T-Zell-vermittelte Autoimmunität

Gimsa, Ulrike

26 February 2004

Die vorliegende Arbeit befaßt sich mit T-Helferzellen und ihren Interaktionen mit Gewebszellen, wie sie im gesunden Organismus und in Autoimmunerkrankungen auftreten. Es werden Fragen der Toleranzinduktion durch orale Gabe von Antigenen, speziell der oralen Verabreichung von Collagen II bei Patienten mit rheumatoider Arthritis diskutiert. Eine Immundeviation als Mittel, inflammatorische Th1-Zellantworten in anti-inflammatorische Th2-Zellantworten zu verwandeln, kann durch Eingriffe in die T-Zell-Signaltransduktion erreicht werden. Es werden neue Ansätze zu Mechanismen diskutiert, die das Immunprivileg des Zentralnervensystems gewährleisten. Die hirnresidenten Immunzellen, zu denen Mikrogliazellen und Astrozyten zählen, besitzen Eigenschaften, die eine Entzündung unwahrscheinlich machen. Sie müssen aktiviert werden, um Antigene präsentieren zu können. In organtypischen entorhinal-hippocampalen Schnittkulturen konnte gezeigt werden, dass Mikrogliazellen durch Th1-Zellen aktiviert, von Th2-Zellen hingegen deaktiviert werden. Die Möglichkeit, dass die Costimulation über CD80 oder CD86 differentielle Effekte auf den Charakter der Immunantwort hat, wird diskutiert. Der Einfluß von pro-inflammatorischen Zytokinen auf Mikrogliaaktivierung und den Erhalt von Nervenfasern wurde ebenfalls in Hirnschnittkulturen untersucht. Astrozyten sind wesentlicher Bestandteil der Blut-Hirn-Schranke. Diese kann jedoch von aktivierten T-Zellen überwunden werden. In dieser Arbeit wird gezeigt, dass Astrozyten über eine Expression von CD95L in aktivierten T-Zellen Apoptose induzieren können. Davon sind jedoch nicht alle T-Zellen betroffen. Andererseits wird eine T-Zellproliferation unterdrückt, indem T-Zellen unter Astrozyteneinfluß verstärkt CTLA-4 exprimieren, was einen Zellzyklusarrest zur Folge hat. Darüber hinaus ist eine verstärkte Produktion von Nervenwachstumfaktor (NGF; nerve growth factor) nach antigenspezifischer Interaktion von Astrozyten mit Th1- und Th2-Zellen als zusätzliches Mittel, eine Neuroinflammation einzudämmen, anzusehen. Die Arbeit stellt diese Ergebnisse in fünf Kapiteln dar, welche gleichzeitig eine Einführung in die als Anlagen enthaltenen zehn Publikationen geben. / This thesis deals with T helper cells and their interactions with tissue cells as they occur in the healthy organism and in autoimmune diseases. Questions of tolerance induction by oral application of antigens are discussed especially oral treatment with type II collagen in patients with rheumatoid arthritis. In order to transform inflammatory Th1 responses into anti-inflammatory Th2 responses, immune deviation can be reached by interference with T-cell signal transduction. New approaches towards the different ways that the immune privilege of the central nervous system is maintained are discussed. The resident immune cells, i.e. microglia and astrocytes possess properties that make inflammation unlikely. They have to be activated in order to present antigens. It has been shown in organotypic entorhinal-hippocampal slice cultures that Th1 cells activate whereas Th2 cells deactivate microglial cells. The possibility is discussed as to whether costimulation via CD80 or CD86 differentially influences the character of the immune response. The influence of pro-inflammatory cytokines on microglial activation and preservation of nerve fibers has also been studied in brain slice cultures. Astrocytes are an essential part of the blood-brain barrier, which can be crossed by activated T cells. The thesis shows that astrocytes can induce apoptosis in activated T cells via expression of CD95L. However, not all T cells are affected. T cell proliferation is suppressed by increased CTLA-4 expression in T cells under the influence of astrocytes, resulting in a cell cycle arrest. An additional mechanism of confining neuroinflammation is increased production of the nerve growth factor (NGF) following antigen-specific interaction of astrocytes and Th1 and Th2 cells, respectively. These results are presented in five chapters that also introduce the ten attached publications.

Astrozyten

Mikroglia

Autoimmunerkrankungen

Immunprivileg

Th1

Th2

Toleranz

CD152

NGF

CD95L

astrocytes

microglia

immune privilege

Th1

Th2

tolerance

autoimmune disease

CD152

NGF

CD95L

610 Medizin

33 Medizin

ddc:610

Untersuchungen zur strukturellen und funktionellen Plastizität des 20S-Proteasoms der Maus und seiner Modulierung durch den Proteasomaktivator PA28

