Neurochemical research
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Following trauma or ischemia to the central nervous system (CNS), there is a marked increase in the expression of cell cycle-related proteins. This up-regulation is associated with apoptosis of post-mitotic cells, including neurons and oligodendrocytes, both in vitro and in vivo. ⋯ Treatment with cell cycle inhibitors in CNS injury models inhibits glial scar formation and neuronal cell death, resulting in substantially decreased lesion volumes and improved behavioral recovery. Here we critically review the role of cell cycle pathways in the pathophysiology of experimental stroke, traumatic brain injury and spinal cord injury, and discuss the potential of cell cycle inhibitors as neuroprotective agents.
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Neurochemical research · Aug 2007
AT1 receptor blocker candesartan-induced attenuation of brain injury of rats subjected to chronic cerebral hypoperfusion.
One of common pathophysiological states associated with central nervous system is chronic cerebral hypoperfusion (CH) that frequently occurs in conditions such as vascular dementia and Alzheimer's disease. Long term blockage of angiotensin II type 1 (AT(1)) receptor provides protection from ischemia induced injury of brain as well as reduction of cerebrovascular inflammation. Examining effect of the blockage on reduced glutathione (GSH), ascorbic acid (AA), and lipid peroxidation were of purpose in the present study. ⋯ Candesartan (0.5 mg/kg, oral) not only reduced lipid peroxidation but also restored GSH significantly besides elevating AA and improving histopathological alterations. In conclusion, long term AT(1 )receptor blockage may be considered as novel therapeutic approach for protection from damage associated with CH. Underlying mechanism(s) may in part be related to suppressing oxidative stress and preserving brain antioxidant capacity.
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Neurochemical research · Apr 2007
ReviewGenetic influences on outcome following traumatic brain injury.
Several genes have been implicated as influencing the outcome following traumatic brain injury (TBI). Currently the most extensively studied gene has been APOE. APOE can influence overall and rehabilitation outcome, coma recovery, risk of posttraumatic seizures, as well as cognitive and behavioral functions following TBI. ⋯ Inflammation which is a prominent component in the pathophysiological cascade initiated by TBI, is in part is mediated by the interleukin genes, while apoptosis that occurs as a consequence of TBI may be modulated by polymorphisms of the p53 gene. The ACE gene may affect TBI outcome via mechanisms of cerebral blood flow and/or autoregulation and the CACNA1A gene may exert an influence via the calcium channel and its effect on delayed cerebral edema. Although several potential genes that may influence outcome following TBI have been identified, future investigations are needed to validate these genetic studies and identify new genes that might influence outcome following TBI.
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Neurochemical research · Dec 2006
Nuclear Ca(++)-influx, Ca (++)/calmodulin-dependent protein kinase IV activity and CREB protein phosphorylation during post-hypoxic reoxygenation in neuronal nuclei of newborn piglets: the role of nitric oxide.
The present study tests the hypothesis that post-hypoxic reoxygenation results in an nitric oxide (NO)-mediated increase in nuclear Ca(++)-influx, increased calmodulin kinase (CaM kinase) IV activity, and increased Ser(133) phosphorylation of cyclic AMP response element binding (CREB) protein in neuronal nuclei of the cerebral cortex of newborn piglets. Piglets were divided into normoxic (Nx), hypoxic (Hx, FiO(2) = 0.07 for 1 h), hypoxic with 6 h reoxygenation (Hx + reox), and Hx + reox injected with 7-nitroindazole sodium salt (7-NINA), a nNOS inhibitor, immediately after hypoxia (Hx + 7-NINA). Cerebral tissue hypoxia was documented by ATP and phosphocreatine (PCr) levels. ⋯ We conclude that post-Hx increase in nuclear Ca(++)-influx leading to increased phosphorylation of CREB protein is mediated by NO derived from nNOS. However, hypoxia-induced increase in CaM Kinase IV activity decreased during the post-Hx reox. We propose that hypoxia-induced increase in CaM Kinase IV activity leads to increased phosphorylation of CREB protein and transcription of proapoptotic genes during post-Hx reox resulting in Hx neuronal death.
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Neurochemical research · Aug 2006
Hypoxia-induced cell death and activation of pro- and anti-apoptotic proteins in developing chick optic lobe.
Exposure of the CNS to hypoxia is associated with cell death. Our aim was to establish a temporal correlation between cellular and molecular alterations induced by an acute hypoxia evaluated at different post-hypoxia (p-h) times and at two stages of chick optic lobe development: embryonic days (ED) 12 and 18. ⋯ At ED12 there was a significant increase (48%) in Bcl-2 levels at the end of the hypoxic treatment, followed by a significant increase of active caspase-9 (49%) and active caspase-3 (58%) at 30 and 60 min p-h, respectively, while at ED18 no significant changes were observed. These findings indicate that prenatal hypoxia produces an equilibrated imbalance in both pro- and anti-apoptotic proteins that culminates in a process of cell death, present at earlier stages of development.