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While transplanted neural stem cells (NSCs) have been shown to hold promise for cell replacement in models of a number of neurological disorders, these examples have typically been under conditions where the host cells become dysfunctional due to a cell autonomous etiology, i.e. a 'sick' cell within a relatively supportive environment. It has long been held that cell replacement in a toxic milieu would not likely be possible; donor cells would succumb in much the same way as endogenous cells had. Many metabolic diseases are characterized by this situation, suggesting that they would be poor targets for cell replacement therapies. On the other hand, models of such diseases could prove ideal for testing the capacity for cell replacement under such challenging conditions. In the twitcher (twi) mouse-as in patients with Krabbe or globoid cell leukodystrophy (GLD), for which it serves as an authentic model-loss of galactocerebrosidase (GalC) activity results in the accumulation of psychosine, a toxic glycolipid. Twi mice, like children with GLD, exhibit inexorable neurological deterioration presumably as a result of dysfunctional and ultimately degenerated oligodendrocytes with loss of myelin. It is believed that GLD pathophysiology is related to a psychosine-filled environment that kills not only host oligodendrocytes but theoretically any new cells placed into that milieu. Through the implantation of NSCs into the brains of both neonatal and juvenile/young adult twi mice, we have determined that widespread oligodendrocyte replacement and remyelination is feasible. NSCs appear to be intrinsically resistant to psychosine-more so in their undif-ferentiated state than when directed ex vivo to become oligodendrocytes. This resistance can be enhanced by engineering the NSCs to over-express GalC. Some twi mice grafted with such engineered NSCs had thicker white tracts and lived 2-3 times longer than expected. While their brains had detectable levels of GalC, it was probably more significant that their psychosine levels were lower than in twi mice that

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Global Gene and Cell Replacement Strategies Via Stem Cells

Park¹,

Palacino²,

Taylor³

et al.

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Ceroid-lipofuscinosis in Border Collie dogs

Taylor

Farrow

1988

Acta Neuropathol

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Five Border Collie dogs with ceroid-lipofuscinosis developed progressive neurological disease between 18 and 22 months of age. These dogs had behavioural abnormalities, gait and visual deficits and became progressively demented. All dogs examined had common ancestors. Light microscopic examination of tissues demonstrated extensive accumulation of granular, sudan black-staining autofluorescent material in the cytoplasm of neurones, retinal ganglion cells and some visceral cells. At ultrastructural examination inclusions of variable morphology were observed.

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Neural transplantation of human MSC and NT2 cells in the twitcher mouse model

et al. 2006

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Quantification of galactosylsphingosine in the twitcher mouse using electrospray ionization-tandem mass spectrometry

Whitfield

Sharp

Taylor

et al. 2001

Journal of Lipid Research

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Globoid cell leukodystrophy (Krabbe disease) is an autosomal recessive inherited neurodegenerative disorder caused by the deficiency of the lysosomal enzyme ␤ -galactosylceramidase. The pathogenesis of the disorder has been proposed to arise from the accumulation of the cytotoxic metabolite galactosylsphingosine (psychosine). The twitcher mouse is a naturally occurring murine model of globoid cell leukodystrophy. We have developed a rapid, sensitive, and specific mass spectrometric method for determining the galactosylsphingosine concentration in the tissues of twitcher mice. Galactosylsphingosine is extracted from the tissues in methanol, isolated using strong cationexchange and C18 solid-phase extraction chromatography, and then directly analyzed using electrospray ionizationtandem mass spectrometry. A lactosylsphingosine internal standard has been employed for quantification.The assay demonstrated significant accumulation of galactosylsphingosine in the brain, spinal cord, and kidney of twitcher mice. It is anticipated that this method may be of use in the monitoring of experimental therapies for globoid cell leukodystrophy. -Whitfield, P. D., P. C. Sharp, R. Taylor, and P. Meikle. Quantification of galactosylsphingosine in the twitcher mouse using electrospray ionization-tandem mass spectrometry.

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R. M. Taylor

Global gene and cell replacement strategies via stem cells

Intrinsic resistance of neural stem cells to toxic metabolites may make them well suited for cell non‐autonomous disorders: evidence from a mouse model of Krabbe leukodystrophy

Global Gene and Cell Replacement Strategies Via Stem Cells

Ceroid-lipofuscinosis in Border Collie dogs

Neural transplantation of human MSC and NT2 cells in the twitcher mouse model

Quantification of galactosylsphingosine in the twitcher mouse using electrospray ionization-tandem mass spectrometry

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