As exogenous markers of DNA synthesis, 5-bromo-2'-deoxyuridine (BrdU) and tritiated thymidine ([(3)H]TdR) have revolutionized our ability to identify proliferating neuroblasts and follow their fate during the development of the central nervous system. The effect of the incorporation of these molecules into DNA on cell proliferation, migration and differentiation is frequently neglected (Duque and Rakic, 2011. J. Neurosci. 31, 15205-15217). By a progressively delayed cumulative labeling method, the current paper analyzes the development of the cerebellum in mice exposed to either BrdU or [(3)H]TdR as embryos and collected at postnatal day 90. We observed that, in comparison to the saline group, several parameters of the cerebellum such as length of the cerebellar cortex, the area of the molecular layer, Purkinje cell (PCs) number, the areas of the cerebellar nuclei, and the number of the deep cerebellar nuclei (DCN) neurons were lower in the BrdU injected group. No consequence of [(3)H]TdR administration was observed. On the other hand, we also studied whether immunohistochemical methods, including BrdU antibodies from different vendors (Sigma and Dako), partial DNA denaturation procedures and trypsin pretreatments, alter the neurogenetic timetables of PC and DCN neurons that resulted from analysis of these tissue specimens. Our analysis revealed that the generative programs of these macroneurons were unrelated to differences in the sensibility of BrdU antibodies but were dependent on the partial denaturation of DNA and trypsin digestion protocols. Finally, we also compare the generation and spatial distribution of PC and DCN neurons in mice exposed to either BrdU or [(3)H]TdR to assess whether the results obtained by these two markers are quantitatively similar. The data presented here show that systematic differences exist in the pattern of neurogenesis and the spatial location of cerebellar neurons between mice injected with BrdU or [(3)H]TdR. These findings have implications for the interpretation of results obtained by both exogenous makers as an index of the production, migration and settling of neurons in the developing central nervous system.
The current paper analyzes the development of the male and female rat cerebellum exposed to hydroxyurea (HU) (300 or 600 mg/kg) as embryo and collected at postnatal day 90. Our study reveals that the administration of this drug compromises neither the cytoarchitecture of the cerebellar cortex nor deep nuclei (DCN). However, in comparison with the saline group, we observed that several cerebellar parameters were lower in the HU injected groups. These parameters included area of the cerebellum, cerebellar cortex length, molecular layer area, Purkinje cell number, granule cell counts, internal granular layer, white matter and cerebellar nuclei areas, and number of deep cerebellar nuclei neurons. These features were larger in the rats injected with saline, smaller in those exposed to 300 mg/kg of HU and smallest in the group receiving 600 mg/kg of this agent. No sex differences in the effect of the HU were observed. In addition, we infer the neurogenetic timetables and the neurogenetic gradients of PCs and DCN neurons in rats exposed to either saline or HU as embryos. For this purpose, 5-bromo-2'-deoxyuridine was injected into pregnant rats previously administered with saline or HU. This thymidine analog was administered following a progressively delayed cumulative labeling method. The data presented here show that systematic differences exist in the pattern of neurogenesis and in the spatial location of cerebellar neurons between rats injected with saline or HU. No sex differences in the effect of the HU were observed. These findings have implications for the administration of this compound to women in gestation as the effects of HU on the development of the cerebellum might persist throughout their offsprings' life.
The present light and electron microscopic study deals with the morphology and cytochemical properties of the nucleolus in mature granule cells of the rat cerebellum. Nucleolar organization has been examined by several different methodological approaches: (a) determination of the number of nucleoli per cell from smear preparations, (b) morphometric estimation of nucleolar size, and (c) ultrastructural and cytochemical characterization of nucleolar components. The mean number of nucleoli per cell was found to be 1.46 +/- 0.02 (mean +/- SEM). The morphometric measurement of the nucleolar area showed an average value of 0.359 +/- 0.07 microns 2 (mean +/- SDM). At the electron microscope level, most granule cell nucleoli displayed a fine texture which does not differ substantially from the 'ring-shaped' configuration usually found in cells with low levels of protein synthesis activity; i.e., a large round fibrillar centre surrounded by the dense fibrillar component, and small masses of granular component segregated from the preceding constituents. The meaning of this nucleolar configuration is discussed in the light of recent ultrastructural and biochemical data on nucleolar function. A relationship between this pattern of nucleolar organization and metabolic characteristics of the granule cells is suggested.
Generation and settling of Purkinje cells (PCs) are investigated in the weaver mouse cerebellum in order to determine possible relationships with the fissuration pattern. Tritiated thymidine was supplied to pregnant females at the time that these neurons were being produced. Autoradiography was then applied on brain sections obtained from control and weaver offspring at postnatal (P) day 90. This makes it possible to assess the differential survival of neurons born at distinct embryonic times on the basis of the proportion of labeled cells located at the two foliar compartments: fissures and foliar crowns. Our data show that throughout the surface contour of the vermal lobes, generative programs of PCs were close between wild type and homozygous weaver. Similar data were found in the lobules of the lateral hemisphere. On the other hand, the loss of PCs in weaver cerebella can be related to foliar concavities or convexities depending on the vermal lobe or the hemispheric lobule studied. Lastly, we have obtained evidence that late-generated PCs of both normal and mutant mice were preferentially located in fissures. These quantitative relationships lead us to propose a model in which the final distribution of PCs through the vermal contour would be coupled to two factors: the cortical fissuration patterning and a "time-sequential effect" of weaver mutation.
Postnatal development of the cerebellar cortex was studied in rats administered with a single dose (2 mg/g) of the cytotoxic agent hydroxyurea (HU) on postnatal day (P) 9 and collected at appropriate times ranging from 6 h to 45 days. Quantification of several parameters such as the density of pyknotic, mitotic, BrdU-positive, and vimentin-stained cells revealed that HU compromises the survival of the external granular layer (EGL) cells. Moreover, vimentin immunocytochemistry revealed overexpression and thicker immunoreactive glial processes in HU-treated rats. On the other hand, we also show that HU leads to the activation of apoptotic cellular events, resulting in a substantial number of dying EGL cells, as revealed by TUNEL staining and at the electron microscope level. Additionally, we quantified several features of the cerebellar cortex of rats exposed to HU in early postnatal life and collected in adulthood. Data analysis indicated that the analyzed parameters were less pronounced in rats administered with this agent. Moreover, we observed several alterations in the cerebellar cortex cytoarchitecture of rats injected with HU. Anomalies included ectopic placement of Purkinje cells and abnormities in the dendritic arbor of these macroneurons. Ectopic granule cells were also found in the molecular layer. These findings provide a clue for investigating the mechanisms of HU-induced toxicity during the development of the central nervous system. Our results also suggest that it is essential to avoid underestimating the adverse effects of this hydroxylated analog of urea when administered during early postnatal life.
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