Analysis of the cell cycle of neural progenitors in the developing ferret neocortex

Turrero García, Miguel

21 November 2013

Description of the cell cycle features of neural progenitors during late stages of neurogenesis in a gyrencephalic mammal, the ferret.

info:eu-repo/classification/ddc/570

ddc:570

Estudo da proliferação, migração e diferenciação dos precursores neurais do sistema nervoso pós-natal de camundongos (Mus musculus) / Proliferation, migration and differentiation of neural precursor cells NPCs of the post-natal nervous system of mice (Mus musculus) / Estudio de la proliferación, migración y diferenciación de los precursores neurales del sistema nervioso posnatal de ratones (Mus musculus)

Delgado-Garcia, Lina Maria [UNESP]

02 May 2016

Submitted by LINA MARIA DELGADO GARCIA (linadelgadomvz@gmail.com) on 2016-06-03T17:50:42Z No. of bitstreams: 1 Diss_LinaMDelgadoGarcia_PPG_MV_FMVZ.pdf: 5259973 bytes, checksum: 96b8449017ba967633f1d9ef9da7c741 (MD5) / Approved for entry into archive by Juliano Benedito Ferreira (julianoferreira@reitoria.unesp.br) on 2016-06-06T18:25:40Z (GMT) No. of bitstreams: 1 delgado-garcia_lm_me_bot.pdf: 5259973 bytes, checksum: 96b8449017ba967633f1d9ef9da7c741 (MD5) / Made available in DSpace on 2016-06-06T18:25:40Z (GMT). No. of bitstreams: 1 delgado-garcia_lm_me_bot.pdf: 5259973 bytes, checksum: 96b8449017ba967633f1d9ef9da7c741 (MD5) Previous issue date: 2016-05-02 / No final dos anos 60, os experimentos em proliferação celular anunciaram a neurogênese adulta em mamíferos. Três décadas depois a relação entre neurogênese e células-tronco neurais (NSCs) foi estabelecida. Atualmente, as NSCs são objeto de pesquisas na medicina como modelo de estudo de múltiplos estados anormais e distúrbios orgânicos, além de se propor como uma estratégia em condições com poucas alternativas terapêuticas. Contudo o desenvolvimento destas terapias depende do entendimento dos mecanismos moleculares, celulares e biológicos que controlam a neurogênese e as NSCs. Assim, o objetivo deste trabalho foi o estudo das teorias no funcionamento dos nichos neurogênicos e as NSCs com ênfase na proliferação, migração e diferenciação, além da descrição dos aspectos celulares in vitro dos precursores neurais (NPCs) dos nichos neurogênicos dos mamíferos. Os nichos são regiões do sistema nervoso adulto que apresentam neurogênese pela presença das NSCs e um microambiente celular apropriado. Nos mamíferos existem pelo menos dois nichos, a zona subventricular (SVZ) dos ventrículos laterais e a zona subgranular (SGZ) do hipocampo. Os estudos revisados demostram que existem diferenças e semelhanças no comportamento das NSCs nos nichos neurogênicos adultos, levando a que a proliferação, migração e diferenciação seja menos efetiva quando comparada com o desenvolvimento embrionário. Para finalizar, se descreveu o protocolo para isolamento e cultivo dos NPCs e seus aspectos celulares. Os NPCs proliferaram como populações heterogêneas multipotentes. Após a diferenciação, as células migraram e apresentaram características morfológicas e imunofenotípicas de células neurais imaturas, com o predomínio de células gliais. Em conjunto, os NPCs in vitro mimetizam os aspectos gerais da neurogênese. / In the late 60`s, the experiments on cell proliferation announced adult neurogenesis in mammals. Three decades later, the link between neurogenesis and neural stem cells (NSCs) was recognized. Currently, NSCs are the matter of research in human and veterinary medicine as a model of multiple abnormal states and organic disorders, in addition to be proposed as a strategy for diseases and conditions with few therapeutic alternatives. However, the successful development of these therapies depends on the understanding of molecular, cellular and biological mechanisms that control neurogenesis and NSCs. Therefore, the aim of this work was the study of the theories on neurogenic niches and NSCs with focus in proliferation, migration and differentiation, beyond the description of the cellular aspects of in vitro neural precursors cells (NPCs) of the neurogenic niches of the mammals. The neurogenic niches are regions of the adult nervous system which display complete neurogenesis because of the presence of NSCs and an appropriate cell microenvironment. In mammals, there are at least two neurogenic niches, the subventricular zone (SVZ) of the lateral ventricles and the subgranular zone (SGZ) of the hippocampus. The reviewed studies showed that exists differences and similarities in the behavior of the adult NSCs in the neurogenic niches that lead to less effective proliferation, migration and differentiation; when compared with the embryonic development. Finally, was described the protocol for isolation and cultivation of NPCs and their cellular aspects. NPCs proliferated as heterogeneous multipotent populations. Differentiation analyses showed that cells migrated and showed morphological and immunophenotypical characteristics of immature cells with the predominance of glial cells. Overall, NPCs effectively reproduce the general aspects of neurogenesis.

