Neuroscience
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High-mobility group box 1 (HMGB1), an active receptor for advanced glycation endproducts (RAGE), functions as a potent proinflammatory cytokine-like factor that contributes to the pathogenesis of vasculature. Diabetes mellitus (DM) is associated with accelerated development of both microvascular and macrovascular disease and increases the risk of ischemic stroke. Using a model of streptozotocin-induced type-1 diabetes (T1DM) in rats, we investigated the changes in HMGB and RAGE and tested the effects of Niaspan, a slow release form of niacin, on the expression of pro-inflammatory proteins in rats after stroke. ⋯ T1DM increases HMGB1/RAGE, TLR4 and MMP-9 expression after stroke. Niaspan treatment of stroke in T1DM rats inhibits HMGB1/RAGE, TLR4 and MMP-9 expression which may contribute to the reduced inflammatory response after stroke in T1DM rats.
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Peripheral nerve injury often results in neuropathic pain that is manifested as hyperalgesia, and allodynia. Several studies suggest a functional role for neuronal nitric oxide synthase (nNOS) in the development or maintenance of neuropathic pain, but such a contribution remains unclear. In our current study, we found that intraplantar injection of the NOS substrate L-arginine or NO donor 3-morpholino-synonimine (SIN-1) produced mechanical hypersensitivity that lasted more than 24 h. ⋯ Intraplantar injection of the NOS inhibitor 7-nitroindazole (7-NI) or the non-specific NOS inhibitor L-N(G)-nitro-arginine methyl ester (L-NAME) effectively suppressed SNL-induced mechanical allodynia. Collectively, these data suggest that in the periphery nNOS upregulation induced by peripheral nerve injury contributes to mechanical hypersensitivity during the maintenance phase of neuropathic pain. Blocking nNOS signaling in the periphery may thus be a novel therapeutic strategy for the treatment of neuropathic pain.
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Folic acid (folate) is a vitamin of the B-complex group that is essential for cell replication. Folate is a major determinant of one-carbon metabolism, in which S-adenosylmethionine donates methyl groups that are crucial for neurological function. Many roles for folic acid have been reported, including neuroprotective and antidepressant properties. ⋯ To explore the putative intracellular signaling pathways implicated in the protective effect of folate we used different protein kinase inhibitors. The protective effect of folic acid on dexamethasone-induced neurotoxicity was reversed by the phosphatidylinositol-3 kinase/Akt (PI3K/Akt, LY294002), Ca²⁺/Calmodulin-dependent protein kinase II (CaMKII, KN-93), and protein kinase A (PKA, H-89) inhibitors, but not the mitogen-activated protein/extracellular signal-regulated kinase (MEK1/2, PD98059) and protein kinase C (PKC, chelerythrine) inhibitors. In conclusion, the results of this study show that folic acid can protect against dexamethasone-induced neurotoxicity and its protective mechanism is related to a signaling pathway that involves PI3K/Akt, CaMKII, and PKA.
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Narcolepsy results from disruption of orexin neurons in the hypothalamus that play a key role in maintenance of the arousal state. Underlying mechanisms leading to selective loss of orexin neurons remain unknown. On the other hand, endoplasmic reticulum stress, namely, conditions associated with impairment of endoplasmic reticulum functions such as proper folding and sorting of newly synthesized proteins, is implicated in pathogenesis of several types of neurodegenerative disorders. ⋯ In addition, inhibition of axonal transport by colchicine and inhibition of proteasomal activity by MG132 significantly prevented the decrease in orexin immunoreactivity by tunicamycin. Comparative examinations of expression of unfolded protein response-related proteins revealed that C/EBP-homologous protein (a transcription factor that promotes induction of apoptosis) as well as phosphorylated form of RNA-dependent protein kinase-like endoplasmic reticulum kinase (a protein kinase that mediates inhibition of protein translation) was expressed more prominently in orexin neurons than in melanin-concentrating hormone neurons, in response to tunicamycin. These results indicate that orexin neurons are particularly sensitive to endoplasmic reticulum stress, which may be relevant to pathogenic events in narcolepsy.
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Diabetic cognitive dysfunction (DCD), usually accompanied with chronically elevated glucocorticoids and hippocampal astrocytic alterations, is one of the most serious complications in patients with type-1 diabetes. However, the role for chronically elevated glucocorticoids and hippocampal astrocytic activations in DCD remains to be elucidated, and it is not clear whether astrocytic N-myc downstream-regulated gene 2 (NDRG2, involved in cell differentiation and development) participated in DCD. In the present study, three months after streptozotocin (STZ)-induced type-1 diabetes onset, rats showed cognitive impairments in Morris water maze test as well as elevated corticosterone level. ⋯ Moreover, the diabetic cognitive impairments were ameliorated by 9-day glucocorticoids receptor (GR) blockade with RU486, and the down-regulation of hippocampal NDRG2 and GFAP in diabetic animals was also attenuated by 9-day GR blockade. These results suggest that glucocorticoids-GR system is crucial for DCD, and that astrocytic reactivity and NDRG2 are involved in these processes. Thus, inhibiting GR activation in the hippocampus may be a novel therapeutic strategy for treating DCD.