Journal of neuroscience research
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Injection of viral vectors into peripheral nerves may transfer specific genes into their dorsal root ganglion (DRG) neurons and motoneurons. However, myelin sheaths of peripheral axons block the entry of viral particles into nerves. We studied whether mild, transient peripheral nerve demyelination prior to intraneural viral vector injection would enhance gene transfer to target DRG neurons and motoneurons. ⋯ Increased CXADR expression on the demyelinated axons facilitated axoplasmic viral entry. No animals sustained any prolonged neurological deficits. Increased gene delivery into DRG neurons and motoneurons may provide effective treatment for amyotrophic lateral sclerosis, pain, and spinal cord injury.
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Successful adaptation to stress involves synergized actions of glucocorticoids and catecholamines at several levels of the CNS, including the prefrontal cortex (PFC). Inside the PFC, hormonal signals trigger concerted actions of transcriptional factors, such as glucocorticoid receptor (GR) and nuclear factor kappa B (NFkappaB), culminating in a balanced, proadaptive expression of their common genes, such as proplastic NCAM and/or apoptotic Bax and Bcl-2. In the present study, we hypothesized that chronic stress may compromise the balance between GR and NFkappaB signals and lead to an altered/maladaptive expression of their cognate genes in the PFC. ⋯ Moreover, the compromised PSA-NCAM plastic response found under chronic stress was sustained after exposure of animals to the subsequent acute stress, whereas the proapoptotic signals were further emphasized. It is concluded that chronic social isolation of Wistar animals leads to a maladaptive response of the PFC, considering the diminishment of its plastic potential and potentiating of apoptosis. Such conditions in the PFC are likely to compromise its ability to interact with other CNS structures, such as the hippocampus, which is necessary for successful adaptation to stress.
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Acute inflammation in the poststroke period exacerbates neuronal damage and stimulates reparative mechanisms, including neurogenesis. However, only a small fraction of neural stem/progenitor cells survives. In this report, by using a highly reproducible model of cortical infarction in SCID mice, we examined the effects of immunodeficiency on reduction of brain injury, survival of neural stem/progenitor cells, and functional recovery. ⋯ Removal of T lymphocytes, especially the CD4(+) T-cell population, enhanced generation of neural stem/progenitor cells, followed by accelerated functional recovery. In contrast, removal of CD25(+) T cells, a cell population including regulatory T lymphocytes, impaired functional recovery through, at least in part, suppression of neurogenesis. Our findings demonstrate a key role of T lymphocytes in regulation of poststroke neurogenesis and indicate a potential novel strategy for cell therapy in repair of the central nervous system.
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In our previous studies, particular phenolic ingredients, such as 2-methoxy-4-methylphenol (2M4MP), of the antidiarrheic drug wood creosote significantly prevented cell death by both hydrogen peroxide and glutamate in cultured rat hippocampal neurons. In this study, we further evaluated the pharmacological properties of 2M4MP on Ca(2+) influx across native and acquired N-methyl-D-aspartate (NMDA) receptor (NMDAR) channels. The addition of 2M4MP significantly prevented the loss of cellular viability and the increase in intracellular free Ca(2+) levels as determined by Fluo-3 in cultured rat hippocampal neurons briefly exposed to NMDA. ⋯ Similarly, 2M4MP significantly and selectively inhibited the NMDA-induced influx of Ca(2+) across acquired NR1/NR2B channels in a concentration-dependent manner. Moreover, prior daily oral administration of 2M4MP significantly reduced the infarct volume in the ipsilateral cerebral hemisphere in rats with middle cerebral artery occlusion 1 day after reperfusion. These results suggest that 2M4MP may protect neurons from excitotoxicity through preferential inhibition of Ca(2+) influx across NMDAR channels composed of NR1/NR2B subunits.