Using one dimensional proteomic mapping (combination of one dimensional gel electrophore sis (1DE) with subsequent mass spectrometry MALDI TOF PMF) the protein profile of Danio rerio embryos has been investigated. The fish species Danio rerio is the most effective alternative model of verte brates used for studies of drug toxicity (e.g. doxorubicin) due to its high degree of homology with human genome. The proteomic profiling resulted in identification of 84 proteins, including 15 vitellogenins. Using the procedure of preparation of homogenates of Danio rerio embryos optimized by ultrasonic treatment pro moting removal of yolk basic proteins (vitellogenin) we have registered changes in the proteome profile of D. rerio embryos induced by doxorubicin (DOX). Growth D. rerio embryos in the medium with DOX caused the decrease in the number of vitellogenins, disappearance of cardiac troponins, and induction of caspase 3. All these observations are consistent with the literature data on doxorubicin induced cardiotoxicity. The pro posed method of 1D proteomic mapping may be used not only for protein identification but also for registra tion of changes in embryonic proteomic profile caused by drugs or any toxic compound for studying the mechanisms underlying induced toxicity.
In the present study, a proteomic technology combining one-dimensional gel electrophoresis (1DE) with subsequent mass spectrometry (MALDI-TOF-PMF) has been successfully applied for revelation of changes in the protein profile of zebrafish (Danio rerio) 52 hpf embryos. Prior to 1DE separation of zebrafish embryonic proteins, the procedure for obtaining embryos homogenate was optimized by ultrasonic treatment. A total of 84 proteins, including 15 vitellogenins, were identified. It was shown that growing of zebrafish embryos in the medium with doxorubicin (DOX) stimulated Caspase-3 induction and promoted the disappearance of cardiac troponins, both these findings being consistent with literature data on doxorubicin-induced cardiotoxicity. The 1DE-based proteomic mapping approach proposed herein enabled not only to identify proteins but also to register those changes in embryos' proteomic profile that were caused by doxorubicin.
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