The precise determination of the embryonic chronology is very important in reproductive biotechnologies, especially in estimating embryonic age. Thus, there is a need for greater knowledge and standardization for determining the chronology of embryonic development and functional morphology. We describe aspects of embryonic development in two domestic carnivores to add knowledge about organ peculiarities and for application in veterinary practice, in prenatal development and in the biotechnology fields. We found that the development of differential characteristics of embryonic organs occurs in the first trimester of pregnancy for both species. Thus, using the combination of the crown-rump length, macroscopic analysis and optical microscopy, it is possible to predict gestational age more precisely in animals that lack a defined breed and establish an embryonic pattern.
Purpose:To evaluate different protocols to isolate stem cells from ovine umbilical cord blood and adipose tissue. Methods: There were used 5 samples of umbilical blood and 5 samples of perirenal adipose tissue from 10 female sheep. All the samples were obtained through surgery, to harvest aseptic samples. There were used 3 protocols for obtainment and culture of umbilical cord blood stem cells and 4 protocols for ovine adipose tissue stem cells. Results: It was possible to observe only one successful protocol for the obtainment of umbilical cord blood stem cells. When analyzing the techniques used to obtain adipose tissue stem cells, only one of the methods was effective as well. Through colony forming unit assay, there were obtained 58 colonies of cells after seven days in culture. Flow citometry tests revealed the cells were positive to CD44 and exhibited negative reaction to CD38, CD45, CD41/61. These cells showed a growth curve with very well defined phases LOG, LAG and PLATEAU. This phases are typically seem in mesenchymal stem cells growth curves. Conclusions: The isolation and culture of mesenchymal stem cells from ovine umbilical cord blood are complex and request more detailed assays. Stem cells from fat tissue sheep showed mesenchymal characteristics, according to their cell growth curve, ability to origin colonies of fibroblastoid cells and positive reactivity with the antibody CD44 by flow citometry. Key words: Stem Cells. Umbilical Cord. Adipose Tissue. Sheep. RESUMO Objetivo:Testar diferentes protocolos para o isolamento de células tronco a partir de sangue de cordão umbilical e tecido adiposo de ovinos. Métodos: Foram utilizadas cinco amostras de sangue de cordão umbilical e cinco amostras de tecido adiposo perirrenal de 10 fêmeas de ovelha. A coleta das amostras foi realizada através de procedimento cirúrgico para coleta do material de forma mais asséptica possível. Foram realizados três protocolos de isolamento e cultivo das células-tronco do cordão umbilical e quatro protocolos para o isolamento e cultivo das células-tronco de gordura de ovinos Resultados: Somente um dos protocolos utilizados para o isolamento das células-tronco de cordão umbilical foi efetivo. Dos quatro protocolos utilizados para isolamento das células-tronco de gordura, da mesma forma, apenas um obteve sucesso. Foi realizado o ensaio de unidades formadoras de colônias destas células, sendo contadas 58 colônias ao final de sete dias. Na citometria de fluxo essas células mostraram-se positivas para CD44 e negativas para CD38, CD45, CD41/61. Estas células apresentaram curva de crescimento com fases de LOG, LAG e PLATEAU bem definidas, características das curvas de crescimento das células-tronco de origem mesenquimal. Conclusões: O isolamento e cultivo das células-tronco mesenquimais do cordão umbilical de ovinos é de difícil realização, exigindo maiores ensaios e estudos profundos. Células tronco do tecido adiposo de ovelhas demonstraram características mesenquimais, de acordo com a curva de crescimento, habilidade de ...
