Recherche de partenaires protéiques du facteur de transcription HRT1 par la technique du double-hybride : Identification de BOIP, nouvel ADNc codant une protéine interagissant avec le domaine Orange de HRT1 / Searching of prteic partner of the transcription factor HRT1 by the two-hybrid system : Identification of BOIP, new cDNA coding a protein interacting with the Orange domain of HRT1

Van Wayenbergh, Reginald

16 December 2004

Un nouveau facteur de transcription, appartenant à la famille des protéines à domaine bHLH, a récemment été isolé dans notre laboratoire. Initialement appelé « clone bc8 » puis HRT1, ce facteur présentait des similitudes avec les protéines Hairy and Enhancer of split qui interviennent notamment dans le phénomène d’inhibition latérale lors de la formation du tissu neural. Des études d’hybridation in situ réalisées chez l'embryon de xénope ont suggéré un rôle important de XHRT1, la protéine HRT1 de xénope, dans le développement neural. Nous avons recherché les partenaires protéiques de XHRT1 par la technique du double-hybride afin de mieux comprendre son mécanisme d’action moléculaire dans la neurogenèse. Tout d’abord nous avons construit les outils appropriés pour l’élaboration du travail, à savoir, les clones de levures exprimant les appâts spécifiques des domaines de la protéine étudiée et la création d’une banque d’ADNc du xénope au stade de la neurulation. Ensuite, trois criblages ont été réalisés. Dans le premier cas, nous avons recherché les partenaires des domaines bHLH et Orange (bHLH-O). Le domaine bHLH est en effet responsable de la dimérisation de ce type de protéine. Le domaine Orange qui suit le domaine bHLH, pourrait participer dans le choix du partenaire d’hétérodimérisation. Nous avons isolé deux facteurs de type bHLH-Orange apparentés à HRT1, XHairy1 et XHairy2b et confirmé leur interaction avec XHRT1. Les domaines impliqués dans ces interactions sont les bHLH-O pour les trois facteurs. Ce même criblage nous a permis d’isoler un nouvel ADNc qui code une protéine sans domaine apparent connu actuellement. Nous avons montré que cette protéine reconnaissait spécifiquement le domaine Orange de HRT1 mais pas celui des autres facteurs de type bHLH-O. Elle a été baptisée BOIP pour Bc8 Orange Interacting Protein. Le rôle physiologique de cette interaction n’a pu être démontré. Nous avons établi que la protéine BOIP pouvait aussi s’homodimériser. Nous avons aussi déterminé son profil d’expression chez le xénope et la souris. Son transcrit est hautement présent dans les testicules adultes. La protéine pourrait donc jouer un rôle important dans la spermatogenèse. Les deux autres criblages, utilisant les domaines situés dans la partie C-terminale de XHRT1, ont apporté des nouveaux partenaires potentiels, mais ces interactions n’ont pu être confirmées dans un système indépendant. Enfin, en étudiant plus en détail les interactions entre XHRT1 et XHairy1 ou XHairy2b, nous avons mis à jour une possible fonction de spécificité dans le choix du partenaire dans la région C-terminale de HRT1. La formation de ces dimères pourrait jouer un rôle dans la formation du tube neural mais également dans d’autres différenciations tissulaires.

neurogenèse/neurogenesis

somitogenèse/somitogenesis

myogenèse/myogenesis

TEIGAF

IYT

spermatogenèse/spermatogenesis

B-cell Lymphoma-2 (Bcl-2) Is an Essential Regulator of Adult Hippocampal Neurogenesis

Ceizar, Maheen

19 September 2012

Of the thousands of dividing progenitor cells (PCs) generated daily in the adult brain only a very small proportion survive to become mature neurons through the process of neurogenesis. Identification of the mechanisms that regulate cell death associated with neurogenesis would aid in harnessing the potential therapeutic value of PCs. Apoptosis, or programmed cell death, is suggested to regulate death of PCs in the adult brain as overexpression of B-cell lymphoma 2 (Bcl-2), an anti-apoptotic protein, enhances the survival of new neurons. To directly assess if Bcl-2 is a regulator of apoptosis in PCs, this study examined the outcome of removal of Bcl-2 from the developing PCs in the adult mouse brain. Retroviral mediated gene transfer of Cre into adult floxed Bcl-2 mice eliminated Bcl-2 from developing PCs and resulted in the complete absence of new neurons at 30 days post viral injection. Similarly, Bcl-2 removal through the use of nestin-induced conditional knockout mice resulted in reduced number of mature neurons. The function of Bcl-2 in the PCs was also dependent on Bcl-2-associated X (BAX) protein, as demonstrated by an increase in new neurons formed following viral-mediated removal of Bcl-2 in BAX knockout mice. Together these findings demonstrate that Bcl-2 is an essential regulator of neurogenesis in the adult hippocampus.

