The role of Tm5NM1/2 on early neuritogenesis

Chan, Yee-Ka Agnes

January 2009

Master of Philosophy (Medicine) / The actin cytoskeleton is important in many cellular processes such as motility, and establishing and maintaining cell morphology. Members of the tropomyosin protein family associate with the actin cytoskeleton along the major groove of actin filaments (F-actin), stabilising them and regulating actin-filament dynamics. To date over 40 non-muscle tropomyosin isoforms have been identified, which are encoded by 4 different genes (α, β, γ, δ). Individual tropomyosin isoforms define functionally distinct F-actin populations. Previous studies have shown that tropomyosins sort to distinct subcellular compartments at different stages of development in polarised cells. Neuronal growth cones are highly dynamic polarised structures, dependent on a constant reorganisation of the actin cytoskeleton. By eliminating tropomyosins in a knockout (KO) mouse model, we investigated the role of two tropomyosin isoforms, Tm5NM1 and Tm5NM2 (γTm gene products) in growth cone dynamics and neurite outgrowth. Growth cone protrusion rates were significantly increased in one day old Tm5NM1/2 KO hippocampal neurons compared to WT controls. Neuritogenesis was significantly affected by the elimination of Tm5NM1/2, with a slight decrease in neurite length and an increase in neuronal branching in neurons cultured for four days. At the molecular level, the depletion of Tm5NM1/2 had no impact on the protein levels and activity of ADF/cofilin in hippocampal neurons while in cortical neurons a subtle but significant increase in ADF/cofilin activity was observed. The subtle phenotype in the early stages of neuritogenesis observed from eliminating Tm5NM1/2 may be explained with functional compensation by other tropomyosin isoforms. Functional compensation for the loss of Tm5NM1/2 may be provided by isoforms Tm5a/5b, TmBr2 and Tm4 as they localise to the growth cones, structures where Tm5NM1/2 are normally found. These results suggest that Tm5NM1/2 may not be required for early stages of neuritogenesis but may still play a fine-tuning role for this process.

Tropomyosin

Neuritogenesis

Hippocampal neurons

Cortical neurons

Growth cone

Neurite Outgrowth

Migration et spécification des interneurones GABAergiques corticaux issus de la CGE au cours du développement chez la souris / Migration and specification of CGE-derived GABAergic cortical interneurons during mouse development

Touzot, Audrey

17 November 2014

Chez les rongeurs, les interneurones (INs) corticaux sont issus de l’éminence ganglionnaire (EG) médiale (MGE) et caudale (CGE), expriment une combinaison de facteurs définis et migrent tangentiellement puis radialement pour atteindre leur position laminaire définitive. La diversité et la spécification des sous-types d’INs provenant de la MGE ont suscité de nombreuses études, en revanche les mécanismes moléculaires contrôlant la migration et la spécification des INs issus de la CGE demeurent toujours obscurs. Dans cette étude, les voies de migration de ces INs ont été examinées grâce à une lignée de souris rapportrices des interneurones issus de la CGE avant d’analyser le rôle de deux facteurs de transcription, COUP-TFI et COUP-TFII, hautement exprimés dans la CGE. Deux voies de migration non précédemment caractérisées ont alors été identifiées : une voie dorsale (CLMS) où les INs migrent vers l’EG latérale (LGE) et une voie ventrale (CMMS) où les INs migrent vers la MGE. Le CLMS et le CMMS ont donc été analysés, ainsi que la voie de migration caudale (CMS), à différents stades de développement et l’expression spécifique de certains gènes a pu être identifiée. En inactivant conditionnellement COUP-TFI et/ou COUP-TFII dans les INs, les voies de migration sont altérées ainsi que l’expression des marqueurs moléculaires. Comme probable conséquence, les souris mutantes adultes montrent une distribution altérée des sous-populations d’INs en particulier de celles issues de la CGE. Mon étude a donc permis d’identifier et de caractériser deux nouvelles voies de migration pour les INs provenant de la CGE et a montré que COUP-TFs contribuent à leur modulation. / In rodents, cortical interneurons (INs) originate from the medial (MGE) and caudal ganglionic eminence (CGE) according to precise temporal schedules, express a defined combination of factors, and reach their final laminar position through tangential and radial cell migration. The diversity and fate-specification of MGE-derived interneuron subtypes are well characterized however the molecular mechanisms controlling the migration and specification of CGE-derived INs are still vague. In this study, I have first investigated the migratory paths of cortical INs using a reporter line specific to the CGE, and then I have assessed the involvement of COUP-TFI and COUP-TFII, which are highly expressed in the embryonic CGE during development, in these paths. My data unravelled two major previously non-characterized migratory streams from the subpallium to the pallium: a dorsal stream (CLMS) in which CGE-derived cells migrate to the lateral GE (LGE), and a ventral one (CMMS) in which CGE-derived cells migrate to the MGE. I have characterized both streams and the already well-described caudal stream (CMS) during different stages of development and identified a series of genes expressed in the migrating cells. By inactivating COUP-TFI and/or COUP-TFII in the developing INs, these streams together with their molecular marker expression are perturbed. As a consequence, adult mutant mice have an altered distribution of interneuron subpopulations, particularly the ones derived from the CGE. Taken together, my study identified and characterized two novel CGE-derived interneuron migratory routes to the cortex and showed that COUP-TFs contribute in modulating these paths.

