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21.
Naturally occurring cell loss in the retinal ganglion cell population of one eye can be interrupted by removal of the other eye in newborn rodents. Many of the rescued retinal ganglion cells which project ipsilaterally reside in the nasal retina, that part of the retina normally giving rise to primarily crossed optic axons. Their naturally occurring elimination has been attributed to their hypothesized late neurogenesis and the consequent delayed time of arrival of their axons in the target visual nuclei, thereby placing them at a competitive disadvantage with other, early arriving, optic axons. By combining the technique of tritiated thymidine autoradiography with the retrograde axonal transport of horseradish peroxidase in rats that had been enucleated on the day of birth, we report here that rescued cells in the nasal retina which project ipsilaterally are generated at the same time as their neighbours in the temporal retina. Time of genesis does not distinguish them; consequently, their axons should not differ in their arrival times within the target visual nuclei. Since their only obvious anomaly is one of pathway choice at the optic chiasm, their place of arrival, rather than their time, may ultimately determine their naturally occurring elimination. 相似文献
22.
The life span of olfactory receptor neurons was investigated after injection of a retrograde tracer into the olfactory bulb. Mice were injected unilaterally with colloidal gold conjugated with Concanavalin A and their olfactory epithelia were examined after 7, 14, 30, 60, and 90 days. Gold particles could be seen in the epithelia at all survival periods after silver intensification. There was no gold in the epithelia on the uninjected side. In order to test whether gold could be recycled within the epithelium upon the death of receptor neurons, the olfactory bulbs of some mice were ablated 4 days after colloidal gold injection. None of the receptor neurons in these epithelia contained gold at any survival period. To investigate whether gold was continuously available at the injection site, olfactory bulbs were examined by electron microscopy. By 7 days after injection all gold was sequestered intracellularly and was presumably unavailable for uptake by the olfactory axons. These results indicate that olfactory receptor neurons live for at least three times the commonly accepted life span of 30 days. A long life span challenges the widely held view that olfactory receptor neurons are regularly replaced. 相似文献
23.
Moclobemide up-regulates proliferation of hippocarnpal progenitor cells in chronically stressed mice 总被引:1,自引:0,他引:1
Yun-feng LI You-zhi ZHANG Yan-qin LIU Heng-lin WANG Li YUAN Zhi-pu LUOBeijing Institute of Pharmacology Toxicology Beijing Department of Anesthesiology Hospital of Beijing Beijing China 《Acta pharmacologica Sinica》2004,(11)
AIM: To explore the action mechanism of antidepressants. METHODS: The PC12 cell proliferation was detected by flow cytometry,. The proliferation of hippocampal progenitor cells and level of brain-derived neurotrophic factor (BDNF) were measured by immunohistochemistry. RESULTS: Treatment with N-methylaspartate (NMDA) 600μmol/L for 3 d significantly decreased the percentage of S-phase in PC12 cells, while in the presence of classical antidepressant, moclobemide (MOC) 2 and 10μmol/L, the percentage in S-phase increased. Furthermore, the proliferation of progenitor cells in hippocampal dentate gyrus (subgranular zone), as well as the level of BDNF in hippocampus significantly decreased in chronically stressed mice, while chronic administration with MOC 40 mg/kg (ip) up-regulated the progenitor cell proliferation and BDNF level in the same time course. CONLUSION: Up-regulation of the proliferation of hippocampal progenitor cells is one of the action mechanisms for MOC, which may be closely related to the e 相似文献
24.
Stem cell-based therapies for the treatment of stroke have received considerable attention. Two broad approaches to stem cell-based therapies have been taken: the transplantation of exogenous stem cells, and the activation of endogenous neural stem and progenitor cells (together termed neural precursors). Studies examining the transplantation of exogenous cells have demonstrated that neural stem and progenitor cells lead to the most clinically promising results. Endogenous activation of neural precursors has also been explored based on the fact that resident precursor cells have the inherent capacity to proliferate, migrate and differentiate into mature neurons in the uninjured adult brain. Studies have revealed that these neural precursor cell behaviours can be activated following stroke, whereby neural precursors will expand in number, migrate to the infarct site and differentiate into neurons. However, this innate response is insufficient to lead to functional recovery, making it necessary to enhance the activation of endogenous precursors to promote tissue repair and functional recovery. Herein we will discuss the current state of the stem cell-based approaches with a focus on endogenous repair to treat the stroke injured brain. 相似文献
25.
Eiichiro Nishi 《Growth factors (Chur, Switzerland)》2013,31(4):253-260
Thrombospondin-1 (TSP-1) is believed to be an endogenous angiogenic inhibitor. In this study, we report that a single 1 h bout of treadmill running increases TSP-1 mRNA 3–4-fold (p < 0.001). Interestingly, with short-term training (up to 5 days, 1 h/day) the acute response of TSP-1 mRNA to exercise was ablated after 3 days. Following long-term training (8 weeks, 1 h/day, 5 d/wk), in either normoxia or chronic hypoxia, the TSP-1 mRNA response to an acute bout of exercise was restored and increased 3–4-fold (p < 0.01). However, chronic exposure to hypoxia (8-weeks) decreases both the basal and acute exercise-induced TSP-1 mRNA levels by 44 and 48%, respectively (p < 0.05). Based on the robust TSP-1 gene response to a single acute exercise bout, its temporal response to repetitive exercise bouts, and the putative role of TSP-1 in the angiogenic process, we speculate that TSP-1 may play a role in regulating the onset of skeletal muscle angiogenesis in response to exercise. 相似文献
26.