Stohwasser, Ralf

17 November 2000

Die Studie beinhaltet eine biochemisch-molekularbiologische Analyse des 20S-Proteasoms und seiner Aktivierung durch Proteine der PA28-Familie. Das 20S-Proteasom ist die zentrale Epitop-prozessierende cytosolisch-nukleäre Protease des MHC-Klasse-I-Antigenpräsentationsweges. In Mikroglia, wie auch in anderen Zellen, unterliegt das Proteasom einer Interferon-g-(IFN-g)-vermittelten strukturellen Plastizität, d.h. einer Substitution der Untereinheiten der Aktiven Zentren. Durch diesen Austauschmechanismus werden proteolytische Schnittpräferenzen modifiziert, was für die Hierarchie von cytotoxischen T-Zellantworten von Bedeutung ist. Lipopolysaccharide (LPS) bewirken in Mikroglia ebenfalls Veränderungen der proteasomalen Zusammensetzung des 20S-Komplexes und seines PA700-Aktivators. Dies ist ein Hinweis auf die Rolle des Proteasoms auch bei der Prozessierung von Antigenen des endolysosomalen Antigenpräsentationsweges. Die Modulation der Zusammensetzung des 20S-Proteasoms in Mikroglia durch IFN-g und LPS ist ein weiterer Beleg für die Rolle der Mikroglia bei der zellulären Immunantwort im Zentralnervensystem. Funktionen des Proteasoms in der MHC-Klasse-I-Antigenpräsentation werden durch den Proteasomaktivator PA28 optimiert. Die PA28-Proteinfamilie besteht aus den Proteinen PA28a, PA28b und PA28g. Diese Studie trägt - basierend auf kinetischen Modellierungen, Mutagenese- und Protein-Protein-Interaktionsstudien und Untersuchungen zur MHC-Klasse-I-Antigen-präsentation in PA28-Transfektanten - zur funktionellen Neubewertung dieser drei Proteine bei. Die drei PA28-Proteine sind autonome Aktivatoren des Proteasoms. Heteromere PA28ab-Komplexe verursachen eine stärkere Aktivierung des Proteasoms als die homomeren PA28a-oder PA28b-Komplexe. Das PA28g-Protein ist in vitro ein schwacher Aktivator verschiedener proteasomaler Peptidaseaktivitäten, der dennoch in unserem in vivo-Modell eine verbesserte MHC-Klasse-I-Antigenpräsentation bewirkt. Kinetische Argumente sprechen für Funktionen der PA28a und PA28b-Proteine als Translokasen für Peptidsubstate und -produkte des Proteasoms. Anhand des HBx-Proteins des Hepatitis B-Virus wird die Möglichkeit illustriert, das vorgestellte Modell zur Analyse viraler Faktoren anzuwenden, die mit der Aktivierung des Proteasoms durch PA28 interferieren. / The 20S proteasome is the proteolytic core complex of the main cytoplasmic and nuclear protein degradation system. One of the numerous functions assigned to the 20S proteasome is the generation of antigenic peptides from intracellular proteins. MHC class I surface presentation of antigenic peptides is one key event of the cellular immune response. The presented study was aimed on the biochemical and molecular-biological analysis of the 20S proteasome and its activation by regulatory proteins of the PA28 family. In the brain, microglial cells are the major antigen presenting cells and they respond sensitive to pathologic events. Cultured mouse microglia was used as a model to study the correlation between microglial activation parameters and structural plasticity of the 20S/26S proteasome. In response to interferon-g , constitutive active site subunits were replaced by inducible subunits as described for other cellular systems. These replacements result in altered proteolytic cleavage preferences, indicating that activated microglia adapts its proteasomal subunit composition to the requirements of an optimized MHC class I epitope processing. Since lipopolysaccharide (LPS), a glycolipid of bacterial pathogens, also alters proteasome subunit composition of the 20S proteasome and its activator PA700, a function of microglial proteasome in processing of antigens of the endolysosomal pathway has been postulated. The modulation of the 20S proteasome subunit composition indicates that microglia is part of the cellular immune response in the central nervous system. The proteasome activator PA28 has been reported to optimize MHC class I antigen presentation. The PA28 protein family is composed of three proteins: PA28a, PA28b and PA28b. Based on kinetic modelling approaches, mutagenesis of activator proteins, protein-protein interaction studies and investigation of MHC class I antigen presentation in PA28-transfected cell lines a evaluation of functions of these three proteins has been performed. In vitro investigations revealed that the recombinant PA28 proteins are activators of peptidase activities of the proteasome. Heteromeric PA28ab complexes are stronger activators than homomeric PA28a o PA28b complexes. Recombinant PA28g is a weak activator of several peptidase activities. Nevertheless, in PA28g transfected B8-fibroblasts preliminary results indicate an improved MHC class I presentation. Based on kinetic evidence, a model has been presented indicating that PA28a and PA28b proteins act as peptide translocases, performing the import of substrates or the export of products into the catalytic chamber of the 20S proteasome. Finally, as examplified with the HBx protein of Hepatitis B virus, the opportunity is presented to use an in vitro reconstitution system of proteasomal activation to examine viral proteins interfering with proteasomal activation.

Immunoproteasom

Proteasom Aktivator PA28

Mikroglia

Antigenprozessierung

immunoproteasome

proteasome activator PA28

microglia

antigen processing

540 Chemie

30 Chemie

YG 1700

YG 5500

ddc:540

Proliferation von Mikrogliazellen und Astrozyten im Gyrus dentatus der Ratte nach experimenteler Läsion des entorhinalen Kortext

