Neuroscience
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Cartwheel (CW) neurons are glycinergic interneurons in the dorsal cochlear nucleus (DCN) that exhibit spontaneous firing, resulting in potent tonic inhibition of fusiform neurons. CW neurons expressing open ATP-sensitive potassium (KATP) channels do not fire spontaneously, and activation of KATP channels halts spontaneous firing in these neurons. However, the conditions that regulate KATP channel opening in CW neurons remain unknown. ⋯ We hypothesized that intense membrane ion ATPase activity during strong depolarization would deplete intracellular ATP, leading to KATP channel opening. Consistent with this, depolarizing CW neurons with a 250 pA DC did not increase spontaneous firing because the depolarization activated KATP channels; however, the same depolarization after tolbutamide administration increased firing, suggesting that ATP depletion triggered KATP channel opening to limit action potential firing. These results indicate that KATP channels in the DCN provide dynamic control over action potential firing, preventing excessive excitation during high-firing activity.
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CD109 is a multifunctional coreceptor, whose function has been widely studied in tumor progression and metastasis. One of the reported primary roles of CD109 involves down-regulating TGFβ signaling. However, the role of CD109 in central nervous system, especially neurodegenerative disease, is barely known. ⋯ Further cellular localization analysis demonstrated that proliferating microglia contributed mainly to the upregulation of CD109 and TGFβ1. Moreover, CD109 intervention in vitro partially reduced inflammatory response and TGFβ/SMAD pathway activation in both LPS-treated BV2 microglia and primary SOD1-G93A microglia. Thus, CD109 was involved in pathogenesis of ALS mice, and interventions targeting on CD109 modulation could be a potential therapeutic strategy for ALS.
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The adverse impact of disturbmitochondrialbiogenesis onearly brain injury (EBI) following subarachnoid haemorrhage (SAH) has been broadly recognized and is closely associated with oxidative stress and neuronal apoptosis. Previous studies have indicated the therapeutic potential of Ropinirole, a dopamine D2 agonist, in Ischemic Stroke. However, there is a lack of evidence regarding the ability of Ropinirole to enhance mitochondrial biogenesis and quality control after subarachnoid haemorrhage. ⋯ Further research showed that, Ropinirole therapy inhibit Drp1-mediated fission by accelerating the activity of fusion protein Mfn2/OPA1 along with regulating the translocation of PGC1-α and SIRT3 through restricting cytochrome C inside mitochondria to maintain mitochondrial metabolism. Ropinirole exerted neuroprotective effects by improving mitochondrial activity in a PGC1-α/SIRT3-dependent way via regulating Drp1 mediated fission. The effective treatment for SAH-induced EBI may involve increasing biogenesis and inhibiting excessive mitochondrial fission with Ropinirole.
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Review
Advances in diagnostic imaging and interventional treatment of aphasia after basal ganglia stroke.
Post-stroke basal ganglia aphasia is an unusual and transient form of aphasia resulting from basal ganglia damage. It is commonly believed that the generation of language function primarily resides in regular language regions of the brain; however, recent findings indicate a prevalence of basal ganglia stroke aphasia as high as 22%. Subcortical structures (e.g., basal ganglia) also play an important role in language processing. ⋯ Treatment for post-stroke basal ganglia aphasia includes transcranial magnetic stimulation, a recent emerging therapeutic technique, in addition to conventional medications and speech rehabilitation. Consequently, understanding this condition is crucial. This review delves into its causes, imaging methods, and therapeutic interventions, offering a systematic and comprehensive analysis of these aspects.