Adult Neurogenesis

Apoptosis

Bcl-2

Hippocampus

Transgenic Mouse Model

BAX

Progenitor Cells

Retrovirus

Inducible Knock out

Pannexin 1 regulates ventricular zone neuronal development

Wicki-Stordeur, Leigh

17 December 2015

Neurons are generated from unspecialized neural precursor cells (NPCs) in a process termed neurogenesis. This neuronal development continues throughout life in the ventricular zone (VZ) of the lateral ventricles, and the subgranular zone (SGZ) of the dentate gyrus in the hippocampus. NPCs undergo a complex and highly regulated set of behaviours in order to ultimately integrate into the existing brain circuitry as fully functional neurons. Recently the pannexin (Panx) large-pore channel proteins were discovered. One family member, Panx1 is expressed in the nervous system in mature neurons, and acts as an ATP release channel in various cell types throughout the body. Post-natal NPCs are responsive to ATP via activation of purinergic receptors, which modulate a variety of NPC behaviours. I therefore investigated the hypothesis that Panx1 was expressed in post-natal VZ NPCs, where it functioned as an ATP release channel and regulated neuronal development. In the course of my studies, I found that Panx1 positively regulated NPC proliferation and migration, and negatively regulated neurite outgrowth in vitro. Using an NPC-specific Panx1 knock-out strategy, I showed that Panx1 expression was required for maintenance of a consistent population of VZ NPCs in vivo in both healthy and injured brain. Together these data indicated that Panx1 directed NPC behaviours associated with neuronal development both in vitro and in vivo. To further understand the molecular underpinnings of this regulation, I examined the Panx1 interactome, and uncovered a novel association with collapsin response mediator protein 2 (Crmp2). Functional studies suggested that this interaction likely was at least in part responsible for Panx1’s negative impact on neurite outgrowth. Overall, my results represent important novel findings that contribute to our understanding of post-natal neuronal development and the molecular function of Panx1 within the brain. / Graduate / 0317 / 0379 / leighws@uvic.ca

Pannexin

Neural precursor cells

Neurogenesis

Neuronal development

Ventricular zone

Proteomics

Stroke

Crmp2

Ion channel

Étude des effets du facteur de croissance épidermique sur la neurogénèse après une irradiation

