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Modulation of the Progenitor Cell and Homeostatic Capacities of Müller Glia Cells in Retina : Focus on α2-Adrenergic and Endothelin Receptor Signaling SystemsHarun-Or-Rashid, Mohammad January 2016 (has links)
Müller cells are major glial cells in the retina and have a broad range of functions that are vital for the retinal neurons. During retinal injury gliotic response either leads to Müller cell dedifferentiation and formation of a retinal progenitor or to maintenance of mature Müller cell functions. The overall aim of this thesis was to investigate the intra- and extracellular signaling of Müller cells, to understand how Müller cells communicate during an injury and how their properties can be regulated after injury. Focus has been on the α2-adrenergic receptor (α2-ADR) and endothelin receptor (EDNR)-induced modulation of Müller cell-properties after injury. The results show that α2-ADR stimulation by brimonidine (BMD) triggers Src-kinase mediated ligand-dependent and ligand-independent transactivation of epidermal growth factor receptor (EGFR) in both chicken and human Müller cells. The effects of this transactivation in injured retina attenuate injury-induced activation and dedifferentiation of Müller cells by attenuating injury-induced ERK signaling. The attenuation was concomitant with a synergistic up-regulation of negative ERK- and RTK-feedback regulators during injury. The data suggest that adrenergic stress-signals modulate glial responses during retinal injury and that α2-ADR pharmacology can be used to modulate glial injury-response. We studied the effects of this attenuation of Müller cell dedifferentiation on injured retina from the perspective of neuroprotection. We analyzed retinal ganglion cell (RGC) survival after α2-ADR stimulation of excitotoxically injured chicken retina and our results show that α2-ADR stimulation protects RGCs against the excitotoxic injury. We propose that α2-ADR-induced protection of RGCs in injured retina is due to enhancing the attenuation of the glial injury response and to sustaining mature glial functions. Moreover, we studied endothelin-induced intracellular signaling in Müller cells and our results show that stimulation of EDNRB transactivates EGFR in Müller cells in a similar way as seen after α2-ADR stimulation. These results outline a mechanism of how injury-induced endothelins may modulate the gliotic responses of Müller cells. The results obtained in this thesis are pivotal and provide new insights into glial functions, thereby uncovering possibilities to target Müller cells by designing neuroprotective treatments of retinal degenerative diseases or acute retinal injury.
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[pt] EFEITOS OPOSTOS DA IOIMBINA NO CONDICIONAMENTO DE MEDO AO CONTEXTO EM RATOS CARIOCAS DE ALTO E BAIXO CONGELAMENTO / [en] OPPOSITE EFFECTS OF YOHIMBINE ON CONTEXT FEAR CONDITIONING OF CARIOCAS HIGH- AND LOW CONDITIONED RATSVICTOR CONCEICAO ROMANO 18 June 2021 (has links)
[pt] A noradrenalina desempenha um papel central em diversos transtornos relacionados ao medo, como o transtorno de ansiedade generalizada (TAG). Estudos farmacológicos em humanos e animais mostraram que os comportamentos relacionados ao medo podem ser regulados pela aplicação sistêmica de drogas noradrenérgicas. No entanto, as diferenças individuais na ansiedade-traço são frequentemente negligenciadas ao estudar os efeitos não apenas de drogas noradrenérgicas, mas de outros compostos. No presente estudo, examinamos os efeitos da ioimbina, um antagonista do receptor alfa2-adrenérgico, em duas linhagens de ratos criados para respostas de alto e baixo congelamento à pistas contextuais previamente associadas a choques nos pés (ratos Carioca de Alto e Baixo Congelamento - CAC e CBC, respectivamente). Descobrimos que a administração sistêmica de ioimbina no segundo dia de condicionamento do medo contextual (sessão de teste) diminuiu significativamente as respostas de congelamento de fêmeas CAC, mas não de machos. No entanto, o tratamento com ioimbina induziu um aumento significativo no comportamento de congelamento de ratos CBC machos e fêmeas. Resultados semelhantes foram observados quando os grupos foram novamente expostos à mesma câmara de condicionamento 6 dias depois. Nossos resultados indicam que, embora a ioimbina leve a efeitos ansiolíticos em ratos CAC, ela tem um efeito ansiogênico nos ratos CBC. Entretanto, esse efeito foi mais evidente nas fêmeas do que nos machos. Nossas descobertas apontam para o papel da noradrenalina na regulação e mediação das respostas de medo em diferentes traços de ansiedade. Além disso, nossos resultados também ressaltam a relevância do uso de ambos os sexos em estudos comportamentais e farmacológicos usando modelos animais de transtornos de ansiedade. / [en] Norepinephrine plays a central role in several fear-related disorders, such as generalized anxiety disorder (GAD). Pharmacological studies in humans and animals have shown that fear-related behaviors can be regulated by the systemic application of noradrenergic drugs. However, individual differences in trait anxiety are often overlooked when studying the effects of not only noradrenergic drugs, but other compounds. In the present study we examined the effects of yohimbine, an alpha2-adrenergic receptor antagonist, in two lines of rats bred for high and low freezing responses to contextual cues previously associated with footshocks (Carioca high- and low-conditioned freezing rats - CHF and CLF, respectively). We found that systemic administration of yohimbine on the second day of contextual fear conditioning (test session) significantly decreased the freezing responses of CHF females, but not CHF males. Yet, yohimbine treatment induced a significant increase in freezing behavior of both male and female CLF rats. Similar results were observed when groups were re-exposed to the same conditioning chamber 6 days later. Our findings indicate that while yohimbine leads to anxiolytic effects on CHF rats, it has an anxiogenic effect on CLF ones. However, such effect was more evident in females than in males. Our findings point to the role of norepinephrine in regulating and mediating fear responses in different anxiety traits. Furthermore, our findings also underscore the relevance of using both sexes in behavioral and pharmacological studies using animal models of anxiety disorders.
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