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1.
Abstract: Total hexokinase levels (units/g tissue) have been measured during postnatal development of the cerebellum in control, hypothyroid, and hyperthyroid rats. In addition, distribution of hexokinase in the developing cerebellum has been observed with an immunofluorescence method. Hypothyroidism delays the normally observed postnatal increase in total hexokinase activity, whereas hyperthyroidism accelerates the increase. In normal animals, hexokinase levels in maturing Purkinje cells pass through a transient increase, with maximal levels at approximately 8 days postnatally followed by rapid decline to relatively low levels by 12 days; hypothyroidism delays this transient increase and subsequent decline, but hyperthyroidism does not appear to affect markedly the timing of this phenomenon. Cerebellar glomeruli are relatively enriched in hexokinase content, as judged by their intense fluorescence. Hypothyroidism delays the development of intensely stained glomeruli. Hyperthyroidism did not appear to cause precocious increase in numbers of glomeruli but may have increased the rate at which the hexokinase was assimilated by newly formed glomeruli. The effects of hypo- and hyperthyroidism on total cerebellar hexokinase levels are interpreted in terms of the effect of thyroid hormone on the biochemical maturation of synaptic structures rich in hexokinase.  相似文献   

2.
The localization of alpha-D-mannosidase in the rat cerebellum was studied by using indirect immunohistochemistry at both optical and electron microscopic levels. In the adult the enzyme is particularly concentrated in the dendrites and cell bodies of Purkinje cells, basket cells, and Golgi neurons in the cerebellar cortex and in the cytoplasm and dendrites of deep nuclei neurons. The cytoplasm of granule cells is poorly stained, whereas parallel fibers, white matter, Bergman fibers, and Golgi epitheloid cell perikarya show virtually no staining. Electron microscopy suggests that most of the staining is found in the cytosol, although some staining is found in the postsynaptic densities of the synapses between parallel fibers and Purkinje dendrites. The pattern of staining was followed throughout the postnatal development of the rat cerebellum. At bith an intense and diffuse staining is found in all cells except those of the external germinative layer. At the 6th postnatal day, Purkinje cell bodies and apical cones are strongly labeled. From the 13th day on the pattern is very similar to that found in the adult. However, at the 18th postnatal day (when compared with the other structures), the staining of Purkinje cell dendrites seems to be higher than at all other ages. These data are correlated with biochemical studies and discussed in relation to the possible role of this enzyme during the postnatal development of the rat cerebellum.  相似文献   

3.
Cerebellar granule neurons migrate from the external granule cell layer (EGL) to the internal granule cell layer (IGL) during postnatal morphogenesis. This migration process through 4 different layers is a complex mechanism which is highly regulated by many secreted proteins. Although chemokines are well-known peptides that trigger cell migration, but with the exception of CXCL12, which is responsible for prenatal EGL formation, their functions have not been thoroughly studied in granule cell migration. In the present study, we examined cerebellar CXCL14 expression in neonatal and adult mice. CXCL14 mRNA was expressed at high levels in adult mouse cerebellum, but the protein was not detected. Nevertheless, Western blotting analysis revealed transient expression of CXCL14 in the cerebellum in early postnatal days (P1, P8), prior to the completion of granule cell migration. Looking at the distribution of CXCL14 by immunohistochemistry revealed a strong immune reactivity at the level of the Purkinje cell layer and molecular layer which was absent in the adult cerebellum. In functional assays, CXCL14 stimulated transwell migration of cultured granule cells and enhanced the spreading rate of neurons from EGL microexplants. Taken together, these results revealed the transient expression of CXCL14 by Purkinje cells in the developing cerebellum and demonstrate the ability of the chemokine to stimulate granule cell migration, suggesting that it must be involved in the postnatal maturation of the cerebellum.  相似文献   

