Navegando por Assunto "Tamanho da ninhada"

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Acesso aberto (Open Access)
Influência do tamanho da ninhada sobre o declínio cognitivo e a morfologia microglial da camada molecular do giro denteado em rattus novergicus
(Universidade Federal do Pará, 2012-10-11) OLIVEIRA, Marcus Augusto de; DINIZ, Cristovam Wanderley Picanço; http://lattes.cnpq.br/2014918752636286; DINIZ JUNIOR, José Antônio Picanço; http://lattes.cnpq.br/3850460442622655
It has been proposed that aging is associated with neuroinflammation in the central nervous system but it is not known whether microglial changes induced by aging are affected by early in life effects of litter size. On the other hand the molecular layer of dentate gyrus has been recognized as the main target of the perforant pathway, whose synaptic integrity is essential for the recognition memories of identity and spatial location. In the present report we investigated if aging cognitive decline and microglial morphological changes in the molecular layer are influenced by litter size changes early in life and aging. To assess these questions Wistar rats suckled in litters of six or 12 pups/mother were raised sedentarily in groups of 2-3 from the 21st post-natal day onwards. At four (mature adult) or 23 (aged) months of age were submitted to spatial memory and object identity recognition tests, sacrificed, perfused with aldehyde fixatives and had their brains processed for selective microglia/macrophages immunolabeling with anti-IBA-1 antibodies. A representative sample of the immunolabeled cells in the molecular layer of dentate gyrus was analyzed after three-dimensional reconstruction with Neurolucida software (Microbright Field Inc.) and morphological features of each cell were quantified by Neuroexplorer (Microbright Field Inc.). It was found that Wistar rats maintained all life in standard laboratory cages showed spatial memory deficits in both mature and aged subjects no matter the litter size. On the other hand all aged subjects independent of the litter size had their object recognition identity memory impaired. Microglial morphological analysis revealed that cell soma area and perimeter and branches volume seem to be more intensely affected by aging and that these changes are mainly associated with animals from large litters. In addition it was observed important shrinkage and thickening of the microglial branches in aged individuals in higher proportion in the group from large litters. Taken together the results suggest that spatial memory seems to be more susceptible to the aging process than object recognition and that these changes are associated with distinct effects on the soma and branching patterns of microglia of molecular layer from young and aged subjects.
Acesso aberto (Open Access)
Influências do tamanho da ninhada e da atividade física sobre a plasticidade glial na formação hipocampal em modelo murino
(Universidade Federal do Pará, 2014-02-07) VIANA, Lane Coelho; DINIZ, Cristovam Wanderley Picanço; http://lattes.cnpq.br/2014918752636286
Previous studies have shown significant effects of perinatal stress on cognitive performance in adulthood and during aging. However remains to be studied in detail as exercise at different stages of life helps to reduce these deficits. This is particularly true if we consider previous descriptions of extracellular matrix and glial cell changes, largely ignored in these studies. Thus, the aim of the present report is to investigate possible influences of litter size and physical activity on object recognition memory at adulthood and whether or not these influences affect glial plasticity and extracellular matrix of the hippocampal formation. To that end, we changed the litter size of Wistar rats to accentuate the degree of competition among siblings by functional teats and decrease the amount of maternal care per individual. During the suckling period, we have quantified the maternal care in litters of different sizes. At various time windows we submitted selected subjects to physical exercise on a treadmill, for 5 weeks, adopting the same training protocol. After exercise, some groups of adults and senile animals were submitted to the hippocampal-dependent object recognition memory test, sacrificed, and processed for selective microglia immunolabeling. Other groups of adult animals not subjected to behavioral tests were also euthanized and had one hemisphere used to record diffusional parameters in the hippocampal parenchyma while the other was used for selective immunolabeling to detect astrocytes, NG2 cells and reelin.We found that an increase in litter size was related to the reduction of maternal care, cognitive decline, altered morphology and proliferation of microglia, astrocytes and NG2 cells, as well as to a change in diffusion patterns in the hippocampal stroma. We also demonstrated that these changes may be reversed, at least partially, by physical activity and the extent of these beneficial effects are more pronounced in younger subjects. Finally, we demonstrated that ageing exacerbates microglial morphological changes induced by increased litter size and reduces memory performance.The molecular mechanisms associated to these effects remain to be investigated.