Hemoglobin-Induced Cytotoxicity in Rat Cerebral Cortical Neurons: Caspase Activation and Oxidative Stress

doi:10.1161/01.STR.0000020121.41527.5D

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Stroke. 2002;33:1882-1888
doi: 10.1161/01.STR.0000020121.41527.5D

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	Acute Cerebral Hemorrhage

(Stroke. 2002;33:1882.)
© 2002 American Heart Association, Inc.

Original Contributions

Hemoglobin-Induced Cytotoxicity in Rat Cerebral Cortical Neurons

Caspase Activation and Oxidative Stress

Xiaoying Wang, PhD; Tatsuro Mori, MD, PhD; Toshihisa Sumii, MD Eng H. Lo, PhD

From the Neuroprotection Research Laboratory, Departments of Neurology and Radiology, Massachusetts General Hospital, and Program in Neuroscience, Harvard Medical School, Charlestown, Mass.

Correspondence to Xiaoying Wang, PhD, Neuroprotection Research Laboratory, Departments of Neurology and Radiology, Harvard Medical School, MGH East 149-2401, Charlestown, MA 02129. E-mail wangxi{at}helix.mgh.harvard.edu

Background and Purpose— Apoptotic-like pathways may contributeto brain cell death after intracerebral hemorrhage. In thisstudy, we used a simplified in vitro model of hemoglobin neurotoxicityto map the caspase cascades involved and to document the roleof oxidative stress.

Methods— Primary neuronal cultures were obtained fromrat cerebral cortex and exposed to hemoglobin to induce celldeath. Cytotoxicity was assessed via measurements of mitochondrialviability (MTT assay) and lactate dehydrogenase (LDH assay).Activation of caspase-3, -8, and -9 was measured by Westernblot and enzyme activity assays. Various caspase inhibitors(zVADfmk, zDEVDfmk, zIETDfmk, and zLEHDfmk) were tested forneuroprotective efficacy. The role of oxidative stress was assessedwith the use of U83836E as a potent scavenger of free radicals.

Results— Exposure of primary cortical neurons to hemoglobininduced a dose- and time-dependent cytotoxicity. Western blotsshowed upregulation of cleaved caspase-3. Enzyme assays showedan increase in caspase-9–like and caspase-3–likeactivity. However, caspase inhibition did not result in neuroprotection.In contrast, the free radical scavenger U83836E significantlyreduced hemoglobin-induced neuronal death. Combination treatmentwith both U83836E and the broad spectrum caspase inhibitor zVADfmkdid not yield additional protection.

Conclusions— Upstream and downstream caspases were upregulatedafter hemoglobin-induced neurotoxicity in vitro, but only anantioxidant approach with a potent free radical scavenger significantlyimproved neuronal survival. These data suggest that in additionto the activation of caspase cascades, parallel pathways ofoxidative stress may predominate in this model of hemoglobinneurotoxicity.

Key Words: apoptosis • cerebral hemorrhage • free radicals • neuroprotection • stroke • rats

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