Navegando por Assunto "Hidroxicloroquina (HCQ)"

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Ação da hidroxicloroquina sobre neurônios da retina de embrião de galinha
(Universidade Federal do Pará, 2017-03-22) ROSÁRIO, Aldanete Santos; NASCIMENTO, José Luiz Martins do; http://lattes.cnpq.br/7216249286784978
Hydroxychloroquine (HCQ) is currently used in the treatment of malaria and autoimmune diseases and others therapeutic purposes. However, this drug is known to cause side effects, including producing visual disturbances, which may be irreversible. The mechanisms that produce these visual disorders are not completely known. HCQ - related retinal toxicity may be due to high metabolic rate, being very susceptible to the action of xenobiotics and oxidative damages. Thus, this work aims to evaluate the effects of the HCQ on retinal cells, as well as their possible mechanisms of cytotoxicity. The model used in this work was of cultures of retina cells from chicken embryo. To evaluate cell viability, mitochondrial activity was measured by MTT. The lysosomal function was evaluated by the incorporation rate of the neutral red dye. The levels of reactive species of general oxygen and superoxide anion were evaluated by the CellROX probe and by Nitro Blue Tetrazolium (NBT) and total glutathione levels were quantified using the Ellman reagent. Viability was tested in mixed cultures (glia and neurons) or enriched cultures of neurons and glia after treatment with HCQ and compared with chloroquine (CQ). Cells were exposed to concentrations of 25μM, 50μM and 75μM for 24 hours. The results show that mixed cultures treated with CQ presented a reduction in viability of 36 and 61% at concentrations of 50μM and 75μM, respectively, whereas HCQ did not alter viability at any of the concentrations tested. However, when cultures enriched with glial cells were exposed to HCQ for 24 hours, the concentration of 75μM had a small reduction in cell viability, while that the reduction in neuronal cells was of 20, 33 and 56% at the concentrations of 25μM, 50μM and 75μM, respectively. Even a shorter treatment time (6 hours) there was loss of viability in retinal neurons. The incorporation of neutral red supravital dye was also altered in neuronal cultures treated with HCQ for 24 hours, with reduction of 19 and 32%, compared to the control for the concentrations of 50μM and 75μM, respectively. HCQ significantly reduced the levels of reactive oxygen species produced by the neuronal cells, mainly superoxide anion, 43, 52 and 61% for the concentrations of 25μM, 50μM and 75μM of HCQ in 24 hours of treatment, respectively. In concentrations of 50μM and 75μM of HCQ for 24 for hours, the levels of total glutathione in neuronal cells presented a reduction of 37 and 53%, respectively. When the glial cell conditioned medium was used in neuronal cells for 6 hours after treatment with HCQ, it completely reversed the drug-induced cytotoxicity. When total glutathione levels were measured in culture of glia treated with HCQ for 24 hours no changes were observed. These results suggest cytotoxic action of CQ in mixed culture of chicken embryo retina cells which is not observed in HCQ treatment. However, HCQ showed cytotoxic action when cells are cultured separately, mainly on neurons, which is reversed by some factor released by glial cells in the extracellular environment, and glutathione is a possible candidate to exert this neuroprotective function.