Doctoral Thesis
DOI
https://doi.org/10.11606/T.42.2013.tde-18062014-141212
Document
Author
Full name
Vera Paschon
Institute/School/College
Knowledge Area
Date of Defense
Published
São Paulo, 2013
Supervisor
Committee
Kihara, Alexandre Hiroaki (President)
Carrettiero, Daniel Carneiro
Echeverry, Marcela Bermudez
Houzel, Jean Christophe
Torrão, Andréa da Silva
Carrettiero, Daniel Carneiro
Echeverry, Marcela Bermudez
Houzel, Jean Christophe
Torrão, Andréa da Silva
Title in Portuguese
Bloqueio do acoplamento celular após trauma mecânico na retina altera a distribuição de células em apoptose.
Keywords in Portuguese
Apoptose
Conexina
Degeneração neural
Degeneração retiniana
Retina
Conexina
Degeneração neural
Degeneração retiniana
Retina
Abstract in Portuguese
A neuroproteção é um dos tópicos mais relevantes aplicados à neurociência. As junções comunicantes (JC), formadas pelas conexinas (Cx) estão envolvidas na neurodegeneração após lesão. Estudos com animais KO apresentam resultados contraditórios sobre papel das JCs. O objetivo deste trabalho foi analisar o papel das Cxs a partir do trauma mecânico na retina, modelo que permite a visualização do foco, penumbra, e áreas adjacentes à lesão. Observamos regulação distinta das Cx36 e Cx43 durante a neurodegeneração. A Cx36 não se alterou e a Cx43 apresentou desorganização e aumento da imunorreatividade após 7 dias, concomitantemente com GFAP. Células amácrinas apoptóticas encontram-se acopladas a células vizinhas por Cx36. O papel funcional das JCs foi avaliado, utilizando bloqueadores, para verificar a viabilidade/morte de células. Carbenoxolone (CBX), reduziu o espalhamento da apoptose, após 4h, enquanto a quinina, teve o mesmo efeito após 1h. A distribuição de núcleos apoptóticos confirmou que a utilização de bloqueadores de JCs reduz a propagação da apoptose. A quinina, mas não o CBX, diminuiu a expressão de caspases iniciais e efetoras. O controle da permeabilidade de canais de JCs pode participar de estratégias de neuroproteção.
Title in English
Blockade of cell coupling after mechanical trauma in the retina alters scattering of apoptosis.
Keywords in English
Apoptosis
Connexin
Neural degeneration
Retina
Retinal degeneration
Connexin
Neural degeneration
Retina
Retinal degeneration
Abstract in English
The neuroprotection stands out as one of the most pursued hot topics in applied neurosciences. The gap junctions (GJ), formed by connexin (Cx) are involved in neurodegeneration injury. Studies using KO animal models endowed apparently contradictory results in relation to the role of coupling in neuroprotection. The aim of this study was to analyze the role of Cx-mediated communication in focal lesion induced by mechanical trauma in the retina, a model that alow the visualization of the focus, penumbra and adjacent areas. We observed distinct regulation of Cx36 and Cx43 during neurodegeneration. The Cx36 did not change during the lesion progression and Cx43 showed disorganized pattern and upregulated after 7 days, the same as GFAP. Apoptotic amacrine cells are coupled with health neighborhood cells by Cx36. The functional role of GJ was evaluated using blockers to verify the viability/cell death. Carbenoxolone (CBX) reduced the spread of apoptosis after 4h while quinine had the same effect after 1h. The distribution of apoptotic nuclei confirmed that the use of GJ blockers reduced the propagation of apoptosis. Quinine, but not CBX, decreases initial and effector caspases expression. The control of GJ channels permeability can participate in neuroprotection strategies.
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Publishing Date
2014-06-25
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