Patricia A. Spera scite author profile

Background and Purpose-A short duration of ischemia (ie, ischemic preconditioning [PC]) can provide significant brain protection to subsequent ischemic events (ie, ischemic tolerance [IT]). The present series of studies was conducted to characterize the temporal pattern of a PC paradigm, to systematically evaluate the importance of protein synthesis in PC-induced IT, and to explore candidate gene expression changes associated with IT. Methods-Temporary middle cerebral artery occlusion (MCAO) (10 minutes) was used for PC. Various periods of reperfusion (ie, 2, 6, and 12 hours and 1, 2, 7, 14, and 21 days) were allowed after PC and before permanent MCAO (PMCAO) (nϭ7 to 9 per group) to establish IT compared with non-PC (sham-operated) rats (nϭ22). Infarct size, forelimb and hindlimb motor function, and cortical perfusion (laser-Doppler flowmetry; nϭ9 per group) were measured after PMCAO. The effects of the protein synthesis inhibitor cycloheximide administered just before PC (nϭ13 to 17) or administered long after PC but just before PMCAO (nϭ7 to 8) on IT were also determined. PC did not produce any significant brain injury, alter cortical blood flow after PMCAO, or produce contralateral cortical neuroprotection. Interleukin-1 receptor antagonist mRNA and protein expression were increased significantly (PϽ0.01) only during the IT period. PC rats also exhibited a significant (PϽ0.01) reduction in c-fos and zif268 mRNA expression after PMCAO. Conclusions-PC is a powerful inducer of ischemic brain tolerance as reflected by preservation of brain tissue and motor function. PC induces IT that is dependent on de novo protein synthesis. New protein(s) that occurs at the PC brain site 1 to 7 days after PC contributes to the neuroprotection. Those proteins that are produced after the more severe PMCAO in PC animals apparently do not contribute to IT. The PC-induced IT is also associated with increased expression of the neuroprotective protein interleukin-1 receptor antagonist and a reduced postischemic expression of the early response genes c-fos and zif268. (Stroke. 1998;29:1937-1951

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IL-10 reduces rat brain injury following focal stroke

Spera

Ellison

Feuerstein

et al. 1998

Neuroscience Letters

324

196

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Caspase-8 and Caspase-3 Are Expressed by Different Populations of Cortical Neurons Undergoing Delayed Cell Death after Focal Stroke in the Rat

et al. 1999

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A number of studies have provided evidence that neuronal cell loss after stroke involves programmed cell death or apoptosis. In particular, recent biochemical and immunohistochemical studies have demonstrated the expression and activation of intracellular proteases, notably caspase-3, which act as both initiators and executors of the apoptotic process. To further elucidate the involvement of caspases in neuronal cell death induced by focal stroke we developed a panel of antibodies and investigated the spatial and temporal pattern of both caspase-8 and caspase-3 expression. Our efforts focused on caspase-8 because its "apical" position within the enzymatic cascade of caspases makes it a potentially important therapeutic target. Constitutive expression of procaspase-8 was detectable in most cortical neurons, and proteolytic processing yielding the active form of caspase-8 was found as early as 6 hr after focal stroke induced in rats by permanent middle cerebral artery occlusion. This active form of caspase-8 was predominantly seen in the large pyramidal neurons of lamina V. Active caspase-3 was evident only in neurons located within lamina II/III starting at 24 hr after injury and in microglia throughout the core infarct at all times examined. Terminal deoxynucleotidyl transferase-mediated biotinylated UTP nick end labeling, gel electrophoresis of DNA, and neuronal cell quantitation indicated that there was an early nonapoptotic loss of cortical neurons followed by a progressive elimination of neurons with features of apoptosis. These data indicate that the pattern of caspase expression occurring during delayed neuronal cell death after focal stroke will vary depending on the neuronal phenotype.

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Osteopontin and its Integrin Receptor α _v β ₃ Are Upregulated During Formation of the Glial Scar After Focal Stroke

Ellison¹,

Velier²,

Spera³

et al. 1998

Stroke

160

113

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Background and Purpose-Microglia and astrocytes in the peri-infarct region are activated in response to focal stroke. A critical function of activated glia is formation of a protective barrier that ultimately forms a new glial-limiting membrane. Osteopontin, a provisional matrix protein expressed during wound healing, is induced after focal stroke. The present study was performed to determine the spatial and temporal expression of osteopontin and its integrin receptor ␣ v ␤ 3 during formation of the peri-infarct gliotic barrier and subsequent formation of a new glial-limiting membrane. Methods-Spontaneously hypertensive rats (nϭ19) were subjected to permanent occlusion of the middle cerebral artery and killed 3, 6, and 24 hours and 2, 5, and 15 days after occlusion. The spatial and temporal expression of osteopontin mRNA was determined by in situ hybridization, and that of osteopontin ligand and its integrin receptor ␣ v ␤ 3 was determined by immunohistochemistry. Results-Osteopontin mRNA was expressed de novo in the peri-infarct region from 3 to 48 hours; by 5 days osteopontin mRNA expression was restricted to the infarct. Osteopontin protein was expressed by peri-infarct microglia beginning at 24 hours and by microglia/macrophages at 48 hours in the infarct. Integrin receptor ␣ v ␤ 3 was expressed in peri-infarct astrocytes at 5 and 15 days. Conclusions-Early

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Effect of Hypertonic Saline on Leukocyte Activity After Spinal Cord Injury

Spera¹,

Arfors²,

Vasthare³

et al. 1998

Spine

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The results show that an increase in leukocyte adhesion after a compressive injury is attenuated by the administration of 7.5% hypertonic saline. The decrease in adhesion cannot be attributed to changes in the shearing forces, because no significant change was observed in the shear rate. Hypertonic saline may interfere with leukocytes directly by interfering with their ability to swell and thus may prevent activation.

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Patricia A. Spera

Ischemic Preconditioning and Brain Tolerance: Temporal Histological and Functional Outcomes, Protein Synthesis Requirement, and Interleukin-1 Receptor Antagonist and Early Gene Expression

IL-10 reduces rat brain injury following focal stroke

Caspase-8 and Caspase-3 Are Expressed by Different Populations of Cortical Neurons Undergoing Delayed Cell Death after Focal Stroke in the Rat

Osteopontin and its Integrin Receptor α _v β ₃ Are Upregulated During Formation of the Glial Scar After Focal Stroke

Effect of Hypertonic Saline on Leukocyte Activity After Spinal Cord Injury

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Patricia A. Spera

Ischemic Preconditioning and Brain Tolerance: Temporal Histological and Functional Outcomes, Protein Synthesis Requirement, and Interleukin-1 Receptor Antagonist and Early Gene Expression

IL-10 reduces rat brain injury following focal stroke

Caspase-8 and Caspase-3 Are Expressed by Different Populations of Cortical Neurons Undergoing Delayed Cell Death after Focal Stroke in the Rat

Osteopontin and its Integrin Receptor α v β 3 Are Upregulated During Formation of the Glial Scar After Focal Stroke

Effect of Hypertonic Saline on Leukocyte Activity After Spinal Cord Injury

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Product

Resources

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Osteopontin and its Integrin Receptor α _v β ₃ Are Upregulated During Formation of the Glial Scar After Focal Stroke