4.
Abstract— The distribution of hexokinase (ATP: D-hexose 6-phosphotransferase, EC 2.7.1.1) in rat cerebellum, retina, hippocampus, choroid plexus and ependymal cells of the cerebral ventricles, and dorsal root ganglion has been determined, at the light microscopic level, by both immunofluorescence and a histochemical procedure using nitro blue tetrazolium. With the exception of an artifactual staining of the outer photoreceptor segments of retina when the histochemical procedure was used, both methods gave comparable results, from which the following conclusions are drawn:
  • (a) The cytoplasm of neuronal cell bodies clearly contained hexokinase, although the relative levels varied markedly among different types of neurons; such variations have previously been detected by direct assay of hexokinase in dissected neuronal cell bodies (Kato & Lowry , 1973a).
  • (b) Glial cells contained readily detectable levels of hexokinase: the immunofluorescence technique revealed spidery glial processes within the myelinated tracts; in other areas, glial cell cytoplasms were indistinguishable from surrounding neuropil, indicating comparable levels of hexokinase; the satellite glia of dorsal root ganglia actually contained higher levels than did adjacent large neurons. The present results, therefore, do not support previous suggestions that glia are characteristically low and neurons characteristically high in hexokinase content.
  • (c) Hexokinase was distributed throughout neuropil areas, with a somewhat speckled appearance suggesting the existence of small localizations of relatively higher activity, the nature of which could not be determined at this level of resolution; the hexokinase level in neuropil was clearly higher than that of white fiber tracts, in agreement with previous direct biochemical measurements (Buell et al., 1958)
  • (d) No detectable levels of hexokinase were found in cell nuclei.
  • (e) Regions expected to be rich in nerve terminals (e.g. the cerebellar glomeruli, the plexiform layers of retina) showed relatively high hexokinase levels compared to the cytoplasm of adjacent neuronal perikarya, in agreement with previous subcellular fractionation experiments which indicated relatively high levels of hexokinase in nerve endings (Wilson , 1972). Considered along with the‘high affinity’glucose transport system in nerve endings (Diamond & Fishman , 1973), these results suggest nerve terminals are well adapted for the'efficient acquisition and introduction of glucose into metabolism.
  • (f) In addition, high levels of hexokinase were observed in the inner photoreceptor segments of retina, and in the ependymal and choroid plexus cells of the ventricles.
  相似文献   

5.
Abstract: A60 is a 60-kDa component of the axonal cortical cytoskeleton in CNS neurones. It appears to be neurone specific and is tightly bound to brain membranes. In this study the cytoskeletal activities and developmental expression of A60 in rat cerebellum have been examined using the monoclonal antibody DR1. A60 in a partially purified soluble extract of brain membranes interacts selectively with brain but not erythrocyte spectrin. Because erythrocyte spectrin is more closely related to the dendritic form of spectrin than the axonal form, this raises the possibility that AGO localises in axons by interaction with the axonal form of spectrin only. A60 is not found in rat cerebellum before the day of birth. However, during postnatal development of the cerebellum (days 1–13) DR1 reactivity appears progressively. On postnatal day 1, a small population of cells in the mantle layer (presumptive Purkinje cells) is DR1 positive. There is no DR1 reactivity found in Purkinje cell axons during their initial phase of growth. By postnatal day 7, Purkinje cell bodies, initial dendritic segments, and the cerebellar white matter are all positive. This pattern of labelling is strengthened up until postnatal day 13. By contrast, in adult rat cerebellum, the location of A60 has changed so that it is most concentrated in axons, and dendritic staining is lost. These data indicate that A60 is a spectrin-binding component of the adult axonal membrane skeleton, the presence of which is only required in axons after the initial phase of growth.  相似文献   

6.
The distribution of beta-hydroxybutyrate dehydrogenase (3-hydroxybutyrate dehydrogenase, EC 1.1.1.30) in the developing rat cerebellum has been determined using a histochemical method. Staining of Purkinje cells, particularly the soma, was seen at all ages examined. Intense staining of the proximal portions of Purkinje dendrites was noted at 8-11 days postnatally, with less prominent staining of Purkinje dendrites and surrounding structures of the molecular layer seen at later times. Development of glomeruli in the granule cell layer could also be observed due to the intense staining of these structures. (Although noncerebellar structures were not the focus of this study, intense staining of the choroid plexus of the fourth ventricle was also noted.) the transient external germinal layer of the cerebellum did not show appreciable staining. Since beta-hydroxybutyrate dehydrogenase is required for ketone body metabolism, the apparent low level of this enzyme in the external germinal layer suggests that the cells of this layer are not particularly well adapted for utilization of ketone bodies. Thus these results do not provide support for the suggestion that ketone bodies may serve as major substrates for energy metabolism in the external germinal layer of the developing cerebellum. Indeed, the rather restricted distribution of this enzyme in both developing and mature cerebellum (and presumably elsewhere in brain) suggests that ketone body metabolism may be largely confined to relatively few specific cellular compartments.  相似文献   

