Navegando por Assunto "Giro denteado"

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Acesso aberto (Open Access)
Enriquecimento ambiental reduz as alterações astrocitárias e a progressão da doença prion em modelo murino: ensaios morfométricos, estereológicos e comportamentais
(Universidade Federal do Pará, 2014-11-26) TORRES NETO, João Bento; DINIZ, Cristovam Wanderley Picanço; http://lattes.cnpq.br/2014918752636286
It is well established that a sedentary lifestyle is a risk factor for a number of chronic diseases, including Alzheimer's disease. The neuropathology of Alzheimer's disease is characterized by amyloid deposits, neuronal loss, reactive gliosis, and vacuolization of the neuropil. Prion disease has been widely used as an experimental model for studying cellular and molecular aspects of chronic neurodegeneration much similar to that described in Alzheimer's disease. The impoverished environment of standard laboratory cages have been used to mimic a sedentary life whereas enriched environment has been used to mimic an active lifestyle. To test the hypothesis that an enriched environment can help to slow down the time course of chronic neurodegeneration associated with prion disease we induced prion disease in twenty Swiss albino female mice which had been housed at six months of age in an enriched environment (EE) or in a standard (SE) environment for five months. After this period bilateral stereotactic intracerebral injection of normal (NBH, n = 10) or infected brain homogenate (ME7, n = 10) were done. Infected brain homogenate was obtained from mice with clinical signs of terminal prion disease. The injected animals returned to their cages and housing conditions and grouped as follow: SE = NBH 5, EE = NBH 5, ME7 SE = 5, ME7 EE = 5. After three weeks post-injections the burrowing test was initiated. Burrowing is a sensitive task to hippocampal damage. 18 weeks after inoculation memory tests of object recognition was carried out. After behavioral tests animals were euthanized and their brains were histologically processed targeting astrocytic immunostaining of areas of interest. The progressive reduction of the activity of burrowing began in the thirteenth week after injection in group ME7 SE but only in the fifteenth week in ME7 EE group. The ability to recognize the displaced object in spatial memory test was impaired in ME7 SE group but remained normal in the other experimental groups. The test of discrimination between the new object and the family revealed no abnormalities. Quantitative analysis of GFAP immunostained cells were performed in the dorsal stratum radiatum of CA3 and in the polymorphic layer of the dorsal dentate gyrus. The stereological estimates of the total number of astrocytes and the volume of the cell body revealed that the number of astrocytes did not change but a significant hypertrophy occurs in CA3 cell bodies of ME7 SE and ME7 EE groups as compared to their respective controls. The average volume of the cell bodies of the ME7 EE group was smaller than that of the group ME7 SE. However similar analysis applied to the polymorphic layer revealed a significant increase in the number of astrocytes in the ME7 SE group in relation to NBH SE group and in ME7 EE compared to NBH EE. The volume of the cell body was also significantly higher in ME7 groups compared to their respective control groups. The three-dimensional morphometric analysis revealed significant increase in volume and surface area of the segments of astrocytic trees in diseased groups compared to controls. Environmental enrichment reduced swelling observed in the branches of ME7 group and increased the number of intersections of the distal branches in NBH EE group relative to NBH SE and the proximal branches in the group ME7 EE compared with ME7 SE. The use of cluster analysis and discriminant allowed the identification of morphometric parameters that contributed most to the distinction between the groups. To test the hypothesis that there are subfamilies of morphologically distinct astrocytes within each experimental group, we applied cluster and discriminant analysis to each experimental group and these analysis resulted in the formation of two distinct families in NBH SE group, three families in NBH EE and ME7 EE groups and four families in the ME7 SE group. The molecular and cellular changes, which lead to the formation of new families of astrocytes, and to the neuroprotection associated with an enriched environment slowing down the progression of the prion disease, remain to be investigated.
Acesso aberto (Open Access)
Influências do ambiente e da idade sobre a complexidade morfológica dos astrócitos do giro denteado de camundongos suíços albinos
(Universidade Federal do Pará, 2015-05-14) FÔRO, César Augusto Raiol; SOSTHENES, Marcia Consentino Kronka; http://lattes.cnpq.br/7881527576747420; DINIZ, Cristovam Wanderley Picanço; http://lattes.cnpq.br/2014918752636286
During our previous study (Diniz et al., 2010), mice (Mus musculus) maintained in an impoverished environment that mimicked a sedentary lifestyle from weaning generally performed worse on spatial memory tasks (the Morris water maze) and did not distinguish between old and recent or between displaced and stationary objects in episodic-like memory tests. In contrast, mice maintained in enriched cages for equal time preserved those abilities. These behavioral outcomes were associated with layer-dependent, numerical astrocytic changes. Using the same serial anatomical sections selectively immunolabeled for glial fibrillary acid protein from the previous study, we tested the hypothesis that environmental impoverishment would reduce the morphological complexity of astrocytes, and that such changes would be associated with learning and memory decline. We used three-dimensional microscopic reconstructions and unbiased systematic and random sampling approaches to select astrocytes from the polymorphic, granular, and molecular layers of the dentate gyrus. Cluster and discriminant analysis of three-dimensional astrocytic morphometric features from each layer and experimental group revealed two main morphological phenotypes. Type I astrocytes were more complex than type II; they exhibited larger tree areas, larger tree volumes, more segments, and more vertices. Integrated analysis with previous behavioral findings from the same animals revealed that the reductions in morphological complexity observed in young mice from impoverished and aged mice from enriched environments were observed in both astrocyte types in all layers of the dentate gyrus. We suggest that long-term environmental impoverishment and aging effects on astrocyte plasticity may represent at least part of the circuitry changes underlying learning and memory decline.
Acesso aberto (Open Access)
Memória espacial e morfometria tridimensional da micróglia de CA1 e do giro denteado do Cebus apella
(Universidade Federal do Pará, 2013-10-25) SANTOS FILHO, Carlos; DINIZ, Cristovam Wanderley Picanço; http://lattes.cnpq.br/2014918752636286
This study aims to investigate possible correlations between the morphology of microglia in the hippocampus and dentate gyrus and cognitive performances in individual tests of learning and spatial memory in Cebus apella. Due to the good performance of Cebus apella in hippocampal-dependent cognitive tasks, we used selected tests of Cantab battery successfully used in Old World non-human primates and man. To adapt individuals to the touch screen and to assess spatial learning and memory, Motor Screening Test (MOT) and Paired Associated Learning Test (PAL) were used respectively. To detect possible correlations between microglial morphology and individual performances in the spatal learning and memory tasks, it was necessary to reconstruct and analyze microglial morphological details from the middle and outer one-thirds of the dentate gyrus molecular layer and from the lacunosum molecular layer of CA1, employing three dimensional microscopy. The definition of the boundaries and layers of CA1 and dentate gyrus employed architectural criteria previously defined. For selective microglia immunostaining, it was used polyclonal antibody against the adapter binding ionized calcium Iba -1 protein (anti- Iba1). The occurrence of clusters after multivariate statistical analysis based on microglial morphometric parameters allowed the distinction of at least two major morphological groups of microglia in all individuals. The spatial learning rate and some of the morphometric parameters of microglia from dentate gyrus revealed significant linear and non-linear correlations. In contrast, CA1 did not show any correlation between microglial morphology and behavior. Based on the present and previous studies we suggest that the correlation between cognitive performances and complexity of morphological glial features is not an exclusive attribute of astrocytes and that microglial morphology of the molecular layer of dentate gyrus may be indirectly associated to the performance of individual tests of spatial memory.