Grampp, Anne

06 October 2000

Die Läsion des entorhinalen Kortex bei adulten Ratten induziert in der deafferenzierten Molekularschicht des Gyrus dentatus eine Gliaaktivierung und -proliferation. Histochemische Doppelfärbungen auf das astrozytenspezifische Antigen Glial fibrillary acidic protein oder den Mikrogliamarker Griffonia simplicifolia isolectin B4 und Bromodeoxyuridin haben gezeigt, daß die Mikrogliazellzahlen in der Molekularschicht des Gyrus dentatus 3 Tage nach Läsion (dpl) ein Maximum erreichten und 30 dpl auf Kontrollwerte zurückgingen. Die Astrozytenzahlen im ipsilateralen Gyrus dentatus erreichten 30 dpl ein Maximum, ihre größte Proliferationsaktivität war 7 dpl zu beobachten. 100 dpl waren die Astrozytenzahlen auf Kontrollwerte zurückgegangen. Die Gliaproliferation war nicht auf die ipsilaterale Molekularschicht beschränkt, sondern trat auch zu einem bestimmten Grad in der Körnerzellschicht und im kontralateralen Gyrus dentatus auf. Somit ruft eine entorhinale Kortexläsion eine rasche Mikrogliareaktion und eine langanhaltende Astrozytenaktivierung in der deafferenzierten Terminationszone des Tractus perforans hervor. Schließlich ist zu erwähnen, daß Gliaproliferation nach entorhinaler Läsion einem komplexen zeitlichen und räumlichen Muster folgt, das bei Prozessen der neuronalen und axonalen Reorganisation auftritt. / Entorhinal cortex lesion of adult rats induces glial activation and proliferation in the deafferented dentate molecular layer. Double-labelling immunocytochemistry for the astrocyte-specific antigen glial fibrillary acidic protein or the microglial cell marker Griffonia simplicifolia isolectin B4 with bromodexyuridine detection revealed that microglia counts and the proliferation rate in the ipsilateral dentate gyrus reached a maximum in the molecular layer at 3 days post-lesion (dpl) and returned to control levels by 30 dpl. Astrocyte counts in the ipsilateral dentate gyrus peaked at 30 dpl, with maximum proliferation at 7 dpl. At 100 dpl the astrocyte count had reverted to control levels. Glial proliferation was not restricted to the ipsilateral molecular layer but also occurred to some degree in the granule cell layer and the contralateral dentate gyrus. Thus entorhinal cortex lesion induces a rapid microglial reaction and long-lasting astrocyte activation in the deafferented termination zone of the perforant path. To conclude, glial proliferation after entorhinal cortex lesion follows a complex temporal and spatial pattern that coincides with processes of neuronal and axonal reorganization.

Astrozyten

Mikroglia

Hippokampus

entorhinale Kortexläsion

Gliaproliferation

Bromodeoxyuridin

astrocytes

microglia

Hippocampus

entorhinal cortex lesion

glial proliferation

bromodeoxyuridine

610 Medizin

33 Medizin

YG 1700

ddc:610

Encefalite viral induzida pelo vírus da dengue em camundongos suíços albinos: a resposta inflamatória do sistema nervoso central do hospedeiro neonato

TURIEL, Maíra Catherine Pereira

14 October 2011

Submitted by Ana Rosa Silva (arosa@ufpa.br) on 2012-07-23T17:20:56Z No. of bitstreams: 2 Dissertacao_EncefaliteViralInduzida.pdf: 5417139 bytes, checksum: fe2793fc67a8b75aaa720b7b4ba15b48 (MD5) license_rdf: 23898 bytes, checksum: e363e809996cf46ada20da1accfcd9c7 (MD5) / Approved for entry into archive by Ana Rosa Silva(arosa@ufpa.br) on 2012-07-23T17:21:44Z (GMT) No. of bitstreams: 2 Dissertacao_EncefaliteViralInduzida.pdf: 5417139 bytes, checksum: fe2793fc67a8b75aaa720b7b4ba15b48 (MD5) license_rdf: 23898 bytes, checksum: e363e809996cf46ada20da1accfcd9c7 (MD5) / Made available in DSpace on 2012-07-23T17:21:44Z (GMT). No. of bitstreams: 2 Dissertacao_EncefaliteViralInduzida.pdf: 5417139 bytes, checksum: fe2793fc67a8b75aaa720b7b4ba15b48 (MD5) license_rdf: 23898 bytes, checksum: e363e809996cf46ada20da1accfcd9c7 (MD5) Previous issue date: 2011 / CNPq - Conselho Nacional de Desenvolvimento Científico e Tecnológico / Para estudar a resposta imune inata produzida especificamente no interior do SNC em desenvolvimento, evitando a influencia do sistema imune, empregamos modelo de infeccao viral induzida pela inoculacao intracerebral do virus da dengue em camundongos neonatos. Oito camundongos lactentes de dois dias de idade da espécie Mus musculus e variedade suica albina foram inoculados por via intracerebral com homogenado cerebral infectado com a especie Flavivirus (DENV3 genotipo III). Outro conjunto de animais foi utilizado como controle (nao infectado) e inoculado com igual volume de homogenado cerebral nao infectante e mantidos nas mesmas condicoes dos infectados. Decorridos 7 dias apos a infeccao os camundongos doentes foram sacrificados e tiveram seus cerebros processados para imunomarcacao de astrocitos e microglias. Quantificou-se a resposta imune glial no stratum lacunosum molecular (Lac Mol), radiatum (Rad) e pyramidale (Pir) de CA1-2 do hipocampo e na camada molecular do giro denteado (GDMol) usando o fracionador optico para estimar o numero de microglias e astrocitos em animais infectados e controles. Intensa astrocitose reativa e intensa ativacao microglial foram encontradas em animais neonatos com sinais clinicos de meningoencefalite. Entretanto, embora tenham sido maiores as estimativas do numero de microglias ativadas nos infectados (Inf) do que nos animais controles (Cont) nas camadas GDMol (Inf: 738,95 } 3,07; Cont: 232,73 } 70,38; p = 0,0035), Rad (Inf: 392,49 } 44,13; Cont: 62,76 } 15,86; p = 0,0004), em relacao ao numero total de microglias (ativadas ou nao) apenas o stratum radiatum mostrou diferença significante (Inf: 6.187,49 } 291,62; Cont: 4.011,89 } 509,73; p = 0,01). Por outro lado apenas a camada molecular do giro denteado mostrou diferenca no numero de astrocitos (Inf: 8.720,17 } 903,11; Cont: 13.023,13 } 1.192,14; p = 0,02). Tomados em conjunto os resultados sugerem que a resposta imune inata do camundongo neonato a encefalite induzida pelo virus da dengue (sorotipo 3, genotipo III) esta associada a um maior aumento do numero de microglias do que de astrocitos reativos e essa mudanca e dependente da camada e da regiao investigada. As implicacoes fisiopatologicas desses achados permanecem por ser investigadas. / To study the innate immune response produced specifically within the developing CNS, avoiding the influence of the immune system, employ viral infection model induced by intracerebral inoculation of dengue virus in neonatal mice. Eight newborn mice two days old of the species Mus musculus and Swiss albino variety were inoculated intracerebrally with brain homogenate infected with Flavivirus species (DENV3 genotype III). Another group of animals was used as control (uninfected) and inoculated with an equal volume of non-infectious brain homogenate and maintained under the same conditions of those infected. After 7 days after infection the mice were sacrificed and patients have had their brains processed for immunostaining of astrocytes and microglia. We quantified the glial and astrocitic immune response in the stratum lacunosum molecular (Lac Mol), radiatum (Rad) and pyramidale (Pir) of hippocampus and in the stratum molecular of dentate gyrus (DGMol) using the optical ractionator to estimate the number of microglias and astrocytes in the hippocampus of infected and control animals. Intense reactive astrocytosis and microglial activation were associated with clinical signs of meningoencephalitis in neonate subjects. Although the number of activated microglia to be higher in infected than in control subjects in the GDMol (Inf:738,95 } 83,07 vs Cont: 232,73 } 70,38; p = 0,0035), Rad (Inf: 392,49 } 44,13 vs Cont: 62,76 } 15,86; p = 0,0004) the number of total microglias (activated or not) was different only in the stratum radiatum (Inf: 6.187,49 } 291,62; Cont: 4.011,89 } 509,73;p = 0,01). On the other hand the total number of astrocytes was higher in control than in infected subjects only in the DGMol (Inf: 8.720,17 } 903,11; Cont: 13.023,13 }1.192,14; p = 0,02). Taken together the results suggest that the immune innate response in neonate mice after encephalitis induced by DENV3 genotype III is associated with a higher increase in the activated microglias than astrocytes in a regional and laminardependent fashion. The patophysiology implications of these events remain to be investigated.

