Journal of neurochemistry
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Journal of neurochemistry · Mar 2014
Acrolein involvement in sensory and behavioral hypersensitivity following spinal cord injury in the rat.
Growing evidence suggests that oxidative stress, as associated with spinal cord injury (SCI), may play a critical role in both neuroinflammation and neuropathic pain conditions. The production of the endogenous aldehyde acrolein, following lipid peroxidation during the inflammatory response, may contribute to peripheral sensitization and hyperreflexia following SCI via the TRPA1-dependent mechanism. Here, we report that there are enhanced levels of acrolein and increased neuronal sensitivity to the aldehyde for at least 14 days after SCI. ⋯ Following spinal cord injury (SCI), acrolein involvement in neuropathic pain is likely through direct activation and elevated levels of pro-nociceptive channel TRPA1. While acrolein elevation correlates with neuropathic pain, suppression of this aldehyde by hydralazine leads to an analgesic effect. Acrolein may serve as a novel therapeutic target for preclinical and clinical SCI to relieve both acute and chronic post-SCI neuropathic pain.
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Journal of neurochemistry · Feb 2014
EditorialSubmitting a manuscript for peer review--integrity, integrity, integrity.
Publication of a flawed manuscript has significant consequences for the progress of science. When this proves to be intentional, science is brought into disrepute and this puts even more pressure on the shrinking resources that society is prepared to invest in research. ⋯ The increased policing of submissions by reviewers, editors, and publishers expends time and money. The sanctions imposed by journal editors on authors found guilty of malpractice are transparent and severe.
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Journal of neurochemistry · Jan 2014
The neuroprotective activity of the amyloid precursor protein against traumatic brain injury is mediated via the heparin binding site in residues 96-110.
We have previously shown that following traumatic brain injury (TBI) the presence of the amyloid precursor protein (APP) may be neuroprotective. APP knockout mice have increased neuronal death and worse cognitive and motor outcomes following TBI, which is rescued by treatment with exogenous sAPPα (the secreted ectodomain of APP generated by α-secretase cleavage). Two neuroprotective regions were identified in sAPPα, the N and C-terminal domains D1 and D6a/E2 respectively. ⋯ The product of α-secretase cleavage of the amyloid precursor protein, sAPPα is neuroprotective following traumatic brain injury (TBI). Of interest was whether this neuroprotective activity could be further delineated to a heparin binding region within sAPPα, corresponding to the region APP96-110 (see diagram demonstrating the domain structure of sAPPα). Indeed treatment with APP96-110 improved functional outcome following TBI, an effect that was not seen with a mutated version of the peptide that had reduced heparin binding affinity.
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Journal of neurochemistry · Nov 2013
Genomic editing opens new avenues for zebrafish as a model for neurodegeneration.
Zebrafish has become a popular model organism to study human diseases. We will highlight the advantages and limitations of zebrafish as a model organism to study neurodegenerative diseases and introduce zinc finger nucleases, transcription activator-like effector nucleases, and the recently established clustered regularly interspaced short palindromic repeats/clustered regularly interspaced short palindromic repeat-associated system for genome editing. The efficiency of the novel genome editing tools now greatly facilitates knock-out and, importantly, also makes knock-in approaches feasible in zebrafish. Genome editing in zebrafish avoids unspecific phenotypes caused by off-target effects and toxicity as frequently seen in conventional knock-down approaches.