7.
It has been shown by in vitro translation of polyadenylated messenger RNAs (poly(A)+ mRNAs) that the mRNAs encoding both alpha and beta tubulin isotypes are present at much higher relative levels in the developing rat brain than they are in the adult, suggesting that the requirements for tubulin subunits vary with cell type and/or with the developmental stages of a particular cell type. The postnatally developing rat cerebellum, with its readily identifiable cell populations that perform the gamut of developmental tasks, is a suitable model for analyzing specific cellular mRNA distributions during development. In this report, by in situ hybridization techniques it is shown that, by comparison to total cellular poly(A)+ mRNA levels, there is relatively more of the total beta tubulin mRNAs in mitotically active external granule layer cells than in those in the internal granule layer. These results show that migration and differentiation of these granule cells is accompanied by a decrease in their beta tubulin mRNA levels relative to the levels in granule cells of the external granule cell layer. Furthermore, the relative levels of beta tubulin mRNA both in the prenatally formed Purkinje cells and the postnatally formed stellate cells are two to fourfold less than in the granule cells of the internal granule cell layer.  相似文献   

8.
A monoclonal antibody designated M2 arose from the fusion of mouse myeloma cells with splenocytes from a rat immunized with particulate fraction from early postnatal mouse cerebellum. Expression of M2 antigen was examined by indirect immunofluorescence on frozen sections of developing and adult mouse cerebellum and on monolayer cultures of early postnatal mouse cerebellar cells. In adult cerebellum, M2 staining outlines the cell bodies of granule and Purkinje cells. A weaker, more diffuse staining is seen in the molecular layer and white matter. In sections of newborn cerebellum, M2 antigen is weakly detectable surrounding cells of the external granular layer and Purkinje cells. The expression of M2 antigen increases during development in both cell types, reaching adult levels by postnatal day 14. At all stages of postnatal cerebellar development, granule cells that have completed migration to the internal granule layer are more heavily stained by M2 antibodies than are those before and in process of migration. In monolayer cultures, M2 antigen is detected on the cell surface Of all GFA protein-positive astrocytes and on more immature oligodendrocytes, that express 04 antigen but not 01 antigen. After 3 days in culture, tetanus toxinpositive neurons begin to express M2 antigen. The same delayed expression of M2 antigen on neurons is observed in cultures derived from mice ranging in age from postnatal day 0 to 10.  相似文献   

9.
Summary Five monoclonal antibodies reacting with intracellular constituents of Purkinje cells were investigated by means of indirect immunofluorescence on fresh-frozen sections of the cerebellum and retina from developing and adult normal and mutant mice. Antibodies PC1, PC2 and PC3, which recognize Purkinje cells, but no other cerebellar neuron type, label these cells from day 4 onward. PC4 antigen is expressed in addition to Purkinje cells also in granule cells and neurons of deep cerebellar nuclei and appears in Purkinje cells at day 4. M1 antigen (Lagenaur et al. 1980) is first detectable in Purkinje cell bodies by day 5; it is also detectable in deep cerebellar neurons. In the adult retina, only PC4 antigen is detectably expressed and is localized in the inner segments of photoreceptor cells.The neurological mutants weaver, reeler,jimpy and wobbler show detectable levels of these antigens in Purkinje cells. However, the mutants staggerer and Purkinje cell degeneration are abnormal in expression PC1, PC2, PC3, and M1 antigens. Staggerer never starts to express the antigens during development, whereas Purkinje cell degeneration first expresses the antigens, but then loses antigen expression after day 23. PC4 antigen is detectable in the remaining Purkinje cells in staggerer and Purkinje cell degeneration mice at all ages tested in this study. Deep cerebellar neurons are positive for both antigens, PC4 and M1, in all mutants and at all ages studied. In retinas of staggerer and Purkinje cell degeneration mutants, PC4 antigen is normally detectable in the inner segments of photoreceptor cells, even when these have started to degenerate in the case of Purkinje cell degeneration.  相似文献   

