Global ETD Search

61	Neurodegeneration induced by ß-synuclein in the context of the neurotransmitter dopamine Raina, Anupam 08 April 2019 (has links) No description available. 570 α-synuclein ß-synuclein γ-synuclein transdifferentiation Ascl1 Nurr1 Lmx1a dopamine neurodegeneration tyrosine hydroxylase AADC VMAT2 DAT network electrical activity NMR dissociation constant (Kd) Biologie (PPN619462639)
62	Conexões e caracterização neuroquímica de vias neurais envolvidas com o controle dos movimentos mandibulares / Connections and neurochemical characterization of neural pathways involved in the control of jaw movements Mascaro, Marcelo Betti 13 August 2007 (has links) O núcleo motor do trigêmeo (Mo5) está cercado por um anel de neurônios pré-motores localizados na região h. Estudos demonstram que neurônios que inervam o Mo5 estão distribuídos no tronco encefálico e no prosencéfalo. Após implante de traçador retrógrado no Mo5, verificamos células retrogradamente marcadas no núcleo mesencefálico do trigêmeo (Me5), na região h e em núcleos prosencefálicos como o central da amígdala (CeA), a área hipotalâmica lateral (LH) e o parasubtalâmico (PSTh). Para confirmação, realizamos injeção de traçador anterógrado e investigamos, também, a neuroquímica das projeções. Neurônios do CeA que se projetam para o Mo5 recebem inervação de fibras imunorreativas ao fator liberador de corticotrofina (CFR-ir) e/ou à tirosina hidroxilase (TH-ir); alguns neurônios da LH que se projetam para o Mo5 são imunorreativos à orexina (ORX) e alguns neurônios do PSTh que se projetam para o Mo5 são innervados por fibras TH-ir. O Me5 recebe grande inervação do CeA e moderada da LH e do PSTh, possuindo grande aferência de fibras imunorreativas ao CRF, ORX e TH / The trigeminal motor nucleus (Mo5) is surrounded by a ring of premotor neurons defined as the h region. Studies have shown that neurons innervating the Mo5 are located in brainstem and in forebrain nuclei. Through the injection of the retrograde tracer cholera toxin b subunit/CTb in the Mo5, we found retrograde labeled neurons in the brainstem including the h region and the mesencephalic trigeminal nucleus (Me5), and in forebrain nuclei such as the central nucleus of amygdala (CeA), the lateral hypothalamic area (LH) and the parasubthalamic nucleus (PSTh). As control, we injected the anterograde tracer biotin dextran amine and found that these areas project direct or indirectly via the h region or the Me5 to the Mo5. Some CeA neurons that project to the Mo5 receive corticotrophin releasing factor (CRF) and tyrosine hydroxylase (TH) innervation, some LH neurons that project to Mo5 express orexin, and PSTh neurons that project to the Mo5 receive TH innervation. The Me5 is also innervated by CeA, LH and PSTh neurons and by CRF, orexin and TH immunoreactive fibers Bruxism Bruxismo CRF Fator liberador de corticotrofina Mesencephalic trigeminal nucleus Motor trigeminal nucleus Núcleo mesencefálico do trigêmeo Núcleo motor do trigêmeo Orexin Orexina Tirosina hidroxilase Tyrosine hydroxylase
63	Neurodegeneration induced by ß-synuclein in the context of the neurotransmitter dopamine Raina, Anupam 08 April 2019 (has links) No description available. 570 α-synuclein ß-synuclein γ-synuclein transdifferentiation Ascl1 Nurr1 Lmx1a dopamine neurodegeneration tyrosine hydroxylase AADC VMAT2 DAT network electrical activity NMR dissociation constant (Kd) Biologie (PPN619462639)