Killer, Kerstin

02 1900

Les patients atteints de cancers reçoivent différents traitement, tels que la radiothérapie ou la chimiothérapie. Actuellement, environ 60% des enfants survivants du cancer développent des effets secondaires cognitifs, consécutifs aux traitements énoncés précédemment. Compte tenu de la perspective du développement psychomoteur de l’enfant et de l’immaturité du système nerveux central (SNC) chez ces patients, il s’avère particulièrement pertinent d’étudier les effets secondaires que provoquent les traitements anticancéreux sur le développement cognitif de cette population de malades. Des études ont démontrées l’existence de liens étroits entre ces effets secondaires et l’abolition de la neurogénèse provoquée principalement par l’irradiation. Ce projet de maîtrise porte sur les effets du facteur de croissance épidermique, l’EGF (un facteur de croissance impliqué dans la prolifération cellulaire) sur la neurogénèse de la souris. Nous avons également cherché un vecteur de sécrétion efficace pour permettre une diffusion continue d’EGF à long terme (2 à 4 semaines). Notre hypothèse est que l’EGF serait capable de stimuler la neurogénèse et protéger les cellules de l’apoptose dans le cerveau de la souris, suite à une irradiation. Nous avons montré un effet positif de l’EGF sur la formation et la prolifération des neuroblastes Dcx(+) dans la zone sous ventriculaire (ZSV) et non dans l’hippocampe (Hi), suite à l’injection de l’EGF, directement dans le cerveau à l’aide d’une pompe osmotique. Nous avons observé que cette augmentation de la quantité de jeunes neurones est indépendante de la capacité de l’EGF à les protéger de l’apoptose. L’EGF ne protège pas non plus les blastes leucémiques, issus de lignées de cellules humaines, des effets secondaires d’une irradiation. Les cellules souches mésenchymateuses (CSM) modifiées génétiquement et générées pour sécréter l’EGF ne montrent aucun effet sur la stimulation de la neurogénèse quand elles sont directement injectées dans le cerveau. Finalement, nos résultats indiquent que l’EGF pourrait être un bon candidat pour le développement de nouvelles thérapies pour traiter les effets secondaires que provoque une irradiation du cerveau. L’utilisation de pompes pour permettre l’administration d’EGF dans le cerveau devient alors très intéressante pour améliorer la qualité de vie des patients. / Patients with cancer receive different treatments such as radiotherapy (ionizing radiation) or chemotherapy. Currently about 60% of children surviving cancer are prone to the development of treatment-related delayed side effects, such as neurocognitive impairments. Given the prospect of psychomotor development of children and central nervous system (CNS) immaturity in these patients, it is especially relevant to study the adverse effects related to cognitive impairment caused by cancer treatments on this population of patients. Studies have shown the existence of close links between this delayed side effects and the abolition of neurogenesis caused mainly by irradiation. This masters degree project concerns the effects of epidermal growth factor, EGF (a growth factor involved in cell proliferation), on neurogenesis in the C57BL/6 mice, which drastically decrease after exposure to ionizing radiation. We also sought a vector of efficient secretion to allow continuous long-term secretion of EGF (2-4 weeks). Our hypothesis is that EGF will stimulate neurogenesis and protect cells from apoptosis in the brain of mice following radiation. We have shown a positive effect of EGF on the formation and proliferation of young neurons Dcx (+) in the subventricular zone (SVZ) but not in the hippocampus (Hi) following EGF injection directly in the brain using an osmotic pump. We also observed that the increase of young neurons is independent of the ability of EGF to protect them from apoptosis. Moreover, EGF doesn’t protect leukemic human blasts after irradiation. Mesenchymal stem cells (MSC) genetically engineered to secrete EGF did not stimulate neurogenesis when injected directly in the brain. Finally our results indicate that EGF could be a good candidate for the development of new therapies to treat the side effects that irradiation causes in the brain. The use of pumps to allow the administration of recombinant EGF in specific brain regions becomes very interesting. Indeed this delivery system is increasingly used and effective to help improve the quality of life of patients.

EGF

CSM

MSC

cancers

neurogénèse

neurogenesis

radiothérapie

radiotherapy

Ciliary neurotrophic factor controle la migration des progéniteurs du cerveau adulte de rongeur pendant la phase de rémyélinistion.

Vernerey, Julien

02 October 2012

Le remplacement des oligodendrocytes myélinisants par des progéniteurs endogènes a été observé dans le contexte des pathologies démyélinisantes via le recrutement de deux populations distinctes de progéniteurs : les progéniteurs dérivant des cellules souches adultes de la zone sous ventriculaire (SVZ) et les précurseurs d'oligodendrocytes (OPCs) du parenchyme. Réactivés par des facteurs présents dans le cerveau après lésion, ces progéniteurs acquièrent de nouvelles propriétés migratoires et sont recrutés au niveau du site lésionnel. Toutefois, ces tentatives d'autoréparation endogènes sont limitées et ne permettent pas une récupération fonctionnelle, dans la grande majorité des cas. Cet échec dans la régénération peut être imputé en parti à des défauts de migration de ces cellules vers les zones lésées. Divers signaux sont impliqués dans le recrutement des cellules progénitrices allant de signaux développementaux ré‐exprimés au niveau de la lésion à l'expression de cytokines induite par la neuroinflammation. Nos données dévoilent de nouvelles fonctions pour Reelin et CNTF dans le contrôle de la migration des progéniteurs neuraux pendant la phase de remyélinisation chez la souris. Alors que Reelin induit la dispersion des cellules dérivant de la SVZ hors de leur niche rendant plus efficace les processus de recrutement spontané vers la lésion démyélinisée, CNTF participe au contrôle directionnel de leur migration vers de la zone endommagée in vivo. L'utilisation de tests in vitro nous a permis de montrer que Reelin, en plus de son effet décrit sur le détachement des neuroblastes de la SVZ migrant en chaîne, exerce un effet chimiocinétique. / Replacement of myelinating oligodendrocytes by endogenous progenitors has been demonstrated to occur in demyelinating diseases via the recruitment of two distinct pools of progenitors: Subventricular zone (SVZ)‐derived progenitors and parenchymal oligodendrocyte precursors (OPCs). Becoming re‐activated by factors present in the brain after injury, these progenitors acquire new migration properties and are recruited to the lesion sites. However these spontaneous repair attempts are limited and do not permit efficient functional recovery. This failure can be due in part to an inefficient migration of these cells to the lesion site. Numerous signals are involved in the migration of precursor cells into the area of brain damage ranging from developmental signals re‐expressed at the lesion site to neuroinflammation‐induced cytokines. Our data uncover new functions for Reelin and CNTF in the control of neural progenitor's recruitment during the remyelination phase in mouse model of demyelination. While Reelin induces SVZ‐derived cells dispersion form their niche which potentiates the spontaneous recruitment processes to the demyelinated lesion, CNTF participates in the control of their migration toward the damaged site in vivo. Using in vitro assays we show that Reelin, in addition to its already described detachment effect on SVZ neuroblasts chain migration, is chemokinetic. CNTF is acting on SVZ derived progenitors and parenchymal OPCs as a chemoattractant, which cells respond to it in gradient sensing manner. All together, these two studies reveal key function for Reelin and CNTF in the post‐lesional migration.