10.
By the method of indirect immunohistochemistry, distribution of transferrin and of transferrin receptor of the type 1 (TFR1) was studied in the formed rat eye retina at the period of early postnatal ontogenesis (from birth to opening of eyelids). It has been established that the character of distribution of these proteins and intensity of specific staining change dependent on the retina formation stage. Retina of the newborn rat is characterized by diffuse transferrin distribution in nuclear retina layer (in the neuroblast layer-NBL) and in the ganglionic cell layer (GCL) as well as in the eye pigment epithelium (PE); relative immunoreactivity to transferrin is not high. At the 5th postnatal day, immunoreactivity to transferrin is maximal and is revealed both in nuclear and in plexiform layers of retina and in the eye PE, the greatest signal being characteristic of NBL. At the 10th postnatal day the transferrin signal intensity in retina decreases, specific staining is revealed in GCL, PE, and in the area of formed outer segments of photoreceptors. At the 15th postnatal day, transferrin is revealed in GCL, in outer and inner photoreceptor segments and in the eye PE. TFR1 is present in all retina layers at all stages of the retina formation; the relative immunoreactivity to TFR1 sharply rises beginning from the 10th postnatal day; correlation between distribution of transferrin and TFR1 is detected in the entire retina of newborn rats as well as in the external retina area at subsequent stages of its development. A possible role of transferrin at various stages of formation of retina is discussed.  相似文献   

11.
The cerebellar cortex of many vertebrates shows a striking parasagittal compartmentation that is thought to play a role in the establishment and maintenance of functional cerebellar connectivity. Here, we demonstrate the existence of multiple parasagittal raphes of cells in the molecular layer of the developing cerebellar cortex of postnatal mouse. The histological appearance and immunostaining profile of the raphe cells suggest that they are migrating granule cells. We therefore conclude that the granule cell raphes previously described in birds also exist in a mammalian species. The raphes in mouse are visible on nuclear stains from around birth to postnatal day 6 and are frequently found at the boundaries of Purkinje cell segments that differentially express cadherins ("early-onset" parasagittal banding pattern). A similar relation between the raphe pattern and various markers for the early-onset banding pattern has been found in the chicken cerebellum. One of the cadherins mapped in the present study (OL-protocadherin) continues to be expressed in specific Purkinje cell segments until at least postnatal day 14. At this stage of development, the borders of the OL-protocadherin-positive Purkinje cell segments coincide with the borders of Purkinje cell segments that express zebrin II, a marker for the "late-onset" parasagittal banding pattern which persists in the adult cerebellum. These findings demonstrate that the early-onset banding pattern, as reflected in the complementary arrangement of raphes/Purkinje cell segments, and the late-onset pattern of zebrin II expression share at least some positional cues during development.  相似文献   

12.
The major histogenetic events of the rat cerebellum take place in the early postnatal days. During this period, precursors of microneurons, such as granule cells, form the external granular layer (EGL), extend over the surface of the primordial cerebellum, and actively proliferate. Postmitotic granule cells leave the EOL and migrate to the internal granular layer (IGL). On the other hand, guided by radial glial fibers, immature Purkinje cells migrate from the ventricular zone of the fourth ventricle and settle in the Purkinje cell plate with thickness of several cells. Various cell adhesion molecules are involved in the interaction between the migratory immature Purkinje cells and processes of the radial glia as the basis for contact guidance. The second process is the formation of immature Purkinje cells to the monolayer. This process takes place at the first week after birth of the rat and cell adhesion molecules such as neural cell adhesion molecule (NCAM), fibronectin, tenascin and Reelin are also suggested to play an important role for the cell patterning. When rat fetuses are exposed to X-radiation in the last gestation period, abnormal foliation of the cerebellum develops with ectopic Purkinje cells. The molecular mechanism that contributes to abnormal migration of Purkinje cells and foliar malformation induced by X-irradiation in the cerebellum are not yet clear. This study was undertaken to elucidate the mechanisms of ectopic Purkinje cell formation by examining the expression of cell adhesion molecules.  相似文献   

13.
Newborn rats were treated at different stages of their development with low doses of methylazoxymethanol acetate. The postnatal increase of the DNA content of the cerebrum did not differ from that of controls. In the cerebellum, the DNA content was transitorily reduced, but later, the external granular layer became thicker and DNA deposition increased in comparison with controls; finally, the cerebellar DNA returned to a normal value. Morphological abnormalities of the cerebellum, abnormal orientation of migrating cells, scattering of Purkinje cell bodies within the internal granule cells and specially striking abnormalities of the morphology and orientation of Purkinje cell dendrites were noted in rats treated with MAM from birth to day 3. The effects on the Purkinje cell morphogenesis persisted but were much less marked when MAM was given from 4 to 7 or from 8 to 11 days. Neonatal thyroid deficiency, as MAM-treatment between days 0 and 3, leads to an abnormal position of Purkinje cell bodies within the cerebellar cortex; it also leads to morphological abnormalities of their dendritic arborization which closely resemble those observed after MAM-treatment during the second postnatal week. It also alters the cell formation in the cerebellum. Thyroid deficiency probably exerts its effect on cell formation earlier than previous biochemical studies have shown. On another hand, the morphological abnormalities of Purkinje cell arborizations in the thyroid-deficient animals may be partly due to the perturbations of cell formation which persist later in the cerebellum.  相似文献   