Interneurones corticaux

CGE

Migration

Spécification

Cortical interneurons

CGE

Migration

Specification

EFFECTS OF HYPERTONIC SALINE ON RECOVERY OF FUNCTION FOLLOWING CONTROLLED CORTICAL IMPACT BRAIN INJURY

Quigley, Andrea

01 December 2009

Hypertonic saline (HS) is an accepted treatment for traumatic brain injury (TBI). However, the behavioral and cognitive consequences following HS administration have not thoroughly been examined. Recent preclinical evidence has suggested that nicotinamide (NAM) is beneficial for recovery of function following TBI. The first study compared the behavioral and cognitive consequences of HS and NAM as competitive therapeutic agents for the treatment of TBI. Following controlled cortical impact (CCI), bolus administrations of NAM (500 mg/kg), 7.5% HS, or 0.9% saline vehicle (1.0 mL/kg) were given at 2, 24, and 48 hrs post-CCI. Behavioral results revealed that animals treated with NAM and HS showed significant improvements in beam walk and locomotor placing compared to the Vehicle group. The Morris water maze (MWM) retrograde amnesia test was conducted on day 12 post-CCI and showed that all groups had significant retention of memory compared to injured, Vehicle-treated animals. Working memory was also assessed on days 18-20 using the MWM. The NAM and Vehicle groups quickly acquired the task; however, HS animals showed no acquisition of this task. Histological examinations revealed that the HS-treated animals lost significantly more cortical tissue than either the NAM or Vehicle-treated animals. HS-treated animals showed a greater loss of hippocampal tissue compared to the other groups. In general, NAM showed a faster rate of recovery than HS without this associated tissue loss. Study 1 suggested that future research into HS should include drug injection time course studies. Multiple injections may be responsible for the notable tissue damage. Therefore, it is possible that fewer injections will result in comparable behavioral recovery and less tissue damage that was observed. Due to the detrimental effects of 7.5% HS on cognition and hippocampal tissue following multiple administration in study 1, the proposed second study sought to study the behavioral and cognitive effects of HS using either single or multiple injection regime. The proposed study entailed a lengthier testing schedule than in study 1 and included the same histological examination to compare the different dosages. Additionally, edema formation was measured 24 hours following each drug endpoint in order to delineate the possible underlying mechanism of the observed deficits. In Study 2, HS tended to improve function on motor, sensorimotor and neurological tasks. Although this was a trend on all tests, animals treated with a single administration of HS overall performed better on all tasks compared to those receiving double or multiple injections. In the retrograde amnesia test, although not significant, the Sham, HS-2, and HS-24 animals showed improvement; whereas, the Vehicle and HS-48 animals showed no improvement in performance. This could possibly be linked to the additional hippocampal tissue loss that was noted in the HS-48 animals. In the working memory paradigm, the HS-2 and Vehicle groups had longer latencies to reach the platform than did the Sham group. However, after the first testing day, there were no significant differences between any of the groups. All animals treated with HS performed at the same rate and their performance either stayed the same over the three day testing period or became worse. It appears these animals were unable to learn and improve in the new memory acquisition task which is comparable to the results found in study 1. In study 1, there were again no observed hippocampal volume differences between the Sham and Vehicle-treated animals. However, there was extensive hippocampal tissue damage observed in all of the HS groups. Furthermore, animals treated with a single administration of HS had less hippocampal loss than those with double or multiple doses. Those animals receiving more than one dose of HS lost significantly more hippocampal tissue than the Vehicle group. The results of study 2 are comparable, and support, the results of study 1. Both studies support the strengths and weakness of HS therapy following TBI. Although there are potential benefits of HS therapy, there are also detrimental risks involved. Cognitive and structural damage could possible occur if the dosage amounts are not closely studied and monitored. Although the use of HS may be beneficial to reduce ICP following TBI, it appears that the use of HS may also lead to direct or indirect tissue loss possibly by chronic cellular dehydration. Stronger or more delineated effects may be noticed using higher doses or concentrations of HS in future studies. However, due to the nature of these results, caution should be advised with the use of all therapeutic usage of HS until further detailed studies are conducted.

