organismo con el medio externo, permitiendo su interacción. Este sistema se comienza a desarrollar durante la etapa embrionaria mediante la neurogénesis, en la cual múltiples procesos biológicos trabajan en conjunto para asegurar que los diversos tipos de células nerviosas proliferen, se diferencien, migren y formen sinapsis en el momento y lugar apropiado, siendo un mecanismo finamente regulado, dependiente de la apropiada expresión temporal y espacial, así como del correcto funcionamiento de diferentes productos génicos. Debido a esto, mutaciones que alteren la correcta expresión o función de un gen involucrado en la neurogénesis y/o en el mantenimiento del SNC pueden contribuir a la iniciación y/o progresión de diversos desórdenes neurológicos. En este respecto, nuestro grupo de investigación identificó por primera vez la ruptura del gen PRR12, en una paciente con discapacidad intelectual, alteraciones neuropsiquiátricas y múltiples malformaciones menores. Debido a esto, y a las características de la proteína PRR12, con una función hasta la fecha totalmente desconocida, este es un blanco deseable para el análisis de las vías de señalización en las que participa. Objetivo: Describir los genes que son potencialmente regulados por PRR12 y, a partir de ello, analizar las posibles vías y procesos de comunicación neuronal afectados tras su inhibición. Materiales y Métodos: Se realizó una cuantificación relativa de la expresión de PRR12 en cerebro de rata en diferentes estadios del desarrollo (embrión, neonatal y adulto), mediante Western blot y qPCR. Posteriormente se realizó la inhibición de PRR12 en células C6 de glioblastoma de rata, mediante ARNi, con el fin de determinar los cambios en el perfil de expresión celular, mediante microarreglos de expresión. Resultados: PRR12 se encontró mayormente expresado en cerebro durante la etapa de embrión; además de esto, se encontraron afectados múltiples genes tras su inhibición, entre los que destacan aquellos involucrados en procesos biológicos relacionados a comunicación celular y de las vías de señalización de receptores de membrana acoplados a proteína G. Conclusiones: PRR12 es probablemente un factor de transcripción de remodelación de la cromatina, con posible implicación en el proceso de neurogénesis, especialmente en procesos de comunicación y diferenciación celular.

Differentiation of human pluripotent stem cells to the neuronal dopaminergic fate

Dissertação de Mestrado, Ciências Biomédicas, Departamento de Ciências Biomédicas e Medicina, Universidade do Algarve, 2013

siRNAs sintéticos direcionados à no sintase neuronal : efeitos sobre a expressão gênica e viabilidade celular do glioma

Dissertação (mestrado)—Universidade de Brasília, Faculdade de Agronomia e Medicina Veterinária, Programa de Pós-Graduação em Saúde Animal, 2011.

Silenciamento da expressão da enzima óxido nítrico sintase neuronal (nNOS) em linhagem de neuroblastoma via siRNAs sintéticos em dupla fita

Dissertação (mestrado)—Universidade de Brasília, Faculdade de Agronomia e Medicina Veterinária, Programa de Pós-Graduação em Saúde Animal, 2011.

Propofol causes neuronal degeneration in neonatal mice and long-term neurocognitive consequences in adult mice

Purpose: To investigate the effect of propofol on brain development in neonatal mice and long-term neurocognitive impact in adult mice. Method: The offspring of female C57Bl/6 and male CD-1 mice were administered propofol at concentrations of 2.5 and 5.0 mg/kg (treatment group) or normal saline (control) on postnatal day 7. Thereafter, histological and immunohistochemical examinations were performed on the mice brain. Apoptotic assay, neuronal nuclei antigen immunohistochemistry (to assess neuron density), and behavioral and neurocognitive tests were conducted on the adult mice. Results: Propofol induced cellular degeneration and apoptosis in the brains of neonatal mice. It also modulated physiological parameters (pH, PO2, glucose and lactate), among which decreased blood glucose might be associated with cellular degeneration in the brain. Propofol also caused long-term neuronal deficits in adults, which showed impaired neurocognitive functions. Upon reaching adulthood, propofol-treated mice showed slow learning response and poor memory compared to controls. Conclusion: Propofol causes neurodegeneration in neonatal mice and has long-term neurocognitive consequences in adults, indicating that the use of propofol anesthetics in neonates requires careful consideration.

Zinc deficiency induces apoptosis via mitochondrial p53- and caspase-dependent pathways in human neuronal precursor cells

Previous studies have shown that zinc deficiency leads to apoptosis of neuronal precursor cells in vivo and in vitro. In addition to the role of p53 as a nuclear transcription factor in zinc deficient cultured human neuronal precursors (NT-2), we have now identified the translocation of phosphorylated p53 to the mitochondria and p53-dependent increases in the pro-apoptotic mitochondrial protein BAX leading to a loss of mitochondrial membrane potential as demonstrated by a 25% decrease in JC-1 red:green fluorescence ratio. Disruption of mitochondrial membrane integrity was accompanied by efflux of the apoptosis inducing factor (AIF) from the mitochondria and translocation to the nucleus with a significant increase in reactive oxygen species (ROS) after 24 h of zinc deficiency. Measurement of caspase cleavage, mRNA, and treatment with caspase inhibitors revealed the involvement of caspases 2, 3, 6, and 7 in zinc deficiency-mediated apoptosis. Down-stream targets of caspase activation, including the nuclear structure protein lamin and polyADP ribose polymerase (PARP), which participates in DNA repair, were also cleaved. Transfection with a dominant-negative p53 construct and use of the p53 inhibitor, pifithrin- ␮, established that these alterations were largely dependent on p53. Together these data identify a cascade of events involving mitochondrial p53 as well as p53-dependent caspase-mediated mechanisms leading to apoptosis during zinc deficiency.