64	Einfluss von Stickstoffmonoxid auf die sympathisch-vermittelte Stressreaktion Neumann, Ulrike 17 February 2003 (has links) Stickstoffmonoxid (NO) spielt eine bedeutende Rolle in der Regulation des Blutdruckes, es ist ein starker Vasodilatator. Mäuse mit genetisch inaktivierter endothelialer Stickstoffmonoxidsynthase (eNOS-/-) haben einen Bluthochdruck. Mäuse mit fehlender neuronaler NO-Produktion (nNOS-/-) zeigen einen erniedrigten Blutdruck in Narkose. Im Gegensatz dazu konnte in der Literatur eine Hemmung der Katecholaminfreisetzung durch neuronal gebildetes NO gezeigt werden. Es war deshalb das Ziel dieser Studie, die Kreislaufparameter von eNOS-/- und nNOS-/- Mäusen im wachen Zustand in Ruhe und unter Stress zu untersuchen. Außerdem wurde untersucht, ob nNOS die Expression des Schlüsselenzyms der Katecholaminsynthese, Tyrosinhydroxylase (TH), hemmt und die hämodynamische Antwort auf Stress abschwächt. Acht nNOS-/-, neun eNOS-/- und neun Wildtypkontrollmäuse (WT) erhielten einen Femoralarterienkatheter. Blutdruck und Herzfrequenz sowie die Körperkerntemperatur wurden 24h nach der Operation unter wachen Bedingungen in Ruhe und bei Erhöhung der Umgebungstemperatur aufgezeichnet. Die Tyrosinhydroxylase-mRNA-Expression und -Proteingehalt der Nebennieren wurden mittles RT-PCR und Western Blot bestimmt. In Ruhe zeigten eNOS-/- und nNOS-/- Mäuse einen signifikant erhöhten mittleren und diastolischen Blutdruck im Vergleich zu Wildtypkontrollen. Während des Hitzestresses war der initiale Blutdruckabfall bei den eNOS-/- Mäusen signifikant vermindert. Der stressinduzierte Anstieg von Blutdruck und Herzfrequenz war deutlich verstärkt bei nNOS-/- Mäusen im Vergleich zu WT und eNOS-/- Mäusen. Die TH-mRNA-Expression war zehnfach erhöht bei nNOS-/- Mäusen im Vergleich zu WT. Auch der Proteingehalt der Nebennieren war dreifach erhöht in nNOS-/- im Vergleich zu WT. Diese Ergebnisse zeigen, dass endothelial gebildetes NO hauptsächlich an der thermoregulatorischen Vasodilatation der Hautgefäße beteiligt ist. Weiterhin konnte gezeigt werden, dass neuronal gebildetes NO die TH-Expression hemmt und die sympathisch vermittelte Stressantwort vermindert. / Nitric oxide (NO) plays an important role in the circulatory regulation, it is a very potent vasodilator. Mice deficient of a functional endothelial NO synthase (eNOS-/-) exhibit hypertension. Mice lacking a functional neuronal NO production (nNOS-/-) were observed to be hypotensive under anaesthesia. In contrast, evidence from the literature suggests an inhibition of catecholamine release by NO derived from nNOS. Therefore it was the aim of this thesis to evaluate the circulatory parameters in eNOS-/- and nNOS-/- under conscious conditions at rest and in reponse to stress. Additionally, it was tested if nNOS inhibits the expression of the key enzyme of the catecholamine synthesis, tyrosine hydroxylase, and thereby reduces the hemodynamic responses to stressful stimuli. Eight nNOS-/-, nine eNOS-/-, and nine wild type controls (WT) were chronically instrumented with femoral artery catheters. 24h after surgery,resting blood pressure and heart rate were measured and then mice were exposed to an elevated ambient temperature. Arterial blood pressure together with heart rate and core temperature were recorded in conscious animals. Tyrosine hydroxylase mRNA expression and protein content in the adrenal gland were measured by RT-PCR and western blotting, respectively. At rest, eNOS-/- and nNOS-/- exhibited a significantly elevated mean and diastolic blood pressure compared to WT. During heat stress, the initial decrease in blood pressure seen in WT and nNOS-/- was significantly blunted in eNOS-/-. The stress-induced acceleration of heart rate and increase in blood pressure were much stronger in nNOS-/- compared to WT and eNOS-/- . TH mRNA expression was ten times larger in nNOS-/- than in WT. Correspondingly, protein content in the adrenal gland was increased threefold in nNOS-/- compared to WT. The results of this thesis indicate that endothelial derived NO predominantly mediates the thermoregulatory vasodilatation. Furthermore, it shows that neuronally derived NO inhibits TH expression and, therefore, limits the sympathetically-mediated responses to stressful stimuli, such as heat stress. Stickstoffmonoxid Sympathisches Nervensystem Tyrosinhydroxylase Hämodynamik nitric oxide sympathetic nervous system tyrosine hydroxylase hemodynamics 610 Medizin 33 Medizin WD 4750 ddc:610