Christian B. Ricks ;Samuel S. Shin ;Christopher Becker ;Ramesh Grandhi 《中国神经再生研究》2014,9(17):1573-1577
Over last 20 years, extracellular matrices have been shown to be useful in promoting tissue regeneration. Recently, they have been used and have had success in achieving neurogenesis. Recent developments in extracellular matrix design have allowed their successful in vivo incorporation to engender an environment favorable for neural regeneration in animal models. Promising treatments under investigation include manipulation of the intrinsic extracellular matrix and incorporation of engineered naometer-sized scaffolds through which inhibition of molecules serving as barriers to neuroregeneration and delivery of neurotrophic factors and/or cells for successful tissue regeneration can be achieved. Further understanding of the changes incurred within the extracellular matrix following central nervous system injury will undoubtedly help design a clinically efficacious extracellular matrix scaffold that can mitigate or reverse neural degeneration in the clinical setting. 相似文献
27.
Valérie Amarger Angèle Lecouillard Laure Ancellet Isabelle Grit Blandine Castellano Philippe Hulin Patricia Parnet 《Nutrients》2014,6(10):4200-4217
Maternal diet during pregnancy and early postnatal life influences the setting up of normal physiological functions in the offspring. Epigenetic mechanisms regulate cell differentiation during embryonic development and may mediate gene/environment interactions. We showed here that high methyl donors associated with normal protein content in maternal diet increased the in vitro proliferation rate of neural stem/progenitor cells isolated from rat E19 fetuses. Gene expression on whole hippocampi at weaning confirmed this effect as evidenced by the higher expression of the Nestin and Igf2 genes, suggesting a higher amount of undifferentiated precursor cells. Additionally, protein restriction reduced the expression of the insulin receptor gene, which is essential to the action of IGFII. Inhibition of DNA methylation in neural stem/progenitor cells in vitro increased the expression of the astrocyte-specific Gfap gene and decreased the expression of the neuron-specific Dcx gene, suggesting an impact on cell differentiation. Our data suggest a complex interaction between methyl donors and protein content in maternal diet that influence the expression of major growth factors and their receptors and therefore impact the proliferation and differentiation capacities of neural stem cells, either through external hormone signals or internal genomic regulation. 相似文献
28.
Length and thickness of 152 corpus callosa were measured in neonates within 24 hours of birth.Using ultrasonic diagnostic equipment with a neonatal brain-specific probe,corpus callosum length and thickness of the genu,body,and splenium were measured on the standard mid-sagittal plane,and the anteroposterior diameter of the genu was measured in the coronal plane.Results showed that corpus callosum length as well as thickness of the genu and splenium increased with gestational age and birth weight,while other measures did not.These three factors on the standard mid-sagittal plane are therefore likely to be suitable for real-time evaluation of corpus callosum development in premature infants using cranial ultrasound.Further analysis revealed that thickness of the body and splenium and the anteroposterior diameter of the genu were greater in male infants than in female infants,suggesting that there are sex differences in corpus callosum size during the neonatal period.A second set of measurements were taken from 40 premature infants whose gestational age was 34 weeks or less.Corpus callosum measurements were corrected to a gestational age of 40 weeks,and infants were grouped for analysis depending on the outcome of a neonatal behavioral neurological assessment.Compared with infants with a normal neurological assessment,corpus callosum length and genu and splenium thicknesses were less in those with abnormalities,indicating that corpus callosum growth in premature infants is associated with neurobehavioral development during the early extrauterine stage. 相似文献
29.
30.
Chunling Fan Mengqi Zhang Lei Shang Ngobe Akume Cynthia Zhi Li Zhenyu Yang Dan Chen Jufang Huang Kun Xiong 《中国神经再生研究》2014,9(3):318-328
Previous studies have demonstrated that doublecortin-positive immature neurons exist pre- dominantly in the superficial layer of the cerebral cortex of adult mammals such as guinea pigs, and these neurons exhibit very weak properties of self-proliferation during adulthood under physiological conditions. To verify whether environmental enrichment has an impact on the proliferation and maturation of these immature neurons in the prefrontal cortex of adult guinea pigs, healthy adult guinea pigs were subjected to short-term environmental enrichment. Animals were allowed to play with various cognitive and physical stimulating objects over a period of 2 weeks, twice per day, for 60 minutes each. Immunofluorescence staining results indicated that the number of doublecortin-positive cells in layer II of the prefrontal cortex was significantly increased after short-term environmental enrichment exposure. In addition, these doublecortin-positive cells co-expressed 5-bromo-2-deoxyuridine (a marker of cell prolifera- tion), c-Fos (a marker of cell viability) and NeuN (a marker of mature neurons). Experimental findings showed that short-term environmental enrichment can induce proliferation, activation and maturation of doublecortin-positive cells in layer II of the prefrontal cortex of adult guinea pigs. 相似文献