Cntf

Cellules souches

Neurogenèse

Régénération

Myéline

Sclérose en plaques

Cntf

Stem cells

Neurogenesis

Repair

Myelin

Multiple sclerosis

Expression et fonction des microARN dans la neutrogenèse du bulbe olfactif / Expression and function of microRNAs in olfactory bulb neurogenesis

Follert, Philipp

14 December 2012

Le bulbe olfactif (BO) des mammifères adultes est le siège d'une intense neurogenèse tout au long de la vie. L'intégration des nouveaux neurones dans le BO est alimentée par la génération continuelle de progéniteurs immatures dans la zone periventriculaire (ZPV) du ventricule latéral du cerveau antérieur. Au cours de leur différentiation, ceux-ci migrent « en chaine » de la ZPV vers le BO. Une fois dans le BO ils migrent alors radialement vers leur localisation finale et achèvent leur différentiation. Le phénotype des neurones néoformés est divers et est déterminé par la position des cellules souche dans la ZPV. Outre un intérêt spécifique, cette neurogenèse offre des perspectives uniques pour étudier la neurogenèse en général. En effet, dans ce système, les étapes successives du processus de différentiation sont distinctement séparées dans l'espace.Durant ma thèse j'ai étudié le rôle des microARN dans la neurogenèse du BO. Les microARN sont des ARN d'environs 22 nucléotides qui régulent négativement l'expression des gènes au niveau post-transcriptionnel. En utilisant des souris mutantes conditionnelles pour une enzyme clé dans la synthèse des microARN, j'ai démontré que les microARN étaient essentiels à la génération de nouveaux neurones. Par la suite, pour identifier des microARN candidats, le profil d'expression de l'ensemble des microARN durant la neurogenèse a été réalisé. Cette étude s'est faite par séquençage haut-débit des petits ARN sur un panel d'échantillons représentatifs des différentes étapes de la neurogenèse du BO et des différents compartiments de cellules souche de la ZPV. / New neurons are continuously and extensively generated in the adult mammalian olfactory bulb (OB). The constant integration of new neurons into the OB circuitry is fueled by the continuous generation of immature progenitors in the periventricular zone (PVZ) of the lateral ventricle of the forebrain. Immature precursor cells leave the PVZ and migrate in interwoven chains to the OB. After arrival in the OB they migrate radially to their final positions and undergo terminal differentiation. The phenotype of these new neurons is diverse and determined by the position of the stem cells in the PVZ. Beyond its specific interest, this system of postnatal neurogenesis provides unique, advantageous properties to study neurogenesis in general, as the distinct steps of the neurogenic sequence (stem cell, amplification, migration, final differentiation) are clearly spatially separated. During my PhD I aimed to elucidate the roles of microRNA mediated regulation of gene expression in the OB neurogenesis. MicroRNAs are a class of small regulatory RNAs around 22 nucleotides in length. They act as negative regulators of gene expression on a post-transcriptional level thereby restricting protein output. Using a conditional knock-out mouse line for a key enzyme of microRNAs synthesis, I first demonstrated that microRNAs are absolutely required to complete the neuronal differentiation process. Subsequently, in order to identify candidates playing a role in neurogenesis, a miRNome profiling was performed by deep sequencing of small RNAs in tissues representative for different stem cell compartments and steps of neurogenesis.

MicroARN

Neurogenèse

Bulbe olfactif

Analyse de l'expression

MicroRNAs

Neurogenesis

Olfactory bulb

Expression profiling

Influência da melatonina sobre a ordenação temporal diária da neurogênese e neuroinflamação em ratos espontaneamente diabéticos do tipo 2 (Goto-Kakizaki). / Influence of melatonin on the daily temporal regulation of neurogenesis and neuroinflammation in spontaneously type 2 diabetic rats (Goto-Kakizaki).