65	Neurodegeneration induced by ß-synuclein in the context of the neurotransmitter dopamine Raina, Anupam 08 April 2019 (has links) No description available. 570 α-synuclein ß-synuclein γ-synuclein transdifferentiation Ascl1 Nurr1 Lmx1a dopamine neurodegeneration tyrosine hydroxylase AADC VMAT2 DAT network electrical activity NMR dissociation constant (Kd) Biologie (PPN619462639)
66	Efeitos da hipóxia-isquemia perinatal sobre o comportamento motor, distribuição da Tirosina Hidroxilase na substância negra e da NADPH diaforase no hipocampo durante o desenvolvimento em ratos / Effects of hypoxia-ischemia under motor behavior, tyrosine hydroxylase distribution in the nigra substantia and the diaphorase NADPH in hippocampus in rats Marcia Martins Dias Ferraz 05 March 2010 (has links) Conselho Nacional de Desenvolvimento Científico e Tecnológico / A hipóxia isquemia (HI) pré-natal é uma das principais causas de mortalidade e doenças neurológicas crônicas em neonatos, que podem apresentar déficits remanentes como: retardamento, paralisia cerebral, dificuldade de aprendizado ou epilepsia. Estes prejuízos, provavelmente, estão relacionados com o atraso no desenvolvimento neural, astrogliose e com a perda de neurônios e oligodendrócitos. Déficits funcionais e cognitivos estão associados à degeneração de vias dopaminérgicas e de estruturas hipocampais. A enzima tirosina hidroxilase (TH) é a enzima limitante na síntese de dopamina e seus níveis são alterados em eventos de HI. O óxido nítrico (NO) é um gás difusível que atua modulando diferentes sistemas, participando de eventos como plasticidade sináptica e neuromodulação no sistema nervoso central e é produzido em grandes quantidades em eventos de injúria e inflamação, como é o caso da HI. O presente estudo teve por objetivos avaliar, utilizando o modelo criado por Robinson e colaboradores em 2005, os efeitos da HI sobre o comportamento motor e avaliar o desenvolvimento de estruturas encefálicas relacionadas a este comportamento como a substância negra (SN) e o complexo hipocampal. A HI foi induzida a partir do clampeamento das artérias uterinas da rata grávida, por 45 minutos no décimo oitavo dia de gestação (grupo HI). Em um grupo de fêmeas a cirurgia foi realizada, mas não houve clampeamento das artérias (grupo SHAM). A avaliação do comportamento motor foi realizada com os testes ROTAROD e de campo aberto em animais de 45 dias. Os encéfalos foram processados histologicamente nas idades de P9, P16, P23 e P90, sendo então realizada imunohistoquímica para TH e histoquímica para NADPH diaforase (NADPH-d), para avaliação do NO. Nossos resultados demonstraram redução da imunorreatividade para a TH em corpos celulares na SN aos 16 dias no grupo HI e aumento na imunorreatividade das fibras na parte reticulada aos 23 dias, com a presença de corpos celulares imunorreativos nesta região no grupo HI. Demonstramos também aumento do número de células marcadas para NADPH-d no giro dentado nos animais HI, nas idades analisadas, assim como aumento na intensidade de reação no corno de Ammon (CA1 e CA3) aos 9 dias no grupo HI, e posterior redução nesta marcação aos 23 e 90dias neste mesmo grupo. Nos testes comportamentais, observamos diminuição da atividade motora no grupo HI com uma melhora do desempenho ao longo dos testes no ROTAROD, sem entretanto atingir o mesmo nível do grupo SHAM. Os animais HI não apresentaram maior nível de ansiedade em relação ao grupo SHAM, descartando a hipótese das alterações observadas nos testes de motricidade estarem relacionadas a fatores ansiogênicos. O modelo de clampeamento das artérias uterinas da fêmea se mostrou uma ferramenta importante no estudo das alterações decorrentes do evento de HI pré-natal, por produzir diversos resultados que são similares aos ocorridos