Behavioral Efficacy of Posttraumatic Calpain Inhibition is Not Accompanied by Reduced Spectrin Proteolysis, Cortical Lesion, or Apoptosis
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R. Bartus | T. Mcintosh | C. Zhang | K. Saatman | Chen Zhang | Tracy K. McIntosh | Raymond T. Bartus
[1] L. Noble,et al. Traumatic brain injury in the rat: Characterization of a lateral fluid-percussion model , 1989, Neuroscience.
[2] L. Pitts,et al. Breakdown of the blood-brain barrier after fluid percussive brain injury in the rat. Part 1: Distribution and time course of protein extravasation. , 1992, Journal of neurotrauma.
[3] L. Pitts,et al. Breakdown of the blood-brain barrier after fluid percussion brain injury in the rat: Part 2: Effect of hypoxia on permeability to plasma proteins. , 1992, Journal of neurotrauma.
[4] G. Clifton,et al. Prolonged memory impairment in the absence of hippocampal cell death following traumatic brain injury in the rat , 1990, Brain Research.
[5] J. Renart,et al. Apoptosis induced by protein kinase C inhibition in a neuroblastoma cell line. , 1995, Cell growth & differentiation : the molecular biology journal of the American Association for Cancer Research.
[6] J Q Trojanowski,et al. Progressive atrophy and neuron death for one year following brain trauma in the rat. , 1997, Journal of neurotrauma.
[7] G. Lynch,et al. Inhibition of proteolysis protects hippocampal neurons from ischemia. , 1991, Proceedings of the National Academy of Sciences of the United States of America.
[8] KEVIN S. Lee,et al. Improved Posthypoxic Recovery of Synaptic Transmission in Gerbil Neocortical Slices Treated With a Calpain Inhibitor , 1993, Stroke.
[9] G. Lynch,et al. Calpain inhibitors improve the recovery of synaptic transmission from hypoxia in hippocampal slices , 1990, Brain Research.
[10] O. Alonso,et al. Early microvascular and neuronal consequences of traumatic brain injury: a light and electron microscopic study in rats. , 1994, Journal of neurotrauma.
[11] J. Trojanowski,et al. Evidence of apoptotic cell death after experimental traumatic brain injury in the rat. , 1995, The American journal of pathology.
[12] D. Bozyczko‐Coyne,et al. Prolonged Calpain‐mediated Spectrin Breakdown Occurs Regionally Following Experimental Brain Injury in the Rat , 1996, Journal of neuropathology and experimental neurology.
[13] A. Yakovlev,et al. Activation of CPP32-Like Caspases Contributes to Neuronal Apoptosis and Neurological Dysfunction after Traumatic Brain Injury , 1997, The Journal of Neuroscience.
[14] J. Povlishock,et al. Traumatically Induced Reactive Change as Visualized Through the Use of Monoclonal Antibodies Targeted to Neurofilament Subunits , 1992, Journal of neuropathology and experimental neurology.
[15] G. Clifton,et al. Immunohistochemical study of calpain-mediated breakdown products to alpha-spectrin following controlled cortical impact injury in the rat. , 1997, Journal of neurotrauma.
[16] G. Clifton,et al. Mechanisms of Calpain Proteolysis Following Traumatic Brain Injury: Implications for Pathology and Therapy: A Review and Update , 1997 .
[17] R. Bartus,et al. New inhibitors of calpain prevent degradation of cytoskeletal and myelin proteins in spinal cord in vitro , 1998, Journal of neuroscience research.
[18] E. J. Green,et al. Chronic histopathological consequences of fluid-percussion brain injury in rats: effects of post-traumatic hypothermia , 1997, Acta Neuropathologica.
[19] A. Malkinson,et al. Calpain activation in apoptosis , 1994, Journal of cellular physiology.
[20] Douglas H. Smith,et al. Temporal and spatial characterization of neuronal injury following lateral fluid-percussion brain injury in the rat , 1996, Acta Neuropathologica.
[21] R. Bartus,et al. Calpain Inhibitor AK295 Protects Neurons From Focal Brain Ischemia: Effects of Postocdusion Intra-arterial Administration , 1994, Stroke.