CNPQ::CIENCIAS BIOLOGICAS::MICROBIOLOGIA

Dengue

Encefalite viral

Astrócitos

Microglia

Estereologia

Camundongo como animal de laboratório

Estudo da neuropatologia induzida pelo vírus Marabá em modelo murino

FARIAS, Alexandre Maia de

28 February 2014

Submitted by Cleide Dantas (cleidedantas@ufpa.br) on 2014-06-23T14:32:32Z No. of bitstreams: 2 license_rdf: 23898 bytes, checksum: e363e809996cf46ada20da1accfcd9c7 (MD5) Dissertacao_EstudoNeuropatologiaInduzida.pdf: 2723680 bytes, checksum: 7ec0e36fe9197262d43f318f6e1c8b98 (MD5) / Approved for entry into archive by Ana Rosa Silva (arosa@ufpa.br) on 2014-07-31T17:00:08Z (GMT) No. of bitstreams: 2 license_rdf: 23898 bytes, checksum: e363e809996cf46ada20da1accfcd9c7 (MD5) Dissertacao_EstudoNeuropatologiaInduzida.pdf: 2723680 bytes, checksum: 7ec0e36fe9197262d43f318f6e1c8b98 (MD5) / Made available in DSpace on 2014-07-31T17:00:08Z (GMT). No. of bitstreams: 2 license_rdf: 23898 bytes, checksum: e363e809996cf46ada20da1accfcd9c7 (MD5) Dissertacao_EstudoNeuropatologiaInduzida.pdf: 2723680 bytes, checksum: 7ec0e36fe9197262d43f318f6e1c8b98 (MD5) Previous issue date: 2014 / UEPA - Universidade do Estado do Pará / UFPA - Universidade Federal do Pará / IEC - Instituto Evandro Chagas / O vírus Marabá (Be AR 411459) é um Vesiculovírus (VSV), membro da família Rhabdoviridae, isolado em 1983, de um pool de flebotomíneos capturado em Marabá-PA pela Seção de Arbovírus do Instituto Evandro Chagas. Na literatura pouco se tem sobre neuropatologia experimental induzida pelo vírus Marabá, apesar dos 30 anos de isolamento. Um único estudo, porém, revelou que a infecção viral em camundongos recém-nascidos provoca necrose e picnose em neurônios em várias regiões do sistema nervoso central (SNC) O objetivo do presente trabalho foi investigar a distribuição do vírus Marabá no SNC, a ativação microglial e astrocitária, aspectos histopatológicos; e a expressão de citocinas e óxido nítrico (NO), na encefalite induzida pelo vírus Marabá em camundongo BALB/c adultos. Para tanto, foram realizados processamentos de amostras para análise histopatologica; immunohistoquímica para marcação de microglia, astrócitos e antígeno viral; testes de quantificação de citocinas e NO; e análises estatísticas. Os resultados demonstraram que os animais infectados (Ai) 3 dias após a inoculação (d.p.i.) apresentam discreta marcação do antígeno viral, bem como quanto a ativação de microglia e astrócitos no SNC. Por outro lado, nos Ai 6 d.p.i. a marcação do antígeno viral foi observada em quase todas regiões encefálicas, observando-se intensa ativação microglial nestes locais, embora a astrogliose tenha sido menor. Edema, necrose e apoptose de neurônios foram observados principalmente no bulbo olfatório, septo interventrícular e córtex frontal dos Ai 6 d.p.i. A quantificação dos níveis de IL-12p40, IL-10, IL-6, TNF- α, INF-ү, MCP-1 e de NO mostrou aumentos significativos nos Ai 6 d.p.i., quando comparados aos animais controles e Ai 3 d.p.i.. Por outro lado, os níveis de TGF-β, importante imunossupressor, não foi significativo em todos os grupos e tempos avaliados (3 e 6 d.p.i.). Estes resultados indicam que o vírus Marabá pode infectar diversas regiões do SNC de camundongo BALB/c adulto 6 d.p.i., produzindo alterações anátomo-patológicas e uma forte resposta imune inflamatória que pode ser letal para o animal. / The Marabá virus (Be AR 411459) is an Vesiculovirus (VSV), member of the Rhabdoviridae family, isolated in 1983 from a pool of sandflies captured in Marabá - PA by Section Arbovirus the Evandro Chagas Institute. In literature There are few studies on experimental neuropathology Marabá virus induced, despite 30 years of isolation. A single study, however, revealed that viral infection in newborn mice causes necrosis and pyknosis in neurons in several regions of the central nervous system (CNS). The objective of this study was to investigate the distribution of Marabá virus in the CNS, reactive microglia and astrocytes, histopathologic features, and the expression of cytokines and nitric oxide (NO), in Marabá virus-induced encephalitis in BALB / c mice. Thus was performed processing of samples for histopathological examination; Immunohistochemistry for observation of microglia, astrocytes and viral antigen; tests for quantification of cytokines and NO, and statistical analyzes. The results showed that infected animals (Ai) 3 days after inoculation (d.p.i.) with discrete labeling of viral antigen, as well as the activation of microglia and astrocytes in the CNS. Moreover , in Ai 6 d.p.i. marking the viral antigen was observed in almost all brain regions, with intense microglial activation in these locations, although was less astrogliosis. Edema, necrosis and apoptosis of neurons were mainly observed in the olfactory bulb, septum and frontal cortex of Ai 6 d.p.i. Quantification of IL - 12p40, IL- 10, IL- 6, TNF- α, INF- ү, MCP-1 and NO, showed significant increases in Ai 6 d.p.i., when compared with controls animals and Ai 3 d.p.i. On the other hand, TGF-β, important immunosuppressant, has not been significant in all groups and evaluated times (3 and 6 d.p.i.). These results indicate that Marabá virus can infect various CNS regions of BALB /c mouse adult 6 d.p.i., producing anatomical and pathological changes and strong inflammatory immune response that can be lethal to the animal.

