Bloqueio da fosforilação oxidativa no cultivo de embriões bovinos / Oxidative phosphorylation blockage of bovine culture embryos
AUTOR(ES)
Lígia Garcia Mesquita
DATA DE PUBLICAÇÃO
2006
RESUMO
Although in vitro embryo production has been improved in the last 2 decades, about 60% of the oocytes do not reach the blastocyst stage and embryo quality is very variable when compared with in vivo produced embryo. This developmental block can be affected by inorganic ions, buffers, aminoacids and gaseous atmosphere composition. The knowledge that there influence of mitochondria on the activation of the programmed cellular death led to formulate the hypothesis that nuclear fragmentation absence in embryos before 72 post insemination is related with absence of mitochondrial membrane potential and OXPHOS blockage by inhibiting agents, would cause the maintenance of low levels of mitochondrial membrane potential and low rates of embryo nuclear fragmentation. Embryos were cultured in vitro for 18 hours post insemination (hpi) and after 24 hpi, they were submitted to 0% oxygen culture, in order to block the OXPHOS process. At 48 hpi, feeding was performed with SOF medium containing OXPHOS inhibitors (antimycin A and/or oligomycin, potassium cyanide) in different concetrations. The numbers of 8 cell embryos were estimated at 80 hpi, the same moment that they were submitted to JC-1 probes and TUNEL for mitochondrial membrane potential and DNA damages evaluation, respectively. At 168 hpi the effect of the treatments was verified on embryonic development. The results obtained with the OXPHOS inhibition after 48 after hpi using oligomycin and/or antimycin A did not modify embryo capacity to reach 8 cell stage. However, this inhibition prevented development to the blastocyst stage. KCN treatment allowed development up to the 8 cell stage and blastocyst similar to controls. The absence of O2 prevented embryo development. The Ψmm and TUNEL results showed that antimycin and/or oligomycin treatment increased Ψmm and nuclear fragmentation in the majority of the embryos tested. In conclusion, it was not possible to test the hypothesis that Ψmm is necessary to the establishment of MCP, but a positive correlation between Ψmm and nuclear fragmentation was observed.
ASSUNTO(S)
oxidative phosphorylation potencial membrana mitocondrial bovine embryos embriões bovinos bloqueadores cadeia respiratória morte celular programada programmed cell death fosforilação oxidativa respiratory chain inhibitors mitochondrial membrane potential
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