Cell Death After Exposure to Subarachnoid Hemolysate Correlates Inversely With Expression of CuZn-Superoxide Dismutase  Editorial Comment

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Stroke. 2000;31:2450-2459

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	Animal models of human disease
	Apoptosis
	Acute Cerebral Hemorrhage
	Cerebral Aneurysm, AVM, & Subarachnoid hemorrhage

(Stroke. 2000;31:2450.)
© 2000 American Heart Association, Inc.

Original Contributions

Cell Death After Exposure to Subarachnoid Hemolysate Correlates Inversely With Expression of CuZn–Superoxide Dismutase

Paul G. Matz, MD; Jean-Christophe Copin, PhD Pak H. Chan, PhD

From the Department of Neurosurgery (P.G.M., J-C.C., P.H.C.), Departments of Neurology and Neurological Sciences (J-C.C., P.H.C.), and Program in Neurosciences (J-C.C., P.H.C), Stanford University School of Medicine; and Surgical Service, Palo Alto Veterans Affairs Health Care System (P.G.M.) (Calif).

Correspondence to Paul G. Matz, MD, Surgical Service (112N), Palo Alto VA Medical Center, 3801 Miranda Ave, Palo Alto, CA 94304. E-mail matzpg{at}yahoo.com

Background and Purpose—Subarachnoid hemolysate (SAH) hasbeen associated with oxidative brain injury, cell death, andapoptosis. We hypothesized that over-expression of CuZn–superoxidedismutase (CuZn-SOD) would protect against injury after SAH,whereas reduction of its expression would exacerbate injury.

Methods—Saline (n=16) or hemolysate (n=50) was injectedinto transgenic mice overexpressing CuZn-SOD (SOD1-Tg), CuZn-SOD heterozygousknockout mutants (SOD1+/-), and wild-type littermates (Wt).Mice were killed at 24 hours. Stress gene induction was evaluated byimmunocytochemistry and Western blotting for hemeoxygenase-1and heat shock protein 70. Apoptosis was evaluated by 3'-OHnick end-labeling and DNA gel electrophoresis. Cell death wasquantified through histological assessment after cresyl violet staining.

Results—Histological assessment demonstrated neocorticalcell death in regions adjacent to the blood injection. Overallcell death was reduced 43% in SOD1-Tg mutants (n=6) compared withWt littermates (n=6; P<0.02). In contrast, cell death wasincreased >40% in SOD1+/- mutants (n=6; P<0.05). Bothhemeoxygenase-1 and heat shock protein 70 were induced afterSAH. Apoptosis was also present after SAH, as evidenced by 3'-OHend-labeling and DNA laddering. However, the degree of stressgene induction and apoptosis did not vary between Wt, SOD1-Tg,and SOD1+/- mice.

Conclusions—The extent of CuZn-SOD expression in the cytosol correlateswith cell death after exposure to SAH in a manner separate fromapoptosis. Overexpression of CuZn-SOD may potentially be anavenue for therapeutic intervention.

Editorial Comment

R. Loch Macdonald, MD, PhD, Guest Editor

Section of Neurosurgery University of Chicago Medical Center Chicago, Illinois

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