PURPOSE:To describe a new technique for isolation of a mesenchymal stem cells (MSCs) population from the olfactory mucosa in rabbits. METHODS:Olfactory stem cells (OSCs) were retrieved from under the cribriform plate of the Ethmoid bone. Several assays were accomplished to characterize the cell population and attest its viability in vitro. The cells were submitted to flow cytometry with the antibodies CD34, CD45, CD73, CD79, CD90 and CD105 and also they were induced to differentiate in three lineages. Functional evaluation involved analysis of in vitro growth behavior, colony forming unit like fibroblasts (CFU-f) and cryopreservation response.Further transduction with Green Fluorescent Protein (GFP) was also performed. RESULTS:The OSCs showed mesenchymal features, as positive response to CD34, CD73 and CD90 antibodies and plasticity.Additionally, these cells have high proliferated rate, and they could be cultured through many passages and kept the ability to proliferate and differentiate after cryopreservation. The positive response to the transduction signalizes the possibility of cellular tracking in vivo. This is a desirable feature in case those cells are used for pre-clinical trials. CONCLUSION:The cells harvested were mesenchymal stem cells and the technique described is therefore efficient for rabbit olfactory stem cells isolation.
Pesq. Vet. Bras. 31(Supl. The study of the embryology of the domestic cat is of great value considering its importance as an experimental model for the wild cats endangered from extinction, especially in the research related to reproductive biology. The objective of this study is the descriptive embryology of the domestic cat at different stages of pregnancy, through macroscopic description of photographic records, radiographic and alizarin technique, and microscopic description of photographic records by light microscopy. In embryos with an estimated gestational age of 17 days we observed macroscopically an expansion corresponding to the rostral forebrain, the placoid site of lens, cervical ϐlexure, the four pharyngeal arches with grooves dividing the cardiac prominence, a sign of the limb bud, and the presence of somites. In the caudal region of the embryo, we saw the cranio-caudal bend, allowing the same position in format of a "C". In embryos with an estimated age of 22 days, we noticed macroscopically the forebrain, optic vesicle pigmentation of the retina, the optic vesicle, fourth ventricle, liver, fore and hind limbs with a slight distinction between the digits and superϐicial vascularization. In embryos with an estimated age of 25 days we noticed presence of the forebrain and midbrain, the pronounced cervical curvature of the optic vesicle with strong pigmentation of the retina, the optic vesicle, limbs and chest well developed, distinguishing the digits and pronounced the liver Fetuses with estimated age of 52 days have internal and external structures easily identiϐied in adult animals. With respect to the bone structure we noted that they did not have any radial bone formed, only bone shafts. Microscopically, the embryo of the domestic cat with CR of 0.9cm and estimated age of 19 days revealed the presence of beak, oral cavity with upper and lower nasal cavity, eye and opening of the 4 th ventricle of the brain, esophagus, heart with atrium and ventricle, lung, liver, mesonephric ridge, primitive gonad, stomach,
Primordial germ cells (PGCs) are precursors of gametes that can generate new individuals throughout life in both males and females. Additionally, PGCs have been shown to differentiate into embryonic germ cells (EGCs) after in vitro culture. Most studies investigating germinative cells have been performed in rodents and humans but not dogs (Canis lupus familiaris). Here, we elucidated the dynamics of the expression of pluripotent (POU5F1 and NANOG), germline (DDX4, DAZL and DPPA3), and epigenetic (5mC, 5hmC, H3K27me3 and H3K9me2) markers that are important for the development of male canine germ cells during the early (22–30 days post-fertilization (dpf)), middle (35–40 dpf) and late (45–50 dpf) gestational periods. We performed sex genotype characterization, immunofluorescence, immunohistochemistry, and quantitative reverse transcriptase polymerase chain reaction (RT-qPCR) analyses. Furthermore, in a preliminary study, we evaluated the capacity of canine embryo PGCs (30 dpf) to differentiate into EGCs. To confirm the canine EGCs phenotype, we performed alkaline phosphatase detection, immunohistochemistry, electron and transmission scanning microscopy and RT-qPCR analyses. The PGCs were positive for POU5F1 and H3K27me3 during all assessed developmental periods, including all periods between the gonadal tissue stage and foetal testes development. The number of NANOG, DDX4, DAZL, DPPA3 and 5mC-positive cells increased along with the developing cords from 35–50 dpf. Moreover, our results demonstrate the feasibility of inducing canine PGCs into putative EGCs that present pluripotent markers, such as POU5F1 and the NANOG gene, and exhibit reduced expression of germinative genes and increased expression of H3K27me3. This study provides new insight into male germ cell development mechanisms in dogs.
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