em neonatos que passam por este evento. / Perinatal hypoxia-ischemia (HI) is one of the major causes of mortality and chronic neurological diseases in newborns that can show permanent effects such as mental retardation, cerebral palsy, learning difficulty and epilepsy. It is probable that these impairs may be related to a delay in the neural development, astrogliosis and to the death of neurons and oligodendrocytes. Cognitive and functional deficits are related to degeneration of dopaminergic pathways and hippocampus. The enzyme tyrosine hydroxylase (TH) is a limiting step in the dopamine synthesis and its levels are impaired in HI insults. Nitric oxide (NO) is a diffusible gas that acts by modulating different systems and participates in several phenomena such as synaptic plasticity and neuromodulation in the central nervous system and is produced in higher levels in events of injury and inflamation as in the case of HI. This study aimed to evaluate the effects of HI on the motor behavior and to evaluate the development of brain structures related to this behavior as the substantia nigra (SN) and the hippocampal complex, using the model developed by Robinson and colleagues in 2005. HI was induced by clamping the uterine arteries of pregnant rats, for 45 minutes, on the eighteenth day of gestation (group HI). In a group of females, the surgery was performed, but no clamping of the arteries (group SHAM) was made. Assessment of motor behavior was performed with the ROTAROD test and open field test in animals of 45 days (P45) of age. The brains were processed histologically at ages P9, P16, P23 and P90, and then submitted to immunohistochemistry for TH and NADPH diaphorase (NADPH-d) histochemistry for evaluation of NOS. Our results demonstrated an apparent decrease in TH immunoreactivity in cell bodies in the SN at P16 in the HI group and an increase in immunoreactivity of the fibers in the SN pars reticulata at P23 with the presence of TH immunoreactive cell bodies at this same region in the HI group. We also showed an increase in the number of NADPH-d stained cells in the dentate gyrus in the HI group, at all ages, as also an increase in the intensity of staining in the Ammons horn (CA1 and CA3) at P9 in the HI group and, after that, a decrease in this staining at P23 and P90 in this same group. In the behavioral tests we observed a decrease in the motor activity in the HI group with a partial recovery all over the several sessions in the ROTAROD test, however this group did not reach the same performance as the SHAM group. HI animals did not show a higher level of anxiety when compared to SHAM animals, ruling out the hypothesis that anxiogenic factors may be impairing the results in the motor behavior tests. Our results showed that the model of uterine arteries clamping could be an important tool in the study of the effects of perinatal HI, by producing several consequences that are very similar to the effects observed in newborn children who suffered an HI event. Tirosina 3-Monooxigenase NADPH desidrogenase Hipocampo (Cérebro) Óxido nítrico Substância negra Teste de desempenho do Rota-Rod Tyrosine hydroxylase NADPH diaphorase Hippocampus Nitric oxide Substantia nigra ROTAROD FISIOLOGIA
67	Implication des angiotensines cérébrales dans la maturation postnatale du phénotype tyrosine hydroxylase dans les neurones noradrénergiques bulbo-pontiques chez le rat Ogier, Michaël 15 September 2004 (has links) (PDF) La régulation de l'adressage dendritique de la tyrosine hydroxylase (TH), l'enzyme limitante de la biosynthèse des catécholamines, permettrait de moduler avec précision l'étendue du territoire cérébral soumis à l'influence catécholaminergique et ainsi de moduler de nombreuses fonctions neurovégétatives et centrales. Ce type de régulation a notamment été observé au niveau des neurones catécholaminergiques du noyau du faisceau solitaire (NTS) et du locus coeruleus (LC), sans pour autant que les acteurs moléculaires et cellulaires impliqués n'aient été élucidés in vivo. Nous avons recherché si les angiotensines cérébrales pouvaient être potentiellement impliquées dans cette régulation, en utilisant le modèle du rat TGR(ASrAOGEN)680 (TGR), caractérisé par une inhibition de la synthèse du seul précurseur connu des angiotensines cérébrales, l'angiotensinogène astrocytaire. Nous avons mis en évidence une très forte diminution de la quantité de protéine TH dans le NTS et le LC chez ces rats, spécifiquement au cours de la 4ème semaine postnatale. Ce phénomène est notamment caractérisé par une accumulation de la protéine TH dans le corps cellulaire des neurones de ces deux structures et un blocage de son adressage dendritique, alors que le transport vers les aires de terminaisons est maintenu. Le blocage de l'adressage dendritique est associé à l'invalidation du processus de phosphorylation de la protéine MARCKS, voie de signalisation notamment induite par la stimulation du récepteur AT1 aux angiotensines qui avait été clairement impliquée in vitro dans le transport neuritique de la TH. L'étude de la répartition de la TH dans les aires de terminaison du LC à l'âge adulte a permis de montrer l'existence d'une hyper-innervation catécholaminergique du gyrus dentelé et des cortex frontal et cingulaire chez les rats TGR, vraisemblablement impliquée dans les altérations que nous avons observées de l'alternance des cycles d'éveil et de sommeil et de la réactivité à un stress de nouveauté. Ainsi, nos travaux révèlent que les angiotensines cérébrales sont impliquées à 4 semaines dans l'initiation de l'adressage dendritique de la protéine TH dans les neurones noradrénergiques, et de ce fait, dans la mise en place fonctionnelle du rétrocontrôle inhibiteur exercé par la noradrénaline libérée localement par les dendrites de ces neurones neurones catécholaminergiques tyrosine hydroxylase transport dendritique expression génique angiotensines cérébrales rats transgéniques développement postnatal
68	Role of Bone Morphogenetic Proteins for Catecholaminergic Neurons <i>in Vivo</i> : Use of the Tyrosine Hydroxylase Locus for Cell-Specific inactivation of Signal Transduction Usoskin, Dmitry January 2004 (has links) <p>Members of the Transforming Growth factor-β (TGF-β) superfamily and its subclass Bone Morphogenetic Proteins (BMP) play important roles for nervous system development. </p><p>In order to study the BMP role for catecholaminergic neurons <i>in vivo</i>, we generated three knock-in mice, expressing the transgenes specifically in the targeting cells. </p><p>Two genetic modifications result in expression of dominant negative (dn) BMP receptors (BMPRII and ALK2). The tissue-specific expression was achieved by the transgene insertion into 3’- untranslated region of the endogenous gene for tyrosine hydroxylase (TH), the first enzyme in catecholamine biosynthesis. An Internal Ribosome Entry site (IRES) preceded inserted cDNAs, allowing for functional bicistronic mRNA production. While almost no defects in Th-IRES-dnALK2, the Th-IRES-dnBMPRII mouse demonstrated declined levels of catecholamines, including dopamine in the striatum. Losses of midbrain dopaminergic neurons (MDN) might cause the effect. Additionally, intermediate lines of these mice, preserving a neo-cassette, oriented opposite to the locus transcription, demonstrate dramatic decrease of catecholamine level, hence, represent models for rare catecholamine-deficiency diseases, including L-DOPA-responsive dystonia.</p><p>The third mouse, expressing in the same way Cre-recombinase (Th-IRES-Cre), represents a tool for catecholaminergic cell-limited deletion of any gene, which has to be flanked by loxP sites. Besides TH-positive areas, unexpected sites of Cre-recombination were identified, indicating regions of transient TH expression. Surprising recombination in oocytes opens a possibility to use our mouse as a general Cre-deletor.