Neuropatologia

Vírus Marabá

Microglia

Astrócitos

Neurônios

Citocinas

Óxido nítrico

Pará - Estado

Amazônia Brasileira

Fenótipos microgliais e tratamento com minociclina após isquemia focal induzida por microinjeções de endotelina-1 no córtex motor de ratos adultos

DIAS, Michelle Nerissa Coelho

23 December 2016

Submitted by Cássio da Cruz Nogueira (cassionogueirakk@gmail.com) on 2017-03-27T14:16:04Z No. of bitstreams: 2 license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Dissertacao_FenotiposMicrogliaisTratamento.pdf: 5341802 bytes, checksum: 9c43c6974bd1c1aa2a1870b9a38dd2c2 (MD5) / Approved for entry into archive by Edisangela Bastos (edisangela@ufpa.br) on 2017-04-10T14:30:37Z (GMT) No. of bitstreams: 2 license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Dissertacao_FenotiposMicrogliaisTratamento.pdf: 5341802 bytes, checksum: 9c43c6974bd1c1aa2a1870b9a38dd2c2 (MD5) / Made available in DSpace on 2017-04-10T14:30:37Z (GMT). No. of bitstreams: 2 license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Dissertacao_FenotiposMicrogliaisTratamento.pdf: 5341802 bytes, checksum: 9c43c6974bd1c1aa2a1870b9a38dd2c2 (MD5) Previous issue date: 2016-12-23 / CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / As células microgliais são componentes fundamentais do sistema imune inato que fazem, continuamente, uma varredura completa do parênquima neural em busca de alterações teciduais sutis para a preservação da integridade tecidual. Estes macrófagos residentes do sistema nervoso central (SNC), correspondem a cerca de 20% da população celular encefálica. Em desordens neurais agudas e crônicas, incluindo lesão cerebral e da medula espinhal, acidente vascular encefálico experimental (AVE), doenças de Alzheimer, Parkinson e Huntington, células microgliais são ativadas, o que é refletido em alterações morfológicas e bioquímicas. Nestas doenças, acredita-se que a ativação microglial contribua tanto para neuroproteção como para a exacerbação do processo lesivo. Diversas evidências experimentais sugerem que a ativação microglial excessiva pode contribuir para a exacerbação do processo lesivo após AVE experimental. No entanto, nossos estudos prévios sugerem que as células microgliais podem liberar fatores tróficos após AVE experimental em regiões anatomicamente distintas da população microglial com fenótipos prejudiciais. Inexistem estudos que tenham descrito os padrões de reatividade dos diferentes fenótipos microgliais após isquemia experimental. No presente projeto, investigaremos os padrões de ativação de células microgliais apresentando fenótipos benéficos e prejudiciais, avaliando que populações microgliais são inibidas pela tetraciclina minociclina após isquemia cortical focal. Os animais foram submetidos à isquemia focal no córtex motor por microinjeções de 80 pMol de endotelina-1 (ET-1). Os mesmos foram sacrificados 7, 14 e 30 dias após a indução isquêmica. Foi feita a técnica de imuno-histoquímica para a observação da perda neuronal (NeuN+) e imunofluorescência dupla para avaliar a densidade de células microgliais M1 e M2 na área lesionada. A análise estatística da densidade de células NeuN+ foi feita pelo test t de Student dos grupos de 07 dias de sobrevida controle e tratado enquanto que a análise das células microgliais M1 e M2 foram feitas pela análise de variância dos grupos de 07, 14 e 30 dias sobrevida controle, adotando em todos os testes o nível de significância P<0.05. Foi comprovada uma preservação no numero de neurônios presentes no parênquima lesionado dos animais tratados com minociclina. Foi observada uma diminuição no numero de células microgliais M1 nos animais tratados com minociclina, sugerindo que o fármaco pode apresentar efeitos em vias de expressão dos fenótipos microgliais M1. Entretanto, quando comparados os animais de 07, 14 e 30 dias controle, há um aumento do numero desse fenótipo M1 que se estende do 07 dia até o 30 dia de sobrevida. Concluímos que há um efeito neuroprotetor do fármaco minociclina relacionada ao acidente vascular encefálico, sugerindo que esse fármaco pode estar envolvido na modulação dos fenótipos microgliais necessitando de maiores estudos sobre a sua função nas vias de expressão desses fenótipos. / Microglial cells are fundamental components of the innate immune system that continually make a complete scan of the neural parenchyma in search of subtle tissue changes for the preservation of tissue integrity. These resident macrophages of the central nervous system (CNS) correspond to about 20% of the encephalic cell population. In acute and chronic neural disorders, including brain and spinal cord injury, experimental stroke, Alzheimer's, Parkinson's and Huntington's disease, microglial cells are activated, which is reflected in morphological and biochemical changes. In these diseases, it is believed that microglial activation contributes to both neuroprotection and exacerbation of the injury process. Several experimental evidences suggest that excessive microglial activation may contribute to the increase of the injury process after experimental stroke. However, our previous studies suggest that microglial cells may release trophic factors after experimental stroke in anatomically distinct regions of the microglial population with deleterious phenotypes. There are no studies that have described the reactivity patterns of the different microglial phenotypes after experimental ischemia. In the present project, we will investigate the patterns of activation of microglial cells presenting beneficial and harmful phenotypes, evaluating which microglial populations are inhibited by tetracycline minocycline after focal cortical ischemia. The animals were submitted to focal ischemia in the motor cortex by microinjections of 80 pMol of endothelin-1 (ET- 1). They were sacrificed 7, 14 and 30 days after ischemic induction. The immunohistochemistry technique for the observation of neuronal loss (NeuN +) and double immunofluorescence to evaluate the density of M1 and M2 microglial cells in the lesioned area was used. Statistical analysis of NeuN+ cell density was performed by the Student's t-test from the 7-day of control and treated groups while the analysis of the M1 and M2 microglial cells were done by the analysis of variance in the 07, 14 and 30 control groups, adopting in all tests the level of significance P <0.05. A preservation in the number of neurons in the injured parenchyma of the animals treated with minocycline was confirmed. A decrease in the number of M1 microglial cells in minocycline-treated animals was observed, suggesting that the drug may present effects on expression pathways of M1 microglial phenotypes. However, when the animals of the control group of 07, 14 and 30 are compared, there is an increase in the number of this M1 phenotype that extends from day 7 to day 30. We conclude that there is a neuroprotective effect of the drug minocycline when associated to stroke, suggesting that this drug may be involved in the modulation of microglial phenotypes requiring further studies on its function in the pathways of expression of these phenotypes.