Cognitive

Controlled Cortical Injury

Hypertonic Saline

Nicotinamide

Traumatic Brain Injury

Comparison of excitatory synapses in diverse cortical areas of the mouse and monkey

Hsu, Alexander

18 June 2016

Diversity in excitatory synaptic transmission by cortical pyramidal neurons give rise to the possibility of different neuronal networks that mediate distinct cortical function. Understanding heterogeneity of excitatory input to pyramidal neurons across distinct cortical areas and species will provide insight into cortical specialization and, ultimately, selective vulnerability of cortical areas to neuropathology in humans. In a previous study in our laboratory (Medalla and Luebke, 2015), significant differences in the ultrastructural features of excitatory asymmetric synapses in layers 2-3 (L2-3) neuropil were found between two distinct cortical areas in the rhesus monkey – primary sensory visual (V1) versus higher-order lateral prefrontal (LPFC) cortices. Here, we used serial sectioning electron microscopy to determine whether these differences in synaptic elements also exist in the corresponding visual (V1) and frontal (FC) cortices in the mouse. Multiple analyses of L2-3 neuropil of FC and V1 in mouse revealed three fundamental principles. First, in contrast to the diverse synapses in monkey LPFC and V1, asymmetric axospinous synapses in L2-3 neuropil of mouse FC and V1 are remarkably homogenous with regard to presynaptic and postsynaptic entities. Second, asymmetric axospinous synapses in L2-3 neuropil of mouse V1 resemble that of monkey V1 in postsynaptic entities, but differ in presynaptic entity. Third, asymmetric axospinous synapses in L2-3 neuropil of mouse FC and monkey LPFC differ substantially in both presynaptic and postsynaptic entities. These findings have broad implications for extrapolation of excitatory synaptic transmission data from one cortical area to another, and also from one species to another.

Neurosciences

Excitatory

Monkey

Mouse

Synapses

Cortical diversity

Serial electron microscopy

The regulatory role of Pax6 on cell division cycle associated 7 and cortical progenitor cell proliferation

Huang, Yu-Ting

January 2017

Forebrain development is controlled by a set of transcription factors which are expressed in dynamic spatiotemporal patterns in the embryonic forebrain and are known to regulate complex gene networks. Pax6 is a transcription factor that regulates corticogenesis and mutations affecting Pax6 protein levels cause neurodevelopmental defects in the eyes and forebrain in both humans and mice. In previous studies, it was shown that the graded expression pattern of Pax6 protein, which is high rostro-laterally to low caudo-medially in the cerebral cortex, is critical for its control of cell cycle progression and proliferation of cortical progenitors. However the underlying mechanisms are still unclear. Based on a microarray analysis carried out in our laboratory, a number of cell cycle-related candidate genes that may be affected by Pax6 have been identified. One such gene, Cell division cycle associated 7 (Cdca7) is expressed in a counter-gradient against that of Pax6. In my current study, I found that Cdca7 mRNA expression in the telencephalon is upregulated in Pax6 null (Small eye) mutants and downregulated in mice that overexpress PAX6 (PAX77) across developing time points from E12.5 to E15.5. There are several potential Pax6 binding motifs located in the genomic locus upstream of Cdca7. However, by chromatin immunoprecipitation, it is showed that none of the predicted binding sites are physically bound by Pax6. Promoter luciferase assays using fragments combining five suspected binding motifs show that Pax6 is functionally critical. Cdca7 is also identified as a Myc and E2F1 direct target and is upregulated in some tumours but its biological role is not fully understood. Current work using in utero electroporation to overexpress Cdca7 around the lateral telencephalon, where Cdca7 expression levels are normally low, tested the effects on the proliferation and differentiation of cortical progenitor cells in this region. In E12.5 mice embryos, overexpression of Cdca7 protein causes fewer intermediate progenitor cells and post-mitotic neurons to be produced but these effects were not found in E14.5 embryos. This result implies that Cdca7 may affect cell fate decision during cortical development.