Células-tronco neurais

Desenvolvimento

Medicina regenerativa

Neuroblastos

Neurogênese adulta

Nichos neurogênicos

Progenitores neurais

Adult neurogenesis

Development

Neural progenitors

Neural stem cells

Neuroblasts

Neurogenic niches

Regenerative medicine

Estudo da proliferação, migração e diferenciação dos precursores neurais do sistema nervoso pós-natal de camundongos (Mus musculus)

Delgado-Garcia, Lina Maria

January 2016

Orientador: Rogério Martins Amorim / Resumo: No final dos anos 60, os experimentos em proliferação celular anunciaram a neurogênese adulta em mamíferos. Três décadas depois a relação entre neurogênese e células-tronco neurais (NSCs) foi estabelecida. Atualmente, as NSCs são objeto de pesquisas na medicina como modelo de estudo de múltiplos estados anormais e distúrbios orgânicos, além de se propor como uma estratégia em condições com poucas alternativas terapêuticas. Contudo o desenvolvimento destas terapias depende do entendimento dos mecanismos moleculares, celulares e biológicos que controlam a neurogênese e as NSCs. Assim, o objetivo deste trabalho foi o estudo das teorias no funcionamento dos nichos neurogênicos e as NSCs com ênfase na proliferação, migração e diferenciação, além da descrição dos aspectos celulares in vitro dos precursores neurais (NPCs) dos nichos neurogênicos dos mamíferos. Os nichos são regiões do sistema nervoso adulto que apresentam neurogênese pela presença das NSCs e um microambiente celular apropriado. Nos mamíferos existem pelo menos dois nichos, a zona subventricular (SVZ) dos ventrículos laterais e a zona subgranular (SGZ) do hipocampo. Os estudos revisados demostram que existem diferenças e semelhanças no comportamento das NSCs nos nichos neurogênicos adultos, levando a que a proliferação, migração e diferenciação seja menos efetiva quando comparada com o desenvolvimento embrionário. Para finalizar, se descreveu o protocolo para isolamento e cultivo dos NPCs e seus aspectos celulares. O... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: In the late 60`s, the experiments on cell proliferation announced adult neurogenesis in mammals. Three decades later, the link between neurogenesis and neural stem cells (NSCs) was recognized. Currently, NSCs are the matter of research in human and veterinary medicine as a model of multiple abnormal states and organic disorders, in addition to be proposed as a strategy for diseases and conditions with few therapeutic alternatives. However, the successful development of these therapies depends on the understanding of molecular, cellular and biological mechanisms that control neurogenesis and NSCs. Therefore, the aim of this work was the study of the theories on neurogenic niches and NSCs with focus in proliferation, migration and differentiation, beyond the description of the cellular aspects of in vitro neural precursors cells (NPCs) of the neurogenic niches of the mammals. The neurogenic niches are regions of the adult nervous system which display complete neurogenesis because of the presence of NSCs and an appropriate cell microenvironment. In mammals, there are at least two neurogenic niches, the subventricular zone (SVZ) of the lateral ventricles and the subgranular zone (SGZ) of the hippocampus. The reviewed studies showed that exists differences and similarities in the behavior of the adult NSCs in the neurogenic niches that lead to less effective proliferation, migration and differentiation; when compared with the embryonic development. Finally, was described the proto... (Complete abstract click electronic access below) / Mestre

Células-tronco neurais

Desenvolvimento Desenvolvimento.

Medicina regenerativa.