Isquemia

Microglia

Minociclina

Fenótipos microgliais

Endotelina-1

Córtex cerebral

Rato como animal de laboratório

Células microgliais

Intéractions microglie/neurones dans un modèle murin de neurodégénérescence induite par la 6-OHDA / Microglia/Neuron Interactions in a murine model of 6‐OHDA‐induced dopaminergic neurodegeneration

Virgone-Carlotta, Angélique

12 December 2011

Ce travail de thèse porte sur l'étude de la réaction microgliale et des interactions microglie/neurones dans un modèle murin de neurodégénérescence dopaminergique induit par l'injection de 6‐hydroxydopamine (6‐ OHDA). Dans ce modèle, nous décrivons tout d'abord les cinétiques d'activation microgliale, de perte neuronale et d'altérations comportementales en relation avec le déficit dopaminergique. Dans la substance noire lésée ont été observées une perte progressive des neurones dopaminergiques TH+ (Tyrosine Hydroxylase) ainsi qu'une activation microgliale précoce mais transitoire. Le rôle délétère de cette activation microgliale est fortement suggéré par la mise en évidence d'une protection partielle contre la toxicité induite par la 6‐OHDA dans des souris génétiquement modifiées DAP12 Knock‐In, dont la densité microgliale est constitutivement diminuée. Par ailleurs, nous avons identifié différents types de contacts intercellulaires entre les neurones et la microglie de la substance noire lésée. Ces interactions physiques sont matérialisées entre autres sous la forme de contacts intimes entre le corps cellulaire des cellules microgliales et le soma des neurones dopaminergiques. De façon intéressante, ce type d'interaction se met en place quelques jours avant le pic de mort neuronale et dans la grande majorité des cas, concerne des neurones présentant des signes morphologiques d'apoptose. Finalement, nous avons également identifié un nouveau type d'interaction physique entre neurones et microglie sous la forme de ramifications microgliales pénétrant le soma des neurones. Ces interactions s'apparentent aux "tunelling nanotubes" décrits dans la littérature et représentent un type particulier de ramifications microgliales perforantes que nous avons nommées "tunelling ramifications". La présence de vacuoles TH+ dans le cytoplasme de nombreuses cellules microgliales suggère que les ramifications microgliales pénétrantes sont le support d'un processus de microphagocytose ciblant le cytoplasme des neurones dopaminergiques. La fonction précise de ces interactions et les mécanismes moléculaires qui les suscitent restent à définir. Toutefois, ce travail de thèse apporte un ensemble de données originales sur le dialogue microglie/neurones dans un modèle murin de la maladie de Parkinson / This thesis work is aimed to study microglial reaction and microglia/neuron interactions in a murine model of dopaminergic neurodegeneration induced by the injection of 6‐hydroxydopamine (6‐OHDA). In this model, we first describe the kinetics of microglial activation, neuronal cell loss and behavioral alterations in relation with the dopaminergic defect. In the injured substantia nigra, we observed a progressive loss of TH+ (Tyrosine Hydroxylase ‐positive) dopaminergic neurons and an early but transient microglial activation. The deleterious role of microglial activation is strongly suggested by the observation of a partial neuroprotection against 6‐OHDA‐induced toxicity in genetically DAP12 Knock‐In mice, in which microglial cells are defective in regard to their number and function. In addition, we identified various types of cell‐tocell contacts between neurons and microglia in the injured substantia nigra. Such physical interactions were established between microglia and neuronal cell bodies several days before the peak of neuronal death and in the majority of cases in neurons showing morphological signs of apoptosis. Finally, we also identified a new type of physical interactions consisting in microglial ramifications penetrating the soma of TH+ neurons. These interactions present similarities with the so‐called « tunelling nanotubes » previously described in the literature and represent a particular type of penetrating microglial ramifications the we named "tunelling ramifications.". Interestingly, in the injured substantia nigra, the presence of TH+ vacuoles in the cytoplasm of numerous microglial cells strongly suggests that microglial ramifications support microphagocytosis targeted toward the cytoplasm of dopaminergic neurons. The precise function and molecular mechanisms of such unique interactions need to be further assessed. However, our work provides a set of original data that deepens our knowledge on the dialogue between microglia and neurons in a mouse model of Parkinson's disease

