Bovine yolk sac: from morphology to metabolomic and proteomic profiles.

In several species, placentation involves the presence of two different membranes responsible for maternal-fetal exchanges: the yolk sac and the chorioallantoic placenta. The yolk sac plays important roles in embryonic survival, mainly during the early stages of gestation. In bovine, it is a transitional membrane that is present until day 50-70 of pregnancy. Herein, we evaluated the morphological and molecular aspects of the yolk sac of bovine embryos during 24 to 52 days of gestation. A total of 69 embryos were allocated into three groups according to the crown-rump length and estimated ages. Yolk sac samples were then subjected to morphological and molecular analysis using mass spectrometry and nuclear magnetic resonance techniques. In contrast to alanine, which was observed only in Group I, during all gestational stages, we identified important metabolites such as aspartate, taurine, glycerophosphocholine, creatinine, creatine, hydrouracil, glutamate, glutamine, lactate, lysine, valine, myo-inositol, cadaverine, and choline. In addition, 314 random sequences of proteins were identified in the bovine yolk sac, and 47 of these were considered to be specific. Changes in alpha-fetoprotein and carcinoembryonic antigen concentrations during gestation were also evaluated. In conclusion, the majority of these proteins are related to the development of secondary metabolites that are involved in the activation of other proteins and metabolites, and in signaling pathways that are responsible for maternal-fetal exchanges, activation of programmed cell death mechanisms, and cellular differentiation, and also in proteins that are responsible for the yolk sac involution that is required to establish chorioallantoic placentation.

Combination therapy of canine osteosarcoma with canine bone marrow stem cells, bone morphogenetic protein and carboplatin in an in vivo model.

Osteosarcoma (OSA) is the most common malignant bone cancer in children and dogs. The therapeutic protocols adopted for dogs and humans are very similar, involving surgical options such as amputation. Besides surgical options, radiotherapy and chemotherapy also are adopted. However, hematologic, gastrointestinal and renal toxicity may occur because of chemotherapy treatments. Recent study clearly showed that mesenchymal stem cells (MSCs) combined with recombinant human bone morphogenetic protein (rhBMP-2) may be associated with decreases of the tumorigenic potential of canine OSA. The aim of this study was to analyse the efficacy of chemotherapy with carboplatin and rhBMP-2 with MSCs in a canine OSA in vivo model. Canine OSA cells were implanted in mice Balb-c/nude with MSCs, rhBMP-2 and carboplatin. Flow cytometry and PCR for markers involved in tumour suppression pathways were analysed. Results showed that the combination of MSCs and rhBMP-2 reduced tumour mass and infiltration of neoplastic cells in tissues more efficiently than carboplatin alone. Thus it was demonstrated that the use of rhBMP-2 and MSCs, in combination with conventional antineoplastic, may be an efficient treatment strategy.

Ossificação endocondral em embriões e fetos de bovinos / Endocondral ossification in bovine embryos and fetus

Estudou-se a ossificação endocontral de 18 embriões e 12 fetos de até três meses de gestação, os quais foram coletados de úteros gestantes em frigoríficos e abatedouros. Os úteros foram dissecados e, em seguida, realizou-se uma incisão dorsal até o cérvix para avaliações macroscópicas dos embriões e fetos. Para o estudo microscópico foram realizadas técnicas de inclusão, seguidas de marcação dos depósitos de cálcio e fósforo, responsável pela ossificação dos moldes de cartilagem. Foram identificados hipertrofia da cartilagem e morte dos condrócitos e aumento da área de depósito de cálcio e fósforo, por volta da 10ª semana gestacional (74 dias). Durante a 11ª semana de gestação (81 dias), os grupamentos de carbonato de cálcio e fósforo espalharam-se por todo o osso, sendo mais intenso na diáfise.

The endocondral ossification process was analyzed in 18 embryos and 12 fetus until three months of pregnancy, which had been collected from pregnant uterus at slaughterhouse. Later, the uterus was separated followed by a dorsal incision from the cervix for better gross evaluations of the embryos and fetus. For the microscopical study, histological techniques had been performed followed by staining of the deposits of calcium and phosphorus match, responsible for the ossification of the cartilage casts, used as Von Kossa stain. Cartilage hypertrophy and death of chondrocytes, enlargement of the area of calcium and phosphorus deposit were foundon the 10th week of pregnancy (74 d). During the 11th week of pregnancy (81 d), the calcium carbonate and phosphorus had spread to all bones, being more intense in diaphysis.