Neuroblastos

Neurogênese adulta

Nichos neurogênicos

Progenitores neurais

Adult neurogenesis

Development

Neural progenitors

Neural stem cells

Neuroblasts

Neurogenic niches

Regenerative medicine

Détermination par approche transgénique du rôle de gênes de guidance axonale, les éphrines, dans le développement du néocortex cérébral

Depaepe, Vanessa

30 November 2005

Les ephrines et leurs récepteurs Eph constituent une famille multigénique de facteurs de guidage cellulaire et axonal. Ces facteurs jouent un rôle-clé dans l’établissement de cartes neurales topographiques, notamment au niveau des connexions thalamocorticales, réseau neuronal majeur du cerveau des mammifères.<p><p>Notre projet visait initialement à étudier l’implication des ephrines corticales dans la génèse des connexions thalamocorticales par une approche de gain de fonction. Pour ce faire, nous avons généré des souris transgéniques présentant une expression ectopique spécifique de l’ephrine-A5 dans le cortex en développement, en utilisant une technique de transgénèse d’addition par chromosome artificiel de bactéries (BAC). <p><p>De façon surprenante, l’analyse de ces souris nous a révélé que les ephrines, à côté de leurs rôles classiques de facteurs de guidage, influençaient la taille du cortex cérébral en régulant l’apoptose des progéniteurs neuronaux. En effet, nous avons pu montrer que l’expression ectopique du ligand ephrine-A5 par les progéniteurs corticaux exprimant son récepteur EphA7 résultait en une déplétion précoce en progéniteurs corticaux par apoptose, et une diminution subséquente de la taille du cortex. Cette vague apoptotique est observée en l’absence de toute altération détectable de la prolifération, la différenciation et la migration neurale dans le cortex.<p><p>Nous avons étayé notre étude in vivo par des expériences in vitro, qui ont montré que l’ephrine-A5 recombinante était capable d’induire rapidement la mort des progéniteurs neuronaux dissociés. Nous avons également montré que cette mort cellulaire impliquait l’activation de la caspase-3, confirmant ainsi l’effet direct des ephrines et de leurs récepteurs sur une ou plusieurs cascades apoptotiques. Par contre, la stimulation des neurones post-mitotiques corticaux par l’ephrine-A5 est accompagnée d’une activation de la caspase-3 sans mort cellulaire apparente. La signalisation ephrine/Eph induirait donc l’activation de la caspase-3 dans différents types cellulaires, sans que celle-ci ne soit systématiquement le reflet d’une mort cellulaire programmée. <p><p>Parallèlement, afin d’évaluer l’importance physiologique de cette voie pro-apoptotique dépendante des ephrines, nous avons étudié des souris présentant une perte de fonction du récepteur EphA7. L’analyse de ces mutants nous a permis de mettre en évidence une diminution de l’apoptose des progéniteurs corticaux, une augmentation de la taille du cortex, ainsi qu’une hypercroissance exencéphalique de tout le cerveau antérieur dans les cas les plus extrêmes. Ces observations indiquent donc que les ephrines sont nécessaires au contrôle de la mort cellulaire programmée des progéniteurs du cortex cérébral. Nous avons également observé le même phénotype exencéphalique dans des mutants déficients en ephrines-A2, -A3 et -A5, dont l’analyse préliminaire suggère également des défauts de processus apoptotiques. <p><p>Nos diverses expériences, combinant une approche par gain et perte de fonction, à la fois in vivo et in vitro, ont ainsi permis de proposer un nouveau rôle des ephrines en marge de leur implication dans la guidance axonale, à savoir un rôle dans le contrôle de la taille cérébrale par induction de l’apoptose des progéniteurs corticaux.<p>La mise en évidence de cette nouvelle voie de signalisation pro-apoptotique pourrait avoir des implications importantes dans d’autres aspects de la biologie du développement et des cellules souches, ainsi que dans l’oncogénèse. <p> / Doctorat en sciences biomédicales / info:eu-repo/semantics/nonPublished

Médecine pathologie humaine

Disciplines biomédicales diverses

Neocortex

Cerebral cortex

Apoptosis

Ligands

Transgenic mice

Néocortex

Cortex cérébral

Apoptose

Ligands

Souris transgéniques

apoptose

taille cérébrale

ephrines

Eph

neural progenitors

apoptosis

néocortex

brain size

ephrins

progéniteurs neuraux