</p><p>Using TH-IRES-Cre mouse we generated tissue-specific knockout mice for two BMP signal transducers: Smad1 and Smad4 (also crucial for TGF-β). While no phenotype in Smad1 knockout, TH-IRES-Cre/Smad4 mouse revealed several defects including decreased level of striatal dopamine. </p><p>These results demonstrate a positive role of BMPs for MDN fate<i> in vivo</i>. Generated mice represent a tool-box for comprehensive study of the BMP function in catecholaminergic neurons. This study is of potential interest for understanding some aspects of Parkinson’s disease.</p> Neurosciences Tyrosine Hydroxylase Bone Morphogenetic Proteins (BMP) Transforming Growth Factor-β (TGF-β) tissue-specific knockout Parkinson's disease Neurovetenskap Neurology Neurologi
69	Role of Bone Morphogenetic Proteins for Catecholaminergic Neurons in Vivo : Use of the Tyrosine Hydroxylase Locus for Cell-Specific inactivation of Signal Transduction Usoskin, Dmitry January 2004 (has links) Members of the Transforming Growth factor-β (TGF-β) superfamily and its subclass Bone Morphogenetic Proteins (BMP) play important roles for nervous system development. In order to study the BMP role for catecholaminergic neurons in vivo, we generated three knock-in mice, expressing the transgenes specifically in the targeting cells. Two genetic modifications result in expression of dominant negative (dn) BMP receptors (BMPRII and ALK2). The tissue-specific expression was achieved by the transgene insertion into 3’- untranslated region of the endogenous gene for tyrosine hydroxylase (TH), the first enzyme in catecholamine biosynthesis. An Internal Ribosome Entry site (IRES) preceded inserted cDNAs, allowing for functional bicistronic mRNA production. While almost no defects in Th-IRES-dnALK2, the Th-IRES-dnBMPRII mouse demonstrated declined levels of catecholamines, including dopamine in the striatum. Losses of midbrain dopaminergic neurons (MDN) might cause the effect. Additionally, intermediate lines of these mice, preserving a neo-cassette, oriented opposite to the locus transcription, demonstrate dramatic decrease of catecholamine level, hence, represent models for rare catecholamine-deficiency diseases, including L-DOPA-responsive dystonia. The third mouse, expressing in the same way Cre-recombinase (Th-IRES-Cre), represents a tool for catecholaminergic cell-limited deletion of any gene, which has to be flanked by loxP sites. Besides TH-positive areas, unexpected sites of Cre-recombination were identified, indicating regions of transient TH expression. Surprising recombination in oocytes opens a possibility to use our mouse as a general Cre-deletor. Using TH-IRES-Cre mouse we generated tissue-specific knockout mice for two BMP signal transducers: Smad1 and Smad4 (also crucial for TGF-β). While no phenotype in Smad1 knockout, TH-IRES-Cre/Smad4 mouse revealed several defects including decreased level of striatal dopamine. These results demonstrate a positive role of BMPs for MDN fate in vivo. Generated mice represent a tool-box for comprehensive study of the BMP function in catecholaminergic neurons. This study is of potential interest for understanding some aspects of Parkinson’s disease. Neurosciences Tyrosine Hydroxylase Bone Morphogenetic Proteins (BMP) Transforming Growth Factor-β (TGF-β) tissue-specific knockout Parkinson's disease Neurovetenskap Neurology Neurologi