Neurodégénérescence

Inflammation

6‐OHDA

Microglie

Substance Noire

DAP12

Maladie de Parkinson

Neurodegeneration

Inflammation

6‐OHDA

Microglia

Substantia Nigra

DAP12

Parkinson's disease

612.8

Contrôle de l'activation microgliale par les lymphocytes T dans un modèle murin de neurodégénérescence induite par la 6-OHDA / Control of microglial activation by T-cells in a murine model of 6-OHDA-induced dopaminergic neurodegeneration

Uhlrich, Josselin

02 July 2014

Ce travail de thèse décrit et analyse la réaction neuro-inflammatoire accompagnant la mort cellulaire neuronale dans un modèle murin de la maladie de Parkinson. Dans ce modèle, induit par l’injection intrastriatale d'un analogue toxique de la dopamine, la 6-hydroxydopamine (6-OHDA), nous décrivons les caractéristiques et la cinétique de l’activation microgliale, de l'infiltration lymphocytaire T, de la perte de neurones dopaminergiques TH+ (Tyrosine Hydroxylase) et des altérations du comportement moteur. Nos observations sont complétées par une étude neuropathologique de la substance noire chez des patients atteints de maladie de Parkinson. Les résultats montrent que, chez l'homme comme chez la souris, la mort de neurones dopaminergiques induit une infiltration T de faible intensité, limitée à la substance noire et s'accompagnant d'une activation microgliale. Dans un deuxième temps, nous analysons l'impact d'une déficience lymphocytaire T génétiquement déterminée sur les paramètres histologiques et fonctionnels caractérisant le modèle 6-OHDA. Nos résultats montrent que, comparées à des souris contrôles immunocompétentes, les souris immunodéficientes de souche Foxn1 KO, CD3 KO, NOD SCID ou RAG1 KO présentent toutes, à des degrés divers, une susceptibilité significativement accrue aux effets neurotoxiques de la 6-OHDA. L'aggravation observée de la perte neuronale s'accompagne d'une accentuation majeure des troubles du comportement moteur et de l'activation microgliale. Ce travail démontre l'importance de la neuro-inflammation et de l'immunité adaptative dans la physiopathologie du modèle 6-OHDA. Il suggère également que les LyT infiltrant la substance noire des patients atteints de maladie de Parkinson exercent un rôle inhibiteur sur l'activation microgliale et pourraient par ce mécanisme ralentir l'évolution de la perte neuronale dopaminergique. En résumé, ce travail de thèse apporte un ensemble de données originales sur les interactions entre LyT, microglie et neurones dopaminergiques dans le contexte de la maladie de Parkinson et du modèle murin 6-OHDA / This thesis work describes and analyzes the neuroinflammatory reaction that accompanies neuronal cell death in a murine model of Parkinson's disease. In this model, induced by the intrastriatal injection of 6-hydroxydopamine (6-OHDA), a toxic dopamine analog, we report on the main features and kinetics of microglial activation, T-cell infiltration, loss of TH+ (Tyrosine Hydroxylase) dopaminergic neurons and motor behavior alterations. We also assessed the presence of T-cells in the susbstantia nigra of Parkinson's disease patients and found that, as observed in the 6-OHDA murine model, the neuronal cell death of dopaminergic neurons triggers a low-grade T-cell infiltration that accompanies microglial activation. We then studied the impact of genetically-determined T-cell immunodeficiency on histological and functional outcomes in the 6-OHDA model. Our results show that, as compared to immunocompetent control mice, immunodeficient strains consisting in Foxn1 KO, CD3 KO, NOD SCID or RAG KO mice consistently presented, at varied levels, a highest susceptibility to 6-OHDA induced dopaminergic neurodegeneration. The observed accentuation of neuronal cell loss was accompanied by a marked increase of microglial activation and motor behavior alterations. Our work demonstrates the pathophysiological role of neuroinflammation and adaptative immunity in the 6-OHDA model. It also suggests that T-cells infiltrating the substantia nigra of Parkinson's disease patients dampen microglial activation and could, via this inhibitory effect, slow the progression of dopaminergic cell loss. Overall this thesis work provides original data on the interactions between T-cells, microglia and dopaminergic neurons in the context of Parkinson's disease and the murine 6-OHDA model

Neurodégénérescence

Inflammation

6-OHDA

Microglie

Substance Noire

Lymphocytes T

Maladie de Parkinson

Neurodegeneration

Inflammation

6-OHDA

Microglia

Substantia Nigra

T-cells

Parkinson’s disease

612.8

INHIBITION OF TNF-ALPHA DECREASES MICROGLIA ACTIVATION IN RATS NEONATALLY TREATED WITH POLY I:C

Shelton, Heath W., Brown, Russell W.

