Journal of neuroscience research
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Nucleoside reverse transcriptase inhibitors (NRTIs) are key components of HIV/AIDS treatment to reduce viral load. However, these drugs can induce chronic neuropathic pain, leading to increased morbidity in HIV patients. This study examines the role of brain-derived neurotrophic factor (BDNF) in the spinal dorsal horn (SDH) in development of mechanical allodynia in male C57BL/6J mice treated with the NRTI stavudine (d4T). ⋯ After d4T, BDNF heterozygous mice were less allodynic than wild-type littermates, which was negated by intrathecal BDNF administration. Finally, pretreatment with intrathecal trkB-Fc chimera prior to d4T or administration of the tyrosine kinase inhibitor K252a 3 days after d4T blocked BDNF-mediated signaling, significantly attenuated the development of mechanical allodynia (trkB-Fc), and decreased neuronal activity (trkB-Fc and K252a). Taken together, these findings provide evidence that BDNF in the SDH contributes to the development of NRTI-induced painful peripheral neuropathy and may represent a new therapeutic opportunity.
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Mitochondria are central integrators and transducers of proapoptotic signals for neuronal apoptosis. The tumor suppressor protein p53 can trigger apoptosis independently of its transcriptional activity, through subcellular translocation of cytochrome c and caspase activation. To define better the proapoptotic role of p53 under various stress conditions, we investigated the protein levels of p53 and cytochrome c in mitochondrial and cytosolic fractions, as well as caspase-3 activation and apoptosis, in the prefrontal cortex and hippocampus of male Wistar rats subjected to acute, chronic, or combined stressors. ⋯ Decreased mitochondrial MnSOD activity following combined stressors in both brain structures indicated a state of oxidative stress. This suggests that chronic isolation stress compromises mitochondrial MnSOD activity in both the prefrontal cortex and the hippocampus but likely results in mitochondrial-triggered proapoptotic signaling mediated by a transcription-independent p53 mechanism only in the prefrontal cortex. Thus, our data demonstrate a tissue-specific (prefrontal cortex vs. hippocampus) response to applied stressors.
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We examined the neuroprotective effects amlodipine and/or atorvastatin in metabolic syndrome (MetS) Zucker fatty rats against transient (90 min) middle cerebral artery occlusion (MCAO). The rats were pretreated with vehicle, amlodipine, atorvastatin, or amlodipine plus atorvastatin for 28 days, and 24 hr after transient MCAO the infarct size was assessed via hematoxylin and eosin staining, and terminal deoxynucleotidyl transferase-mediated dUTP-biotin in situ nick end labeling (TUNEL) and microtubule-associated protein 1 light chain 3 (LC3) expression were examined by immunohistochemistry to evaluate apoptosis and autophagy, respectively. Compared with the vehicle group, rats treated with amlodipine or atorvastatin alone showed a significant decrease in infarct volume (P < 0.01), which was further decreased in the amlodipine plus atorvastatin group (P < 0.001). ⋯ These data suggest additive neuroprotective effects of combination amlodipine and atorvastatin treatment after acute ischemic stroke in MetS model Zucker rats. These effects are mediated, at least in part, via antiapoptotic and antiautophagic mechanisms. Further studies are now needed to expand these preliminary results to understand fully the mechanisms involved in the protective effects of amlodipine and atorvastatin against ischemic stroke.
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After traumatic spinal cord injury (SCI), there is an opportunity for preserving function by attenuating secondary cell loss. Astrocytes play crucial roles in the adult CNS and are responsible for the vast majority of glutamate buffering, potentially preventing excitotoxic loss of neurons and oligodendrocytes. We examined spatial and temporal changes in gene expression of the major astrocyte glutamate transporter GLT1 following moderate thoracic contusion SCI using transgenic BAC-GLT1-eGFP promoter reporter mice. ⋯ Although there were increased numbers of GFAP(+) cells both at the lesion site and in surrounding intact spinal cord following SCI, the majority of proliferating Ki67(+) /GFAP(+) astrocytes did not express GLT1-eGFP. These findings demonstrate that spatial and temporal alterations in GLT1 expression observed after SCI result from both astrocyte death and gene expression changes in surviving astrocytes. Results also suggest that following SCI a significant portion of astrocytes lacks GLT1 expression, possibly compromising the important role of astrocytes in glutamate homeostasis.
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Although increased neurogenesis has been described in rodent models of focal traumatic brain injury (TBI), the neurogenic response occurring after diffuse TBI uncomplicated by focal injury has not been examined to date, despite the pervasiveness of this distinct type of brain injury in the TBI patient population. Here we characterize multiple stages of neurogenesis following a traumatic axonal injury (TAI) model of diffuse TBI as well as the proliferative response of glial cells. ⋯ Also, abundant proliferating and reactive astrocytes, microglia, and polydendrocytes were detected throughout the brain following TAI, indicating that a robust glial response occurs in this model, although very few new cells in the nonneurogenic brain regions became mature neurons. We conclude that diffuse brain injury stimulates early stages of a neurogenic response similar to that described for models of focal TBI.