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Review Article | April 30, 2021
The inflammatory response, by disrupting immunohomeostasis and aggravating brain damage, constitutes a major contributory factor to the pathobiology of stroke. Because the immune system is involved in all stages of stroke, immunosuppressive mechanisms may provide neuroprotection in this setting. The TAM/Gas6 pathway, for instance, has been shown to be involved in modulating post-stroke inflammation, and in the reduction of post-stroke brain injury. In addition to this pathway, those mediated by established immunosuppressive molecules (such as IL-10 and TGF-β), by CD25+CD4+ FoxP3+Tregs, and by the cholinergic anti-inflammatory pathway, also appear to play protective roles in the context of stroke. Taken together, evidence accumulated regarding the function of these mechanisms suggest than an immunoregulatory strategy may prove promising, both as an approach to the study of stroke pathophysiology, and to the discovery of treatments that limit the destructive effects of cerebrovascular disease.
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The inflammatory response, by disrupting immunohomeostasis and aggravating brain damage, constitutes a major contributory factor to the pathobiology of stroke. Because the immune system is involved in all stages of stroke, immunosuppressive mechanisms may provide neuroprotection in this setting. The TAM/Gas6 pathway, for instance, has been shown to be involved in modulating post-stroke inflammation, and in the reduction of post-stroke brain injury. In addition to this pathway, those mediated by established immunosuppressive molecules (such as IL-10 and TGF-β), by CD25+CD4+ FoxP3+Tregs, and by the cholinergic anti-inflammatory pathway, also appear to play protective roles in the context of stroke. Taken together, evidence accumulated regarding the function of these mechanisms suggest than an immunoregulatory strategy may prove promising, both as an approach to the study of stroke pathophysiology, and to the discovery of treatments that limit the destructive effects of cerebrovascular disease.Qian Jiang, Christopher R. Stone, Kenneth Elkin et al. -
Short Communication | April 30, 2021
An et al. demonstrate the critical role of astrocytic MAOB in both tonic GABA inhibition of SNpc dopaminergic neurons and parkinsonian motor symptoms in the MPTP PD model.
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An et al. demonstrate the critical role of astrocytic MAOB in both tonic GABA inhibition of SNpc dopaminergic neurons and parkinsonian motor symptoms in the MPTP PD model.Heeyoung An, Jun Young Heo, C. Justin Lee and Min-Ho Nam -
Original Article | April 30, 2021
This study shows that Central neurocytoma-derived tumor stem cells have transit-amplifying cell characteristics, and EGFR signaling has a critical role in tumorigenesis of CN.
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This study shows that Central neurocytoma-derived tumor stem cells have transit-amplifying cell characteristics, and EGFR signaling has a critical role in tumorigenesis of CN.Hye Young Shin, Kyung-Seok Han, Hyung Woo Park et al. -
Original Article | April 30, 2021
During Morris water maze, the spatial learning and memory (L&M) was impaired, the extracellular concentrations of norepinephrine and field excitatory postsynaptic potential (fEPSP) amplitudes in the hippocampal dentate gyrus (DG) were significantly suppressed in sleep-deprived (SD) rats. Moreover, local activation of β-adrenoceptors by isoproterenol in DG could significantly rescued deficits of spatial L&M, alleviated the fEPSP impairment and increased glutamatergic receptor expression in the DG.
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During Morris water maze, the spatial learning and memory (L&M) was impaired, the extracellular concentrations of norepinephrine and field excitatory postsynaptic potential (fEPSP) amplitudes in the hippocampal dentate gyrus (DG) were significantly suppressed in sleep-deprived (SD) rats. Moreover, local activation of β-adrenoceptors by isoproterenol in DG could significantly rescued deficits of spatial L&M, alleviated the fEPSP impairment and increased glutamatergic receptor expression in the DG.Huan-Jun Lu and Jing lv
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Forthcoming
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Published online June 16, 2021
An et al. demonstrate that the differential proximity of astrocytic Best1 at the inhibitory and excitatory synapse in APP/PS1 and MAOB KO mice by using Lattice SIM super-resolution microscopy.
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An et al. demonstrate that the differential proximity of astrocytic Best1 at the inhibitory and excitatory synapse in APP/PS1 and MAOB KO mice by using Lattice SIM super-resolution microscopy.Heeyoung An, Wuhyun Koh, SeungHee Kang et al. -
Published online May 28, 2021
An et al. demonstrate that adenovirus injection into SNpc causes severe reactive astrogliosis and exacerbates the A53T-α-synuclein-mediated PD pathology.
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An et al. demonstrate that adenovirus injection into SNpc causes severe reactive astrogliosis and exacerbates the A53T-α-synuclein-mediated PD pathology.Heeyoung An, Hyowon Lee, Seulkee Yang et al.
News
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Here is the winner of the 2021 EN Best Article Awards announced at the KSBNS 2021 Virtual Conference held on May 20~21, 2021. Congratulations to Dr. Joungha Won...…
Show more2021-05-28 -
Here are the winners of the 2020 EN Best Article Awards announced at the KSBNS 2020 Virtual Conference held onNovember 16~17, 2020. - Review Article Congratulat...…
Show more2020-11-18 -
기초과학연구원 인지및사회성연구단 이창준 단장과 동(同)소속 한영은 박사가 2020년 한국과학기술단체총연합회(KOFST, 이...…
Show more2020-06-30
