Human Neural Stem Cell Transplantation Promotes Functional Recovery in Rats With Experimental Intracerebral Hemorrhage

doi:10.1161/01.STR.0000083698.20199.1F

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on July 24, 2003

Stroke. 2003
Published online before print July 24, 2003, doi: 10.1161/01.STR.0000083698.20199.1F

A more recent version of this article appeared on September 1, 2003

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Transplantation

Submitted on March 8, 2003
Accepted on April 23, 2003

Human Neural Stem Cell Transplantation Promotes Functional Recovery in Rats With Experimental Intracerebral Hemorrhage

Sang-Wuk Jeong MD; Kon Chu MD; Keun-Hwa Jung MD; Seung U. Kim MD, PhD; Manho Kim MD, PhD; and Jae-Kyu Roh MD, PhD^*

From the Department of Neurology and Neural Stem Cell Laboratory in Clinical Research Institute, Seoul National University Hospital, and Neuroscience Research Institute of SNUMRC, Seoul, Korea (K.C., K.-H.J., M.K., J.-K.R.); Department of Neurology, Ilsan Paik Hospital, Inje University, Ilsan, Korea (S.-W.J.); and Brain Disease Research Center, Ajou University, Suwon, Korea, and Division of Neurology, Department of Medicine, University of British Columbia, Vancouver, Canada (S.U.K.).

^* To whom correspondence should be addressed. E-mail: rohjk{at}snu.ac.kr.

Background and Purpose--Cell transplantation has been used toreduce behavioral deficit in cerebral ischemia. However, thereis no report about cell transplantation in experimental intracerebralhemorrhage (ICH). We hypothesize that intravenously transplantedhuman neural stem cells (NSCs) can migrate and differentiateinto neurons or glial cells, thereby improving functional outcomein ICH.

Methods--Experimental ICH was induced by intrastriataladministration of bacterial collagenase in adult rats. One dayafter surgery, the rats were randomly divided into 2 groupsto receive intravenously either immortalized Lac z-positivehuman NSCs (5x10⁶ cells in 500 µL, n=12) or the same amountof saline (n=13). The animals were evaluated for 8 weeks withmodified limb placing and rotarod tests. Transplanted NSCs weredetected by X-gal histochemistry or ${beta}$ -gal immunohistochemistrywith double labeling of GFAP, NeuN, neurofilament, or CNPase.

Results--Intravenouslytransplanted NSCs migrated selectively to the perihematomalareas and differentiated into neurons ( ${approx}$ 10% of ${beta}$ -gal⁺ cells) andastrocytes ( ${approx}$ 75%). The NSC-transplanted group showed better functionalperformance on rotarod test after 2 weeks and on modified limbplacing test after 5 weeks compared with the control group (P<0.05),and these effects persisted for up to 8 weeks. There was nodifference in the final hemispheric area between the 2 groups.

Conclusions--Intravenouslytransplanted NSCs can enter the rat brain with ICH, survive,migrate, and improve functional recovery. Transplantation ofhuman NSCs can be used to restore neurological deficits in experimentalICH.

Key words: intracerebral hemorrhage • stem cells • transplantation • rats

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