05 April 2018

Introduction: Current medical treatment for individuals diagnosed with schizophrenia (SCHZ) primarily relies on the inhibition of the dopamine D2 receptor that has been shown to be supersensitive in these patients. Treatment occurs through the use of antipsychotic medication which leads to a number of debilitating dose-dependent side effects, such as weight gain, agranulocytosis, and seizures. Patients diagnosed with SCHZ have also been shown to have increased inflammation in their central nervous system (CNS), particularly within specific brain regions such as the prefrontal cortex and hippocampus. This is in large part due to the interaction between a pro-inflammatory cytokine called tumor necrosis factor-alpha (TNFa) and microglia, which are resident CNS defense cells. TNFa is a cell-signaling protein, regulates a variety of immune cells, and is involved in the acute phase reaction of inflammation. Upon activation by TNFa secretion, microglial cells switch from being anti-inflammatory (M2) to pro-inflammatory (M1), thereby resulting in neuroinflammation as well as synaptic loss and neuronal death. In this project, we hypothesized oral administration through the diet of a novel TNFa modulator (PD2024) developed by P2D Biosciences, Inc. (Cincinnati, OH) would significantly reduce microglia activation in rats neonatally treated with Polyinosinic:polycytidylic acid (poly I:C). Methods and Results: To test our hypothesis, four groups (Neonatal Poly I:C/TNFa, Neonatal Poly I:C/Control, Neonatal Saline/TNFa, and Neonatal Saline/Control) were intraperitoneally injected with either poly I:C or saline during postnatal days (P)5-7. Poly I:C is an immunostimulant that mimics neonatal infection in humans, which also has been found to be a factor for the development of SCHZ later in life. Between days (P)30-(P)60, the Neonatal Poly I:C/TNFa and Neonatal Saline/TNFa groups were orally administered PD2024 through the diet. After (P)60, brain tissue was evaluated by immunohistochemistry (IHC) and confocal microscopy. Immunohistochemistry was used to label microglial cells in the prefrontal cortex and hippocampus with a green fluorescent dye attached to Iba1, a protein that specifically binds to these cells. Upon completion of IHC, tissue was evaluated using a confocal microscope and then analyzed with NIH ImageJ software. Analysis parameters included cell count, sampled cell body fluorescence, and overall image fluorescence. The results obtained showed a significant decrease in microglia activation for the Poly I:C/TNFa group when compared to the Poly I:C/Control group, as well as similarities in activation levels with the Saline/Control group. These results were demonstrated in both sampled cell body fluorescence and overall image fluorescence measurements. Conclusion: This data supports the hypothesis that PD2024 is successful in reducing microglia activation through the modulation of TNFa. Therefore, treatment with a TNFa modulator such as PD2024 alongside of current antipsychotic medication could mediate neuroinflammation and reduce the dose-dependent side effects. This approach could be a promising therapeutic treatment option for those diagnosed with schizophrenia, as well as potentially for other neurocognitive and behavioral disorders.

TNF-ALPHA

MICROGLIA

POLY I:C

CYTOKINE

TNF-ALPHA INHIBITOR

Behavioral Neurobiology

Immune System Diseases

Medical Immunology

Mental Disorders

Molecular and Cellular Neuroscience

Ionenkanäle in deaktivierter Mikroglia

Eder, Claudia

10 April 2001

In der vorliegenden Habilitationsarbeit wurden die Ionenkanäle von Mikrogliazellen mit Hilfe der Patch-clamp-Technik untersucht, nachdem die Mikrogliazellen in den deaktivierten Zustand überführt worden waren. Die Deaktivierung der Mikroglia erfolgte durch die Zugabe des astrozytenkonditionierten Mediums. Nach der Deaktivierung exprimierten die Mikrogliazellen einwärts- und auswärtsgleichrichtende sowie Ca2+-aktivierte Kaliumkanäle. Der auswärtsgleichrichtende Kaliumkanal wurde erst nach Zugabe des astrozytenkonditionierten Mediums exprimiert, wobei das durch die Astrozyten freigesetzte Zytokin transformierender Wachstumsfaktor für diesen Prozeß verantwortlich gemacht werden konnte. Zusätzlich wurden Chloridkanäle an deaktivierten Mikrogliazellen nachgewiesen, die an den Ramifizierungsprozessen der Zellen, d.h. dem Übergang von der amöboiden in die ramifizierte Zellmorphologie, beteiligt waren. Die an Mikrogliazellen exprimierten Protonenkanäle spielen offensichtlich eine wichtige Rolle bei der Generierung von reaktiven Sauerstoffradikalen und wurden im Prozeß der Deaktivierung der Mikrogliazellen herunterreguliert. / The current work describes patch clamp recordings in cultured murine microglial cells, which had been deactivated following exposure to astrocyte-conditioned medium. Deactivated microglial cells expressed inwardly rectifying, outwardly rectifying and calcium-activated potassium channels. The outwardly rectifying potassium channels were upregulated following treatment of microglial cells with the astrocyte-conditioned medium. The anti-inflammatory cytokine transforming growth factor was released by astrocytes and appeared to be responsible for the observed upregulation of outwardly rectifying potassium channels in deactivated microglia. In addition, deactivated microglial cells expressed chloride channels, which were found to be involved in microglial ramification, i.e., in the transformation of microglial cells from ameboid into ramified morphology. Voltage-gated proton channels, which are involved in processes of oxygen radical generation, were downregulated in deactivated microglial cells.

Mikroglia

Ionenkanäle

Patch-clamp-Technik

Deaktivierung

Microglia

ion channels

patch clamp technique

deactivation

610 Medizin

33 Medizin

WW 1620

ddc:610