Decoding information from neural populations in the visual cortex

Lowe, Scott Corren

January 2017

Visual perception in mammals is made possible by the visual system and the visual cortex. However, precisely how visual information is coded in the brain and how training can improve this encoding is unclear. The ability to see and process visual information is not an innate property of the visual cortex. Instead, it is learnt from exposure to visual stimuli. We first considered how visual perception is learnt, by studying the perceptual learning of contrast discrimination in macaques. We investigated how changes in population activity in the visual cortices V1 and V4 correlate with the changes in behavioural response during training on this task. Our results indicate that changes in the learnt neural and behavioural responses are directed toward optimising the performance on the training task, rather than a general improvement in perception of the presented stimulus type. We report that the most informative signal about the contrast of the stimulus within V1 and V4 is the transient stimulus-onset response in V1, 50 ms after the stimulus presentation begins. However, this signal does not become more informative with training, suggesting it is an innate and untrainable property of the system, on these timescales at least. Using a linear decoder to classify the stimulus based on the population activity, we find that information in the V4 population is closely related to the information available to the higher cortical regions involved with decision making, since the performance of the decoder is similar to the performance of the animal throughout training. These findings suggest that training the subject on this task directs V4 to improve its read out of contrast information contained in V1, and cortical regions responsible for decision making use this to improve the performance with training. The structure of noise correlations between the recorded neurons changes with training, but this does not appear to cause the increase in behavioural performance. Furthermore, our results suggest there is feedback of information about the stimulus into the visual cortex after 300 ms of stimulus presentation, which may be related to the high-level percept of the stimulus within the brain. After training on the task, but not before, information about the stimulus persists in the activity of both V1 and V4 at least 400 ms after the stimulus is removed. In the second part, we explore how information is distributed across the anatomical layers of the visual cortex. Cortical oscillations in the local field potential (LFP) and current source density (CSD) within V1, driven by population-level activity, are known to contain information about visual stimulation. However the purpose of these oscillations, the sites where they originate, and what properties of the stimulus is encoded within them is still unknown. By recording the LFP at multiple recording sites along the cortical depth of macaque V1 during presentation of a natural movie stimulus, we investigated the structure of visual information encoded in cortical oscillations. We found that despite a homogeneous distribution of the power of oscillations across the cortical depth, information was compartmentalised into the oscillations of the 4 Hz to 16 Hz range at the granular (G, layer 4) depths and the 60Hz to 170Hz range at the supragranular (SG, layers 1–3) depths, the latter of which is redundant with the population-level firing rate. These two frequency ranges contain independent information about the stimulus, which we identify as related to two spatiotemporal aspects of the visual stimulus. Oscillations in the visual cortex with frequencies < 40 Hz contain information about fast changes in low spatial frequency. Frequencies > 40 Hz and multi-unit firing rates contain information about properties of the stimulus related to changes, both slow and fast, at finer-grained spatial scales. The spatiotemporal domains encoded in each are complementary. In particular, both the power and phase of oscillations in the 7 Hz to 20Hz range contain information about scene transitions in the presented movie stimulus. Such changes in the stimulus are similar to saccades in natural behaviour, and this may be indicative of predictive coding within the cortex.

