Neuroscience
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The chemogenetic procedure DREADD (designer receptor exclusively activated by designer drugs) is an inventive way to selectively affect g-coupled protein receptors. In theory, DREADD receptors are only activated by administering inert compounds, primarily clozapine N-oxide (CNO). Research has shown that CNO does not cross the blood-brain barrier, and CNO is converted back to clozapine and N-desmethylclozapine (N-Des) in the brain. ⋯ The source of the DA and glutamate could be caused by activation of projection neurons or local effects. The data replicate findings that CNO is not an inert compound and that interpretation of CNO-activated DREADD findings should be done with caution. The data indicate that low ('safe') doses of CNO still have neurochemical effects and that controlling for the actions of clozapine/N-Des in CNO-DREADD studies has many concerns.
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Cerebral ischemia/reperfusion is the major pathophysiological process in stroke and could lead to severe and permanent disability. The current study aimed to investigate the effects of dedicator of cytokinesis 2 (DOCK2) on cerebral ischemia/reperfusion-induced cerebral injury. We established a mouse middle cerebral artery occlusion (MCAO) model with suture-occluded method in vivo. ⋯ Subsequently, we found that the loss of DOCK2 upregulated the expression of p-STAT6. DOCK2 knockdown-induced microglial cell polarization towards M2 phenotype was partly abrogated by the STAT6 inhibitor AS1517499. In conclusion, DOCK2 downregulation protected against cerebral ischemia/reperfusion by modulating microglia polarization via the activation of the STAT6 signaling pathway.
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Increasing evidence points to the involvement of cell types other than motor neurons in both amyotrophic lateral sclerosis (ALS) and spinal muscular atrophy (SMA), the predominant motor neuron disease in adults and infants, respectively. The contribution of glia to ALS pathophysiology is well documented. Studies have since focused on evaluating the contribution of glia in SMA. ⋯ Smn together with Gemins 2-8 and Unrip, form the Smn complex which is indispensable for the assembly of spliceosomal small nuclear ribonucleoproteins (snRNPs). We show that glial-selective perturbation of Smn complex components or disruption of key snRNP biogenesis factors pICln and Tgs1, induce deleterious effects on adult fly viability but, similar to Smn reduction, had no negative effect on neuromuscular function. Our findings suggest that the role of Smn in snRNP biogenesis as part of the Smn complex is required in glia for the survival of the organism, underscoring the importance of glial cells in SMA disease formation.
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Glioblastoma multiforme (GBM) is one of the most common, most formidable, and deadliest malignant types of primary astrocytoma with a poor prognosis. At present, the standard of care includes surgical tumor resection, followed by radiation therapy concomitant with chemotherapy and temozolomide. New developments and significant advances in the treatment of GBM have been achieved in recent decades. ⋯ In this review, we outline some of the most recent literature on the various available treatment options such as surgery, radiotherapy, cytotoxic chemotherapy, gene therapy, immunotherapy, phototherapy, nanotherapy, and tumor treating fields in the treatment of GBM, and we list some of the potential future directions of GBM. The reviewed studies confirm that GBM is a sophisticated disease with several challenges for scientists to address. Hence, more studies and a multimodal therapeutic approach are crucial to yield an effective cure and prolong the survival of GBM patients.
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Our previous studies revealed that miR-34a suppresses autophagy in the ageing cochlea, which correlates with cochlear hair cell loss and age-related hearing loss (AHL). However, the mechanisms underlying miR-34a regulation of autophagy in the cochlea remain unclear. Here, we show that nuclear translocation of transcription factor EB (TFEB), a master regulator of autophagy, was regulated by miR-34a in HEI-OC1 cells. ⋯ Long-term supplementation with rapamycin attenuated outer hair cells (OHCs) and inner hair cell synaptic ribbons, and delayed AHL in C57BL/6 mice. Most importantly, rapamycin partially restored TFEB's nuclear localization and autophagic flux in OHCs of the ageing cochlea. These findings open new avenues for protection against AHL through miR-34a/ATG9a/TFEB modulation of autophagy.