[22] L. Noble,et al. Experimental fluid percussion brain injury: vascular disruption and neuronal and glial alterations , 1989, Brain Research.
[23] R. Miller,et al. Role of calpain- and interleukin-1 beta converting enzyme-like proteases in the beta-amyloid-induced death of rat hippocampal neurons in culture. , 1997, Journal of neurochemistry.
[24] D. Graham,et al. The neuronal cytoskeleton is at risk after mild and moderate brain injury. , 1998, Journal of neurotrauma.
[25] K. Wang,et al. Calpain inhibition: an overview of its therapeutic potential. , 1994, Trends in pharmacological sciences.
[26] J. Trojanowski,et al. Enduring cognitive, neurobehavioral and histopathological changes persist for up to one year following severe experimental brain injury in rats , 1998, Neuroscience.
[27] R. Bartus,et al. Calpain as a novel target for treating acute neurodegenerative disorders. , 1995, Neurological research.
[28] A. Gressner,et al. Attenuation of TGF-beta-induced apoptosis in primary cultures of hepatocytes by calpain inhibitors. , 1997, Biochemical and biophysical research communications.
[29] M. Linnik,et al. Six-hour window of opportunity for calpain inhibition in focal cerebral ischemia in rats. , 1998, Stroke.
[30] J. Trojanowski,et al. Experimental Brain Injury Induces Regionally Distinct Apoptosis during the Acute and Delayed Post-Traumatic Period , 1998, The Journal of Neuroscience.
[31] S. Scheff,et al. Blood-brain barrier breach following cortical contusion in the rat. , 1996, Journal of neurosurgery.
[32] J. Krieglstein,et al. Protective effects of calpain inhibitors against neuronal damage caused by cytotoxic hypoxia in vitro and ischemia in vivo , 1993, Brain Research.
[33] KEVIN S. Lee,et al. Neuroprotection With a Calpain Inhibitor in a Model of Focal Cerebral Ischemia , 1994, Stroke.
[34] G. Clifton,et al. μ‐Calpain Activation and Calpain‐Mediated Cytoskeletal Proteolysis Following Traumatic Brain Injury , 1996 .
[35] G. Clifton,et al. A calpain inhibitor attenuates cortical cytoskeletal protein loss after experimental traumatic brain injury in the rat , 1997, Neuroscience.
[36] K. Suzuki,et al. Structure and physiological function of calpains. , 1997, The Biochemical journal.
[37] H. Sorimachi,et al. Calpain: new perspectives in molecular diversity and physiological‐pathological involvement , 1994, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.
[38] G. Clifton,et al. Mechanisms of calpain proteolysis following traumatic brain injury: implications for pathology and therapy: implications for pathology and therapy: a review and update. , 1997, Journal of neurotrauma.
[39] J. Savill,et al. Actin is cleaved during constitutive apoptosis. , 1997, The Biochemical journal.
[40] H. Konno,et al. Suppression of neurofilament degradation by protease inhibitors in experimental spinal cord injury , 1987, Brain Research.
[41] R. Bartus,et al. The Calpain Hypothesis of Neurodegeneration: Evidence for a Common Cytotoxic Pathway , 1997 .
[42] B. Sabel. Unrecognized Potential of Surviving Neurons: : Within-systems Plasticity, Recovery of Function, and the Hypothesis of Minimal Residual Structure , 1997 .
[43] J. Trojanowski,et al. Immunohistochemical characterization of alterations in the distribution of amyloid precursor proteins and beta-amyloid peptide after experimental brain injury in the rat , 1996, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[44] R. Bartus,et al. Calpain inhibitor AK295 attenuates motor and cognitive deficits following experimental brain injury in the rat. , 1996, Proceedings of the National Academy of Sciences of the United States of America.
[45] N. Tallada,et al. An Immunohistochemical Study , 1992 .
[46] R. Gilbertsen,et al. Non-erythroid alpha-spectrin breakdown by calpain and interleukin 1 beta-converting-enzyme-like protease(s) in apoptotic cells: contributory roles of both protease families in neuronal apoptosis. , 1996, The Biochemical journal.