Correlação entre volume cortical total e interleucina-6 em esquizofrenia

Polita, Sandra Raquel Lermen

January 2016

A esquizofrenia (SZ) é uma doença mental crônica e grave, que compromete o funcionamento psicossocial do indivíduo nos mais variados graus. Atinge 1% da população mundial, considerando todo seu espectro de sintomas (DSM-IV). O pobre funcionamento cognitivo é um dos principais fatores que explicam as elevadas taxas de prejuízos e encargos associados à esquizofrenia. A etiologia da SZ é desconhecida, tendo muitas hipóteses etiológicas como fatores genéticos, epidemias virais durante a gestação, época de nascimento, traumatismos de parto, infecções perinatais, condições neurológicas ou neuropsiquiátricas que geram sintomas tipo esquizofrênicos ou desenvolvimento anormal (avaliados por testes psicológicos, estudos de neuroimagem e neuropatológicos que sugerem alterações no desenvolvimento cerebral). A fisiopatologia da SZ pode ser resultante de uma desregulação na plasticidade sináptica por alterações de neurotofinas, radicais livres e processos inflamatórios. Existe uma larga evidência que os radicais livres podem ter um papel importante na fisiopatologia da SZ, podendo induzir danos na membrana celular, em proteínas e DNA. Problemas com estresse oxidativo, como o aumento da peroxidação lipídica foram relatados previamente em pacientes com SZ em primeiro episódio, virgens de tratamento e naqueles cronicamente medicados. As citocinas inflamatórias têm sido estudadas como importantes participantes na etiologia e desenvolvimento das doenças psiquiatricas. Seu papel ainda não é bem estabelecido, porém diversas alterações têm sido vistas nas doenças psiquiátricas. Dentre as citocinas, destacam-se as interleucinas (IL) e o fator de necrose tumoral alfa (TNF-α), que podem ter ação inflamatória e anti-inflamatória. Dentre as próinflamatórias, podemos destacar a IL-6 e o TNF-α. Alteração de IL na SZ tem sido relatada nesses últimos anos, relacionada à etiologia e à atividade da doença. Pacientes em episódio agudo da doença apresentaram aumento dos níveis séricos de IL pró-inflamatórias sugerindo atividade inflamatória sistêmica. Identificar, além dos sintomas clínicos, possíveis alterações bioquímicas e de neuroimagem em pacientes com SZ pode ajudar em futuras intervenções tanto para identificar, como para prevenir ou atenuar o curso da SZ. Estudos que permitam avançar no entendimento da psicopatologia deste grupo de pacientes são de grande importância, na medida em que proporcionarão futuras abordagens terapêuticas. Está bem estabelecido que a matéria cinzenta cortical e o volume de córtex préfrontal estão diminuídos em pacientes com SZ. Entretanto, os fatores que levam à perda de tecido não estão claras. Uma hipótese para esse fato é que o estado próinflamatório aumentado em SZ está relacionado com a diminuição volumétrica da massa cinzenta. O objetivo deste estudo piloto foi correlacionar os níveis séricos de IL-6 com o volume cortical total de pacientes com SZ e controles. Foram selecionados 36 pacientes com SZ (28 do sexo masculino, com idade média de 37,17 ± 12,05; anos de doença 15,56 ± 11,75), 35 controles pareados idade (21 do sexo masculino, idade média= 36,97 ± 13,04). As imagens foram adquiridas por um equipamento de ressonância magnética Philips Achieva 1.5T no Hospital de Clínicas de Porto Alegre, Brasil. Todas as imagens foram processadas usando o pipeline automatizado de FreeSurfer v5.1. Concluímos que a IL-6 está negativamente correlacionada com o volume cortical total (p= 0,027; rho= -0,370) nos pacientes com esquizofrenia, tal correlação não foi vista nos controles (p= 0,235, rho= -0,206). Nosso resultado sugere que a ativação inflamatória crônica em pacientes com SZ pode estar relacionada com a diminuição volumétrica total do córtex. / Schizophrenia (SZ) is a chronic and severe mental illness, which affects the psychosocial functioning of the individual in many degrees. It reaches 1% of the population, considering all its spectrum of symptoms (DSM-IV). Poor cognitive functioning is one of the main factors responsible for the high rates of disability and costs associated with schizophrenia. The etiology of SZ is unknown, and many etiological assumptions are taken, as genetic factors, viral epidemics during pregnancy, time of birth, birth trauma, perinatal infections, neuropsychiatric or neurological conditions that produce symptoms like schizophrenia or unnatural development (assessed by psychological tests, neuroimaging and neuropathological studies that suggest changes in brain development). The pathophysiology of SZ may be due to a deregulation in synaptic plasticity caused by changes in neurotrophins, free radicals and inflammatory processes. There is a wide evidence that free radicals may have a main role in the pathophysiology of SZ, and can induce damage into the membrane cell, in proteins and DNA. Problems with oxidative stress, such as increased lipid peroxidation have been previously reported in treatment virgem patients with SZ in first episodes and in those chronically treated. And inflammatory cytokines have been studied as important parts in the etiology of psychiatric diseases’ development. Its role is not well established, however a number of changes have been noticed in psychiatric illnesses. Among the cytokines, the Interleukins (IL) and the tumor necrosis factor alpha (TNF-α) stand out, these two may have inflammatory and anti-inflammatory action. Among the pro-inflammatory, we can highlight IL-6 and TNF-α. IL change in the SZ has been reported in these last few years, related to the etiology and disease activity. Patients with acute episode of the disease showed increased serum levels of IL proinflammatory suggesting systemic inflammatory activity. Identify not only the clinical symptoms, possible biochemical and neuroimaging abnormalities in patients with SZ can help in future interventions both to identify and prevent or slow down the course of SZ. Studies to enable progress in the understanding of psychopathology this group of patients are of great importance to the extent that provide future therapeutic approaches. It is well established that cortical gray matter and the prefrontal cortex volume are reduced in patients with SZ. However, the factors that lead to tissue loss are unclear. One possible explanation is that the increased proinflammatory state in SZ is related to the volumetric reduction of the gray matter. The objective of this pilot study was to correlate serum levels of IL-6 in the hole cortex volume of schizophrenic patients and controls. We selected 36 patients with SZ (28 male, average age 37.17±12.05; years of illness 15.56±11.75), 35 matched controls (21 male, average age= 36.97±13.04). Images were obtained by an MRI equipment, brand Philips Achieva 1.5T at Hospital de Clinicas de Porto Alegre, Brazil. All images were processed using automated pipeline FreeSurfer v5.1. We concluded thatIL-6 is negatively correlated with the total cortical volume in patients (p= 0.027, rho= -0.370), this correlation was not seen in controls (p= 0.235; rho= -0.206). Our results suggest that chronic inflammatory activation in patients with SZ can be related to the total volumetric reduction of the cortex.