Matos, Raphael Afonso de

04 April 2019

A glândula pineal é responsável pela produção circadiana do hormônio melatonina, o qual possui além da propriedade cronobiótica, ações relacionadas à neurogênese e atividade anti-inflamatória. A prevalência do distúrbio do metabolismo dos carboidratos conhecido como diabetes mellitus afeta cada vez mais a população mundial em decorrência do aumento da expectativa de vida, alimentação inadequada, obesidade e detrimento de atividade física regular, caracterizando além dos sintomas clássicos como hiperglicemia, polifagia, polidipsia e glicosúria, problemas relacionados a plasticidade cerebral, neuroinflamação e maior probabilidade do desenvolvimento de doenças neurodegenerativas. A hiperglicemia crônica influencia negativamente a síntese e secreção de melatonina, fato que contribui ainda mais para o agravamento dos sintomas do quadro de diabetes, formando um ciclo de retroalimentação positiva. Tendo em vista as recentes pesquisas que mostram que a molécula de melatonina atua como agente anti-inflamatório, neuroprotetor e indutor da neurogênese, nos propomos a investigar, com este trabalho, se a suplementação via oral de melatonina em ratos modelo de diabetes tipo 2 (Goto-Kakizaki) é capaz de amenizar os danos cerebrais provocados pela hiperglicemia crônica. Nossos resultados demonstram que a suplementação com melatonina não foi capaz de alterar a glicemia de jejum dos animais, tampouco torná-los mais sensíveis à insulina mediante teste de tolerância à glicose. Entretanto, a mesma atuou sobre o peso corporal dos animais diabéticos, fato ainda a ser elucidado do ponto de vista molecular. As diferenças encontradas no que se refere a expressão gênica e proteica de fatores estudados, se dão principalmente pelo fato do animal ser hiperglicêmico (Goto-Kakizaki) ou não (Controle), sendo que a melatonina é capaz de atuar em questões pontuais. Ainda, os animais Goto-Kakizaki não apresentam processos inflamatórios no hipocampo e hipotálamo. / The pineal gland is responsible for the circadian production of the hormone melatonin, which has besides chronobiotic properties, actions related to adultneurogenesis and anti-inflammatory activityThe prevalence of carbohydrate metabolism disorder known as diabetes mellitus increasingly affects the world population due to increased life expectancy, inadequate diet, obesity, and the detriment of regular physical activity, characterized in addition to classic symptoms such as hyperglycemia, polyphagia, polydipsia,and glycosuria. This problem related to brain plasticity, neuroinflammation, and increased probability of developing neurodegenerative diseases. Chronic hyperglycemia negatively influences the synthesis and secretion of melatonin, a fact that contributes to the worsening symptoms of diabetes, forming a positive feedback loop. Taking in count the recent studies showing that the melatonin molecule acts as an anti-inflammatory, neuroprotective and neurogenetic inducer, we propose to investigate whether oral supplementation of melatonin in type 2 diabetes mellitus (Goto-Kakizaki) can alleviate the brain damage induced by chronic hyperglycemia. Our results demonstrate that supplementation with melatonin was not able to alter the fasting glycemia of the animals, nor did it make them more sensitive to insulin through a glucose tolerance test. However, it acted on the body weight of diabetic animals, a fact still to be elucidated from the molecular point of view. The differences found in gene expression and protein expression of the studied factors are mainly because the animal is hyperglycemic (Goto-Kakizaki) or not (Control), and melatonin can act on specific questions. Furthermore, Goto-Kakizaki animals do not present an inflammatory processin the hippocampus and hypothalamus.

Caracterização morfológica e celular da zona subventricular e da corrente rostral migratória em encéfalos de fetos caninos / Morphological and cellular characterization of subventricular zone and rostral migratory stream in brains of canine fetuses