14.
In order to study the molecular mechanisms of neurogenesis, monoclonal antibodies (MAbs) were produced against antigens of the developing rat hippocampus. MAb 3G7-F8 was used for immunohistochemical localization of the corresponding antigen of paraffin sections of the rat brain at days 0, 5, 14, and 21 of the postnatal development. In the hippocampus of newborn and 5-day-old rats, positive immunostaining was observed in the cytoplasm and proximal segments of processes of neurons located in granular, polymorph, and pyramidal layers, as well as in entorhinal cortex. In granule cell bodies and neurons of entorhinal cortex specific staining decreased by day 14 and disappeared by day 21 after birth, whereas neurons of pyramidal and polymorph layers remained immunopositive. Diffuse specific staining in the cerebellum was observed beginning from day 5 after birth in the Purkinje cell layer. On days 14-21 positive reaction was observed in Purkinje cell bodies and in the layer containing dendrites of Purkinje cells and parallel fibers. External and internal granular layers remained immunonegative. No specific staining was observed in other regions of the brain, as well as in the control slices. These data suggest that the antigen detected by the 3G7-F8 antibody is involved in the formation of the neuronal connections.  相似文献   

15.
Immunochemical and immunohistochemical techniques were used to map the tissue distribution and cellular localization of a rat brain-specific polypeptide, termed PEP-19. PEP-19 was found to be abundant in the cerebellum and olfactory bulbs but was present at much lower levels in other gross brain regions. It was undetectable in all nonneural tissues examined but was present in the cerebellum of several vertebrates, including rat, mouse, guinea pig, monkey, and human. Immunohistochemical analysis revealed that PEP-19 was localized to the soma, axon, and dendritic processes of rat cerebellar Purkinje cells with no demonstrable immunoreactivity in nonneuronal cell types. Furthermore, mutant mice showing degeneration of Purkinje cells exhibit markedly decreased levels of PEP-19. Because PEP-19 appears during the final stages of maturation of Purkinje cells, it may be utilized as a probe to monitor the development of these neurons in vivo.  相似文献   

16.
 Mammalian hexokinase types one and three (HK1 and HK3) are 100 kDa isozymes that phosphorylate glucose to glucose-6-phosphate. HK1 is present in most tissues but is especially prominent in brain and kidney. HK3 is less well studied, but may be most prominent in the spleen and lymphocytes. In this study, we determined the ontogeny of the expression of these isoforms in the rat. Using immunohistochemistry, we identified HK1 and HK3 immunoreactivity in the brain, heart, kidney, liver, skeletal muscle and spleen from gestational day 14 (E14) to 45 days after birth (P45). With the exception of the liver and spleen, we observed a similar age- and cell-dependent staining pattern for both isoforms in all organs studied. The brain and spleen were analyzed in more detail to identify specific regions of immunoreactivity during maturation. A transient expression of HK1 and HK3 was noted in the cell bodies of mature neurons, including layers V and VI of the cerebral cortex and the cerebellar Purkinje cells followed by localization to the white matter of the cerebrum and cerebellum. In the spleen, HK3 immunoreactivity was detected postnatally and appeared to track with the infiltration of B cells. Our demonstration of changing patterns of immunoreactivity for HK1 and HK3 in fetal and postnatal organs suggests that these HK isoforms are involved the process of development. We speculate that HK1 and HK3 share a complex interaction during development of these organs and regulate glucose metabolism at multiple levels during development. Accepted: 16 May 1997  相似文献   

17.
Previous studies have shown an abnormality in cyclic nucleotide phosphodiesterase activity in the retina of mice (C3H/HeJ) with an inherited degeneration of the photoreceptor layer. Adenyl cyclase activity and cyclic AMP content have been measured in C3H retina and compared with that in normal retina (DBA/1J) during postnatal maturation, to assess the influence of the mutation upon cyclic AMP metabolism. Adenyl cyclase activity increases normally for the first 7 days of age; thereafter, it becomes greater than normal. Cyclic AMP becomes obviously abnormal after 10 days of age. The elevated levels of cyclic AMP persist in the surviving cells of the inner layers of the adult C3H retina. Adenyl cyclase activity and cyclic AMP content are concentrated in the inner layers of the normal retina, while the photoreceptor layer has only a very low level of enzyme activity and cyclic AMP. The data suggest that the synthesis of cyclic AMP in the inner layers of C3H retina is significantly enhanced, during the period of postnatal development in which the photoreceptor cells have begun to degenerate.  相似文献   