Esquizofrenia

Interleucinas

Biomarcadores

Schizophrenia

Cortical volume

Interleukins

Biomarkers

The Functional Morphology of the Primate Zygomatic Arch in Relation to Diet

January 2017

abstract: Craniofacial morphology in primates can vary on the basis of their diet because foods are often disparate in the amount and duration of force required to break them down. Therefore diet has the potential to exercise considerable selective pressure on the morphology of the masticatory system. The zygomatic arch is a known site of relatively high masticatory strain and yet the relationship between arch form and load type is relatively unknown in primates. While the relative position and robusticity of the arch is considered a key indicator of craniofacial adaptations to a mechanically challenging diet, and central to efforts to infer diet in past species, the relationships between morphology and diet type in this feature are not well established. This study tested hypotheses using two diet categorizations: total consumption percent and food material properties (FMPs). The first hypothesis that cortical bone area (CA) and section moduli (bone strength) are positively correlated with masticatory loading tests whether CA and moduli measures were greatest anteriorly and decreased posteriorly along the arch. The results found these measures adhered to this predicted pattern in the majority of taxa. The second hypothesis examines sutural complexity in the zygomaticotemporal suture as a function of dietary loading differences by calculating fractal dimensions as indices of complexity. No predictable pattern was found linking sutural complexity and diet in this primate sample, though hard object consumers possessed the most complex sutures. Lastly, cross-sectional geometric properties were measured to investigate whether bending and torsional resistance and cross-sectional shape are related to differences in masticatory loading. The highest measures of mechanical resistance tracked with areas of greatest strain in the majority of taxa. Cross-sectional shape differences do appear to reflect dietary differences. FMPs were not correlated with cross-sectional variables, however pairwise comparisons suggest taxa that ingest foods of greater stiffness experience relatively larger measures of bending and torsional resistance. The current study reveals that internal and external morphological factors vary across the arch and in conjunction with diet in primates. These findings underscore the importance of incorporating these mechanical differences in models of zygomatic arch mechanical behavior and primate craniofacial biomechanics. / Dissertation/Thesis / Appendix A / Appendix B / Appendix D / Doctoral Dissertation Anthropology 2017

Physical anthropology

bending

cortical bone

diet

primate

torsion

zygomatic arch

Avaliação da atividade da telomerase em células-tronco de pacientes com displasia cortical de Taylor