Orechio, Dailiany

03 June 2016

Precursores neurais originados na zona subventricular (ZSV) de algumas espécies animais possuem uma rota de migração neuronal destinada ao bulbo olfatório principal (BOP), onde os neuroblastos migrantes se diferenciam em interneurônios. Esta corrente migratória é mantida na idade adulta. A compreensão de como se organiza na idade fetal é essencial para a compreensão geral e estabelecimento de novas terapias celulares. O objetivo deste estudo é caracterizar a composição celular e organização morfológica da ZSV e da corrente rostral migratória (CRM) em encéfalos de fetos caninos. A ZSV, CRM e BOP foram obtidos de fetos caninos de aproximadamente 57 dias de idade gestacional. O tecido foi analisado através de coloração de Nissl, método de imunohistoquímica de dupla marcação com duplacortina (DCX), fator de transcrição SOX2, proteína glial fibrilar ácida (GFAP), calbindina (CALB), calretinina (CALR) e tirosina-hidroxilase (TH). Foram feitas a análise relativa da expressão da imunorreatividade e análise quantitativa de colocalização celular, além do método de microscopia eletrônica de transmissão. Os resultados mostram que a ZSV dorsal possui células imunorreativas (ir) para o DCX ao longo da parede ventricular, dispostas tangencialmente e fileiras de células SOX2-ir foram encontradas na mesma orientação. A imunorreatividade de GFAP foi mais forte na ZSV dorsal e as células possuem fibras dirigidas tangencialmente adjacentes ao ventrículo lateral e fibras orientadas radialmente em direção ao córtex. A CRM de feto de cão tem início na ZSV anterior e segue caudalmente ao redor da cabeça do núcleo caudado e desce na vertical até se curvar rostralmente em direção ao BOP onde termina na camada de células granulares (CCG). A CRM tem aparência homogênea e densa e possui células positivas para o DCX nas porções iniciais e para SOX2 e GFAP por toda a extensão. Não houve células positivas para CALB, CALR e TH em nenhuma região da ZSV e CRM. No BOP, os resultados mostraram que a camada glomerular (CG) possui células imunorreativas a CALR, TH, SOX2 e GFAP. Na camada plexiforme externa (CPE) houve células imunorreativas a CALB, CALR, SOX2 e GFAP e na CCG, houve células imunorreativas a CALR, SOX2 e GFAP. Na análise de colocalização, foram encontrados na CG neurônios CALR que colocalizam com células SOX2 e uma baixa colocalização de neurônios TH e células SOX2. Na CPE, foi observado um baixo número de colocalização de neurônios CALR e CALB e na CCG, as células SOX2 colocalizam com os neurônios CALR. As conclusões mostram que o feto de cão possui uma CRM em direção BOP, com imunorreatividade celular para DCX, SOX2 e GFAP na ZSV e CRM e para CALB, CALR, TH, SOX2 e GFAP nas principais camadas do BOP / Neural precursors originated in the subventricular zone (SVZ) of some animal species have a migration route destined for main olfactory bulb (MOB), where migrants neuroblasts differentiate into olfactory interneurons. This migratory stream is maintained in adulthood. Understanding how it is organized in fetal age is essential for general understanding and establishment of new cell therapies. The aim of this study is characterize the cellular composition and morphological organization of the SVZ and rostral migratory stream (RMS) of brains of canine fetuses. The SVZ, RMS and MOB was obtained from canine fetuses of the approximately 57 gestacional days-old. The tissue was analyzed by Nissl staining and by immunohistochemical methods for double labelling with doublecortin (DCX), transcription factor SOX2, glial fibrillary acid protein (GFAP), calbindin (CALB), calretinin (CALR) and tyrosinehydroxylase (TH). Semiquantitative analysis of immunoreactivity and quantitative analysis of colocalization were realized, besides ultrastructural analysis by electron microscopy. The results show that in dorsal SVZ, DCX immunoreactive cells were found along the ventricular wall, arranged tangentially and lines of SOX2 cells were also found in the same orientation. The GFAP immunostaining is stronger in dorsal SVZ with tangentially directed fibers near the lateral ventricle and radially oriented fibers toward the cortex. The RMS of dog fetus begins at anterior SVZ and follows caudally around the head of the caudate nucleus and vertically descends to bend rostrally into the MOB, where it ends in the granular cell layer (GCL).The RMS have SOX2 positive cells on entire length, showing a homogeneous appearance and high cell density. There is no positive CALB cells or CALR in any region of the SVZ and RMS. The results of the MOB show that the glomerular layer (GL) there were cells immunoreactive to CALR, TH, SOX2 and GFAP. In the external plexiforme layer (EPL) there were immunoreactive cells for CALR, CALB, SOX2 and GFAP and, the GCL, the prevalence is higher for CALR neurons, SOX2-ir and GFAP-ir cells. In colocalization analysis, they were found a some CALR positive neurons in GL that colabeled with SOX2 cells and a low colocalization of TH neurons and SOX2 cells. In EPL, was observed a low colocalization number of CALR and CALB neurons and in GCL, SOX2 cells colabeled with CALR neurons. The conclusions show that the dog fetus has a RMS directed to the MOB, with cellular immunoreactivity for DCX, SOX2 and GFAP in the ZSV and RMS and cellular immunoreactivity for SOX2 CALB, CALR, TH and GFAP in main olfactory bulb layers