18.
F3/contactin (CNTN1) and TAG-1 (CNTN2) are closely related axonal glycoproteins that are differentially regulated during development. In the cerebellar cortex TAG-1 is expressed first as granule cell progenitors differentiate in the premigratory zone of the external germinal layer. However, as these cells begin radial migration, TAG-1 is replaced by F3/contactin. To address the significance of this differential regulation, we have generated transgenic mice in which F3/contactin expression is driven by TAG-1 gene regulatory sequences, which results in premature expression of F3/contactin in granule cells. These animals (TAG/F3 mice) display a developmentally regulated cerebellar phenotype in which the size of the cerebellum is markedly reduced during the first two postnatal weeks but subsequently recovers. This is due in part to a reduction in the number of granule cells, most evident in the external germinal layer at postnatal day 3 and in the inner granular layer between postnatal days 8 and 11. The reduction in granule cell number is accompanied by a decrease in precursor granule cell proliferation at postnatal day 3, followed by an increase in the number of cycling cells at postnatal day 8. In the same developmental window the size of the molecular layer is markedly reduced and Purkinje cell dendrites fail to elaborate normally. These data are consistent with a model in which deployment of F3/contactin on granule cells affects proliferation and differentiation of these neurons as well as the differentiation of their synaptic partners, the Purkinje cells. Together, these findings indicate that precise spatio-temporal regulation of TAG-1 and F3/contactin expression is critical for normal cerebellar morphogenesis.  相似文献   

19.
GAP-43,netrin-1,collapsin-1和neuropilin-1被认为在成网络分布的神经联系中发挥重要的作用.在年幼的啮齿类动物中,小脑包含5种不同的集中分布层:白质、内颗粒细胞层(IGL)、浦肯野氏细胞层(PCL)、分子层(ML)和外颗粒细胞层(EGL).与浦肯野氏神经元在出生前产生这一点不同的是,EGL中的细胞在出生后产生,它们接受从前脑olivary核团发出的攀援纤维的主要神经投射,以及从内颗粒细胞发出的平行纤维的神经投射.这些神经投射主要在出生后的前3个星期内建立,同时还有浦肯野氏细胞的发育和成熟.而GAP-43,netrin-1,collapsin-1和neuropilin-1在出生后小脑发育的潜在作用仍然不清楚.为了更加清楚地探讨上述问题,检验了GAP-43,netrin-1,collapsin-1和neuropilin-1的mRNA与蛋白质在出生后5,10,20天和成年小鼠小脑中的表达情况.研究结果显示,这4种分子在小鼠出生后的小脑中有不同的时间和空间表达形式,这些结果与出生后发育和成年期间的轴突发生、延伸以及突触形成都有关联.通过免疫组织化学双标染色,发现小鼠出生后10天的小脑中,GAP-43阳性的浦肯野氏细胞也显示netrin-1或collapsin-1阳性,并且collapsin-1阳性的细胞也对 netrin-1 阳性.上述研究结果证明这4种分子可能参与了小脑的出生后发育.  相似文献   

20.
During visual system development, programmed cell death occurs in order to facilitate the establishment of correct connections and synapses. During this period, glutamate plays a very important role as an excitatory neurotransmitter. With a view to evaluating if NMDA glutamate receptors participate in the regulation of apoptosis which occurs during the development of the rat retina, we subcutaneously injected the NMDA receptor antagonist MK-801 into rats at different stages of early postnatal development (P2 to P9). Ensuing cell death in the retina and superior colliculus was analyzed by using the Feulgen method. MK-801 administration had no effect on the survival of photoreceptor cells. In contrast, the presence of this antagonist induced a significant increase in the number of apoptotic cells in the neuroblastic layer (P7 and P8) and ganglion cell layer (P6-P8), as well as in the superior colliculus which receives afferent contacts from retinal ganglion cells during P7-P9. We conclude that during development, specific types of cells in the mammalian retina are critically dependent for their survival on glutamate stimulation through NMDA receptors. These findings thus throw fresh light on the mechanisms of development of the rat visual system by identifying NMDA glutamate receptors as participants in the regulation of apoptotic processes which occur during the initial stages of development.  相似文献   

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