70	Os n?cleos dopamin?rgicos do mesenc?falo do moc? (kerodon rupestris): caracteriza??o citoarquitet?nica e por imunoistoqu?mica para tirosina-hidroxilase Cavalcanti, Jos? Rodolfo Lopes de Paiva 27 October 2011 (has links) Made available in DSpace on 2014-12-17T15:37:06Z (GMT). No. of bitstreams: 1 JoseRLPC_DISSERT.pdf: 5508734 bytes, checksum: 81d9b9240f44158090493b3b76b26129 (MD5) Previous issue date: 2011-10-27 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior / The 3-hydroxytyramine/dopamine (DA) is a monoamine of catecholamineric group and consists in the progenitor substantia of synthesis of noradrenaline and adrenaline, having the enzyme tyrosine hydroxylase as a regulator of this process. Nuclei of midbrain expressing DA are the retrorubral field (RRF, A8 group), the substantia nigra pars compacta (SNc, A9 group) and the ventral tegmental area (VTA, A10 group). These nuclei are involved in three complex circuitry called mesostriatal, mesocortical and mesolimbic, which are related directly with various behavioral manifestations such as motor control, reward signaling in behavioural learning, motivation and pathological manifestations of Parkinson s disease and schizophrenia. The aim of this study was describe the morphology of midbrain dopaminergic neurons (A8, A9 and A10) of the rock cavy (Kerodon rupestris), a rodent belonging to the family Caviidae typical of the Brazilian Northeast, which is being adopted as a model for neuroanatomical studies in laboratory of neuroanatomy of the Federal University of Rio Grande do Norte. Coronal sections of brains of the rock cavies were submitted to staining by Nissl s method and immunohistochemistry against tyrosine hydroxylase. The nuclear organization of the midbrain dopaminergic nuclei of the rock cavy is very similar to that found in other animals of the order Rodentia, except by the presence of the tail of substantia nigra, which was found only in the studied species. We concluded that the midbrain dopaminergic nuclei are phylogenetically stable among species, but we think to be it necessary to expand the studies about the particularity found the rock cavy, investigating its occurrence in other species of rodents or investigating its functional relevance / A 3-hidroxitiramina/dopamina (DA) ? uma monoamina do grupo das catecolaminas e consiste na subst?ncia precursora da s?ntese de noradrenalina e adrenalina, tendo a enzima tirosinahidroxilase (TH) como reguladora deste processo. Os n?cleos do mesenc?falo que expressam DA s?o a zona retrorubral (RRF, grupo A8), a subst?ncia negra pars compacta (SNc, grupo A9) e a ?rea tegmental ventral (VTA, grupo A10). Tais n?cleos est?o envolvidos em tr?s complexas circuitarias, chamadas mesostriatal, mesol?mbica e mesocortical, as quais est?o relacionadas diretamente com diversas manifesta??es comportamentais como controle da motricidade, sinaliza??o de recompensa na aprendizagem comportamental, motiva??o e nas manifesta??es patol?gicas da Doen?a de Parkinson e esquizofrenia. O objetivo deste estudo foi descrever a morfologia dos n?cleos dopamin?rgicos do mesenc?falo (A8, A9 e A10) do moc? (Kerodon rupestris), um roedor pertencente ? fam?lia Caviidae t?pico da regi?o Nordeste do Brasil, que est? sendo adotado como modelo para estudos neuroanat?micos no Laborat?rio de Neuroanatomia da Universidade Federal do Rio Grande do Norte. Sec??es coronais do enc?falo do moc? foram submetidas ? colora??o pelo m?todo de Nissl e imunoistoqu?mica contra tirosina-hidroxilase. A organiza??o nuclear do sistema dopamin?rgico do mesenc?falo do moc? ? muito semelhante ao que foi encontrado em outros animais da ordem Rodentia, exceto na presen?a da cauda da subst?ncia negra, que foi encontrada apenas na esp?cie em quest?o. Conclu?mos que os n?cleos dopamin?rgicos do mesenc?falo s?o filogeneticamente est?veis entre as esp?cies, por?m percebemos a necessidade de se ampliar os estudos acerca da particularidade encontrada no moc?, seja investigando a sua ocorr?ncia em outras esp?cies de roedores, seja investigando a sua relev?ncia funcional Mesenc?falo Dopamina Tirosina-hidroxilase N?cleos dopamin?rgicos do mesenc?falo Moc? Roedores Midbrain Dopamine Tyrosine hydroxylase Midbrain dopaminergic Nuclei Rock cavy Rodents

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