Bulbo olfatório

Célula-tronco

Interneuron

Interneurônio

Neurogênese

Neurogenesis

Olfactory bulb

Stem cell

Exercício físico, neurogênese e memória / Exercise, neurogenesis and memory

Teixeira, Lívia Clemente Motta

18 December 2013

A neurogênese hipocampal é modulada por muitos fatores que incluem envelhecimento, estresse, enriquecimento ambiental, atividade física e aprendizado. Atividade física voluntária (espontânea) estimula a proliferação celular no giro denteado e facilita a aquisição e/ou retenção de tarefas dependentes do hipocampo, incluindo o Labirinto Aquático de Morris. Embora seja bem estabelecido que o exercício físico regular melhore o desempenho em tarefas de memória e aprendizado, não está claro qual a duração desses benefícios após o final da atividade física. Neste estudo investigamos a relação temporal entre os efeitos benéficos da atividade física associado ao aprendizado de tarefa dependente da função hipocampal, e sua relação com a neurogênese, levando em consideração também o tempo decorrido desde o término da atividade física. Grupos independentes de ratos tiveram acesso a roda de atividade ao longo de 7 dias (Grupo EXE) ou roda bloqueada (Grupo Ñ-EXE) e receberam injeções de BrdU nos últimos 3 dias de exposição roda. Após um INTERVALO de 1, 3 ou 6 semanas após o final da exposição a roda de atividade após o final da exposição a roda de atividade, os animais foram testados no labirinto aquático de Morris, sendo uma parte deles expostos a tarefa de memória operacional espacial, dependente da função hipocampal (H), e outra parte a uma tarefa de busca por uma plataforma visível, independente da função hipocampal (ÑH). Em ambos os casos, o intervalo entre as tentativas (ITI) foi de 10 minutos durante as sessões 1-6 e (virtualmente) zero minutos durante as sessões 7-10. Concluída a tarefa os cérebros foram processados para imuno-histoquímica. Foram feitas imunoistoquímicas para a detecção de Ki-67 (proliferação celular), BrdU, NeuN (para identificar neurónios maduros), e DCX (para identificar imaturo neurônios). Nossos dados suportam a ideia que atividade física voluntária induz um aumento na proliferação celular e na diferenciação neuronal (neurogênese) no giro denteado. A introdução de um período de intervalo entre o final do exercício e a execução da tarefa comportamental causa uma redução significativa na sobrevivência dos novos neurônios, como observado com 1 semana de intervalo em comparação com os animais testados com 6 semanas de intervalo. Em contraste, entretanto, o presente resultado não confirma que esse aumento da neurogênese é acompanhado por melhora na memória espacial, como avaliado por meio da versão que envolve memória operacional no labirinto aquático de Morris. O aprendizado da tarefa do labirinto aquático de Morris, na versão de memória operacional que é dependente do hipocampo, leva a um aumento da sobrevivência dos novos neurônios que foram produzidos no período de exercício, ao passo que o aprendizado da versão independente da tarefa leva a uma redução do número absoluto de novos neurônios / Hippocampal adult neurogenesis is modulated by many factors including age, stress, environmental enrichment, physical exercise and learning. Spontaneous exercise in a running wheel stimulates cell proliferation in the adult dentate gyrus and facilitates acquisition and/or retention of hippocampal-dependent tasks including the Morris water maze. While it is well established that regular physical exercise improves cognitive performance, it is unclear for how long these benefits last after its interruption. In this study, we investigate the temporal relation between exercise-induced benefits associated with learning of a hippocampal-dependent task, this relationship with neurogenesis, considering the time after exercise has ended. Independent groups of rats were given free access to either unlocked (EXE Group) or locked (No-EXE Group) running wheels for 7 days, having received daily injections of BrdU for the last 3 days. The animals were then transferred to standard home cages. After a time period of either 1, 3 or 6 weeks, the animals were tested in the Morris water maze, one of them being exposed to the spatial working memory task dependent on hippocampal function (H) and partly to a task search for a visible platform, independent of hippocampal function (NH). In both cases, the interval between trials (ITI) was 10 minutes during sessions and 1-6 and (virtually) zero minute during the sessions 7-10. After the task brains were processed for immunohistochemistry. Cell proliferation and net neurogenesis were assessed in hippocampal sections using antibodies against BrdU, NeuN (to identify mature neurons), and DCX (to identify immature neurons). Data of the present study confirm that exposure of rats to 7 days of spontaneous wheel running increases cell proliferation and neurogenesis. In contrast, however, the present results did not confirm that this neurogenesis is accompanied by a significant improvement in spatial learning, as evaluated using the working memory version of the Morris’ water maze task. The introduction of a delay period between the end of exercise and cognitive training on the Morris water maze reduces cell survival; the number of new neurons was higher in the EXE1 week delay group as compared to the EXE6 week delay. We showed that learning the Morris water maze in the working memory task dependent on hippocampal function (H) increases the new neurons survival, in contrast, learning hippocampal-independent version of the task decreases number of new neurons

