Distribution of glycogen storage during odontogenesis in fetal development in <i>Calomys callosus</i>
Abstract
Animal cells store carbohydrates in the form of glycogen as a source of potential energy. This storage frequently occurs in embryonic tissue because it demands a quick energy source, mainly during cell differentiation and development. This study evaluated the distribution of glycogen storage during odontogenesis in fetal development in Calomys callosus, by using 12-20 day-old fetuses, 5 fetuses for each day. The heads of the fetuses were removed and fixed in 10% formaldehyde in PBS. The specimens were embedded in glycol-methacrylate; the ones that were 15 days or older were previously decalcified in EDTA. Histology slides were obtained for each day of development containing 3μm-thick semi-serial sections. These slides were divided into 2 identical groups, one of them was submitted to the P.A.S. reaction and the other group was first submitted to salivary amylase and immediately afterwards to the P.A.S. reaction (control group). Light microscope analysis of the initial phases of odontogenesis (12-15 days of development) revealed a more prominent P.A.S. reaction in the ectomesenchymal cells. At 16-17 days there was a marked prevalence in the follicle region; at 18-19 days the reaction was intense in the stellate reticulum and at 20 days, in the inner epithelium and in the dental papilla. According to the methodology developed and to the results obtained, it was concluded that a variation of the glycogen storage in the different regions of the dental germ occurs during odontogenesis, thus making the Calomys callosus a suitable biological model for odontogenesis studies.
UNITERMS: glycogen; odontogenesis; tooth germ; Calomys callosus; PAS reaction.
RESUMO
As células animais estocam carboidratos na forma de glicogênio como fonte de energia. Esses depósitos ocorrem amplamente nos tecidos embrionários para disponibilização rápida de energia, principalmente durante a diferenciação e o desenvolvimento das células. O presente trabalho avaliou a distribuição de depósitos de glicogênio durante a odontogênese intra-uterina em Calomys callosus utilizando fetos com 12 a 20 dias, sendo 5 fetos de cada dia. As cabeças dos fetos foram removidas e fixadas em formaldeído 10% em PBS. Os espécimes foram processados para inclusão em glicol metacrilato (Leica Historesin), sendo aqueles com mais de 15 dias previamente descalcificados em EDTA. Para cada dia de desenvolvimento obteve-se cortes semi-seriados com 3 μm de espessura. As lâminas foram divididas em 2 grupos, sendo um grupo submetido à reação P.A.S. e o outro submetido à amilase salivar e em seguida à reação P.A.S. (grupo controle). Ao microscópio de luz foi observada, nas fases iniciais da odontogênese (12-15 dias), reação P.A.S. mais evidente nas células ectomesenquimais e aos 16-17 dias a reação predominou na região do folículo dental. Aos 18-19 dias a reação intensificou-se no retículo estrelado e aos 20 dias nas células do epitélio interno e na papila dental. De acordo com a metodologia empregada e com os resultados obtidos, concluímos que ocorre variação dos depósitos de glicogênio nas diferentes regiões do germe dental ao longo da odontogênese e que o Calomys callosus representa um modelo biológico para estudos da odontogênese.
UNITERMOS: glicogênio; odontogênese; germe dental; Calomys callosus; reação PAS.
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