Borges, Juliano Viana

January 2015

Made available in DSpace on 2015-07-11T02:06:04Z (GMT). No. of bitstreams: 1 000472135-Texto+Completo-0.pdf: 929985 bytes, checksum: 28553b1c8275c157e5128080cce87fe9 (MD5) Previous issue date: 2015 / The Cortical dysplasia is one of the most frequent forms of malformations of cortical development, with a condition that causes a large portion of refractory partial epilepsy to drug treatment. This condition is characterized by a heterogeneous group of cortical lesions and can also be described as cortical dysgenesis or neuronal migration disorder. The genetic factors involved in cortical dysplasia, such as the expression of the telomerase enzyme, are not commonly investigated, mainly due to the limited number of cases is the lack of an experimental model. Objective: This study aimed to analyze the activity and the expression of the enzyme telomerase in patients with cortical dysplasia of Taylor, normal fibroblasts, stem cells from umbilical cord tissue and human tumor. Methodology: the activity and expression of hTERT portion of telomerase were evaluated in patient fibroblasts with Cortical Dysplasia of Taylor (n = 1) and compared with control patients fibroblasts (n = 3) and umbilical cord stem cells (n = 3) and human tumor cell line A549 were maintained in culture. The analysis of the hTERT gene was done by PCR and the telomerase activity was measured by TRAP assay that uses real-time PCR. Results: telomerase activity was higher in tumor cells (Ct = 28. 32), while in other cell types and other types studied values were similar: control (Ct = 33. 73) Umbilical Cord (Ct = 32. 88) and dysplasia (Ct = 33. 56). The expression of hTERT portion of telomerase was the control group was 2,58x more expressed, the Dysplasia and tumor groups were 61,25x and 635,48x more expressed respectively as the control. Conclusion: The telomerase appeared to be more active and higher expression in the tumor cell line when compared to other cell types surveyed. The hTERT gene was more expressed in the patient Taylor cortical dysplasia than in the other groups and control umbilical cord indicating that telomerase is expressed in most patients with this disease. / A Displasia Cortical é uma das formas mais frequentes de malformações do desenvolvimento cortical, sendo uma patologia que causa uma grande parcela de epilepsias parciais refratárias ao tratamento medicamentoso. Essa patologia é caracterizada por um grupo heterogênio de lesões corticais, podendo também ser descrita como disgenesia cortical ou desordem de migração neuronal. Os aspectos genéticos envolvidos na displasia cortical, como a expressão da enzima telomerase, não são comumente investigados, principalmente devido ao número limitados de casos e a pela falta de um modelo experimental. Objetivo: este estudo teve como objetivo analisar a atividade e a expressão da enzima telomerase em pacientes com displasia cortical de Taylor, fibroblastos normais, células-tronco de tecido de cordão umbilical e linhagem tumoral humana. Metodologia: a atividade e expressão da porção hTERT da telomerase foram avaliadas em fibroblastos de paciente com Displasia Cortical de Taylor (n=1) e comparada com fibroblastos de pacientes do grupo controle (n=3) e células-tronco de cordão umbilical (n=3) e a linhagem tumoral A549 humanos que foram mantidas em cultura. A análise do gene hTERT foi feita por PCR e a atividade da telomerase foi medida pelo ensaio TRAP que utiliza a PCR em tempo real. Resultados: a atividade da telomerase foi maior nas células tumorais (Ct=28,32), ao passo que nos demais tipos celulares e nos demais tipos estudados os valores foram semelhantes: Controle (Ct=33,73) Cordão Umbilical (Ct=32,88) e Displasia (Ct=33,56). A expressão da porção hTERT da telomerase foi do grupo Controle foi 2,58x mais expresso, os grupos Dsiplasia e Tumor estavam 61,25x e 635,48x mais expressos, respectivamente que o Controle. Conclusão: a telomerase se mostrou mais ativa e com maior expressão na linhagem tumoral do que quando comparada com os outros tipos celulares pesquisados. O gene hTERT e mostrou mais expresso, no paciente com Displasia Cortical de Taylor do que nos outros grupos Controle e Cordão Umbilical, indicando que a telomerase é mais expressa em pacientes com esta patologia.