Aprendizado espacial

Atividade física

Memória espacial

Neurogênese

Neurogenesis

Physical activity

Spatial learning

Spatial memory

Transplante de germe dental: estudo da correlação entre posição do implante, presença de tecido ósseo no leito receptor e fase de desenvolvimento do germe transplantado com possível neoformação de tecido nervoso e vascular na polpa dental / Correlation between position of implantation, presence of bone and tooth development stage in the moment of the transplant with nervous and vascular development in transplanted teeth

Daltoé, Felipe Perozzo

06 May 2010

A odontologia moderna, mesmo usando as suas técnicas mais primorosas, na prática, ainda recupera a perda dental com implantes metálicos recobertos por coroas protéticas. Há um empenho coletivo dos cientistas em criar técnicas de desenvolvimento dental in vitro na busca por maneiras de recuperar, de maneira biológica, a ausência dental. Já é possível criar estruturas similares a dentes a partir de células-tronco de origem dental (polpa de dentes permanentes e decíduos) e não dental (células-tronco embrionárias, células-tronco da medula óssea e da crista neural) por meio de recombinação dos tecidos epiteliais e mesenquimais de germes dentais. As técnicas de reconstrução tecidual nunca estiveram tão perto do desenvolvimento da terceira dentição mas a ciência ainda tem muito a aprender no que concerne o estudo da biologia dental e engenharia de tecidos. Não basta saber como um dente se desenvolve; há de se entender como ele interage com o organismo do qual faz ou fará parte. É com esta preocupação que nos propomos a estudar se pode haver uma correlação entre o desenvolvimento do sistema nervoso e vascular de um germe dental transplantado com a posição que ele é implantado e/ou com a presença de tecido ósseo que no leito receptor. Ademais, buscamos saber se o estágio de desenvolvimento do germe dental a ser transplantado pode influenciar a formação de tecido nervoso e vascular na polpa dental ou não. Nossos resultados revelaram que o local do sítio do implante influencia diretamente o desenvolvimento dental e que isto é tempo dependente. A vascularização e a reinervação da polpa dental nos espécimes implantados nas tíbias é mais semelhante ao grupo controle que os implantados nos rins e isto independe da posição de implantação dental. Entretanto, a polpa dental dos germes implantados nos rins parece estar comumente mais sadia, conter mais odontoblastos viáveis e ser capaz de produzir tecidos mineralizados como a osteodentina. / Contemporary dentistry, even using modern techniques, still deal with missing teeth using metal implants coated by prosthetic crowns. However, there is a worldwide effort to develop a biotooth using in vitro techniques. In this way it is already possible to generate structures similar to teeth using recombination of odontogenic and non odontogenic cells in tissue engineering experiments. The transplant of the recombined cells into a host is a necessary and major step to obtain the biotooth. In this context, at the same time that the development of an appropriate sensorial and vascular system in the biotooh is required, there are many unclear questions about it. Therefore, herein we intend to analyze (I) whether may exist a correlation between the stage of development and vascular and nervous re-growth in the dental pulp after tooth transplantation; (II) if the absence or presence of bone could influence this processes or (III) if the position of implantation could change the vascular and/or nervous development in the transplanted tooth. Our results showed that the site of implantation directly alter tooth development modifying morphogenesis and expression of different vascular, perivascular and neural markers in a time dependant way. The re-growth of the vascular and neural tissue on samples transplanted to the tibia is more similar to the control group than the kidney ones and it is non dependant of the position of implantation. However, the pulp tissue of the samples transplanted under the kidney capsule seemed to be healthier as they were capable of producing mineralized tissue such as osteodentin and still had live odontoblasts.

Angiogênese e neurogênese

Angiogenesis and neurogenesis

Desenvolvimento dental

Engenharia tecidual

Tissue engineering

Tooth development

Vasculogênese

Vasculogenesis