GERONTOLOGIA

CORDÃO UMBILICAL

ENVELHECIMENTO - ASPECTOS BIOLÓGICOS

DISPLASIA CORTICAL

Correlação entre volume cortical total e interleucina-6 em esquizofrenia

Polita, Sandra Raquel Lermen

January 2016

A esquizofrenia (SZ) é uma doença mental crônica e grave, que compromete o funcionamento psicossocial do indivíduo nos mais variados graus. Atinge 1% da população mundial, considerando todo seu espectro de sintomas (DSM-IV). O pobre funcionamento cognitivo é um dos principais fatores que explicam as elevadas taxas de prejuízos e encargos associados à esquizofrenia. A etiologia da SZ é desconhecida, tendo muitas hipóteses etiológicas como fatores genéticos, epidemias virais durante a gestação, época de nascimento, traumatismos de parto, infecções perinatais, condições neurológicas ou neuropsiquiátricas que geram sintomas tipo esquizofrênicos ou desenvolvimento anormal (avaliados por testes psicológicos, estudos de neuroimagem e neuropatológicos que sugerem alterações no desenvolvimento cerebral). A fisiopatologia da SZ pode ser resultante de uma desregulação na plasticidade sináptica por alterações de neurotofinas, radicais livres e processos inflamatórios. Existe uma larga evidência que os radicais livres podem ter um papel importante na fisiopatologia da SZ, podendo induzir danos na membrana celular, em proteínas e DNA. Problemas com estresse oxidativo, como o aumento da peroxidação lipídica foram relatados previamente em pacientes com SZ em primeiro episódio, virgens de tratamento e naqueles cronicamente medicados. As citocinas inflamatórias têm sido estudadas como importantes participantes na etiologia e desenvolvimento das doenças psiquiatricas. Seu papel ainda não é bem estabelecido, porém diversas alterações têm sido vistas nas doenças psiquiátricas. Dentre as citocinas, destacam-se as interleucinas (IL) e o fator de necrose tumoral alfa (TNF-α), que podem ter ação inflamatória e anti-inflamatória. Dentre as próinflamatórias, podemos destacar a IL-6 e o TNF-α. Alteração de IL na SZ tem sido relatada nesses últimos anos, relacionada à etiologia e à atividade da doença. Pacientes em episódio agudo da doença apresentaram aumento dos níveis séricos de IL pró-inflamatórias sugerindo atividade inflamatória sistêmica. Identificar, além dos sintomas clínicos, possíveis alterações bioquímicas e de neuroimagem em pacientes com SZ pode ajudar em futuras intervenções tanto para identificar, como para prevenir ou atenuar o curso da SZ. Estudos que permitam avançar no entendimento da psicopatologia deste grupo de pacientes são de grande importância, na medida em que proporcionarão futuras abordagens terapêuticas. Está bem estabelecido que a matéria cinzenta cortical e o volume de córtex préfrontal estão diminuídos em pacientes com SZ. Entretanto, os fatores que levam à perda de tecido não estão claras. Uma hipótese para esse fato é que o estado próinflamatório aumentado em SZ está relacionado com a diminuição volumétrica da massa cinzenta. O objetivo deste estudo piloto foi correlacionar os níveis séricos de IL-6 com o volume cortical total de pacientes com SZ e controles. Foram selecionados 36 pacientes com SZ (28 do sexo masculino, com idade média de 37,17 ± 12,05; anos de doença 15,56 ± 11,75), 35 controles pareados idade (21 do sexo masculino, idade média= 36,97 ± 13,04). As imagens foram adquiridas por um equipamento de ressonância magnética Philips Achieva 1.5T no Hospital de Clínicas de Porto Alegre, Brasil. Todas as imagens foram processadas usando o pipeline automatizado de FreeSurfer v5.1. Concluímos que a IL-6 está negativamente correlacionada com o volume cortical total (p= 0,027; rho= -0,370) nos pacientes com esquizofrenia, tal correlação não foi vista nos controles (p= 0,235, rho= -0,206). Nosso resultado sugere que a ativação inflamatória crônica em pacientes com SZ pode estar relacionada com a diminuição volumétrica total do córtex. / Schizophrenia (SZ) is a chronic and severe mental illness, which affects the psychosocial functioning of the individual in many degrees. It reaches 1% of the population, considering all its spectrum of symptoms (DSM-IV). Poor cognitive functioning is one of the main factors responsible for the high rates of disability and costs associated with schizophrenia. The etiology of SZ is unknown, and many etiological assumptions are taken, as genetic factors, viral epidemics during pregnancy, time of birth, birth trauma, perinatal infections, neuropsychiatric or neurological conditions that produce symptoms like schizophrenia or unnatural development (assessed by psychological tests, neuroimaging and neuropathological studies that suggest changes in brain development). The pathophysiology of SZ may be due to a deregulation in synaptic plasticity caused by changes in neurotrophins, free radicals and inflammatory processes. There is a wide evidence that free radicals may have a main role in the pathophysiology of SZ, and can induce damage into the membrane cell, in proteins and DNA. Problems with oxidative stress, such as increased lipid peroxidation have been previously reported in treatment virgem patients with SZ in first episodes and in those chronically treated. And inflammatory cytokines have been studied as important parts in the etiology of psychiatric diseases’ development. Its role is not well established, however a number of changes have been noticed in psychiatric illnesses. Among the cytokines, the Interleukins (IL) and the tumor necrosis factor alpha (TNF-α) stand out, these two may have inflammatory and anti-inflammatory action. Among the pro-inflammatory, we can highlight IL-6 and TNF-α. IL change in the SZ has been reported in these last few years, related to the etiology and disease activity. Patients with acute episode of the disease showed increased serum levels of IL proinflammatory suggesting systemic inflammatory activity. Identify not only the clinical symptoms, possible biochemical and neuroimaging abnormalities in patients with SZ can help in future interventions both to identify and prevent or slow down the course of SZ. Studies to enable progress in the understanding of psychopathology this group of patients are of great importance to the extent that provide future therapeutic approaches. It is well established that cortical gray matter and the prefrontal cortex volume are reduced in patients with SZ. However, the factors that lead to tissue loss are unclear. One possible explanation is that the increased proinflammatory state in SZ is related to the volumetric reduction of the gray matter. The objective of this pilot study was to correlate serum levels of IL-6 in the hole cortex volume of schizophrenic patients and controls. We selected 36 patients with SZ (28 male, average age 37.17±12.05; years of illness 15.56±11.75), 35 matched controls (21 male, average age= 36.97±13.04). Images were obtained by an MRI equipment, brand Philips Achieva 1.5T at Hospital de Clinicas de Porto Alegre, Brazil. All images were processed using automated pipeline FreeSurfer v5.1. We concluded thatIL-6 is negatively correlated with the total cortical volume in patients (p= 0.027, rho= -0.370), this correlation was not seen in controls (p= 0.235; rho= -0.206). Our results suggest that chronic inflammatory activation in patients with SZ can be related to the total volumetric reduction of the cortex.

Esquizofrenia

Interleucinas

Biomarcadores

Schizophrenia

Cortical volume

Interleukins

Biomarkers