Aspartoacylase is restricted primarily to myelin synthesizing cells in the CNS: Therapeutic implications for Canavan disease

Batool F. Kirmani; David M. Jacobowitz; Abraham T. Kallarakal; M. A.A. Namboodiri

doi:10.1016/S0169-328X(02)00490-4

Aspartoacylase is restricted primarily to myelin synthesizing cells in the CNS: Therapeutic implications for Canavan disease

Batool F. Kirmani
, David M. Jacobowitz
, Abraham T. Kallarakal
, M. A.A. Namboodiri

Anatomy, Physiology, and Genetics

Research output: Contribution to journal › Article › peer-review

56 Scopus citations

Abstract

Canavan disease is a devastating neurodegenerative childhood disease caused by mutations in aspartoacylase, an enzyme that deacetylates N-acetylaspartate to generate free acetate in the brain. Localization of aspartoacylase in different cell types in the rat brain was examined in an attempt to understand the pathogenesis of Canavan disease. In situ hybridization histochemistry with a riboprobe based on murine aspartoacylase cDNA was used in this study. The hybridization signal was detectable primarily in the myelin-synthesizing cells, namely oligodendroglia. These findings provide strong additional support for insufficient myelin synthesis as the pathogenic basis of Canavan disease and make a compelling case for acetate supplementation as a simple and noninvasive therapy for this fatal disease with no treatment.

Original language	English
Pages (from-to)	176-182
Number of pages	7
Journal	Molecular Brain Research
Volume	107
Issue number	2
DOIs	https://doi.org/10.1016/S0169-328X(02)00490-4
State	Published - 15 Nov 2002

Keywords

Acetate deficiency hypothesis
Acetate supplementation therapy
In situ hybridization
N-Acetylaspartate
Oligodendroglia

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10.1016/S0169-328X(02)00490-4

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title = "Aspartoacylase is restricted primarily to myelin synthesizing cells in the CNS: Therapeutic implications for Canavan disease",

abstract = "Canavan disease is a devastating neurodegenerative childhood disease caused by mutations in aspartoacylase, an enzyme that deacetylates N-acetylaspartate to generate free acetate in the brain. Localization of aspartoacylase in different cell types in the rat brain was examined in an attempt to understand the pathogenesis of Canavan disease. In situ hybridization histochemistry with a riboprobe based on murine aspartoacylase cDNA was used in this study. The hybridization signal was detectable primarily in the myelin-synthesizing cells, namely oligodendroglia. These findings provide strong additional support for insufficient myelin synthesis as the pathogenic basis of Canavan disease and make a compelling case for acetate supplementation as a simple and noninvasive therapy for this fatal disease with no treatment.",

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T1 - Aspartoacylase is restricted primarily to myelin synthesizing cells in the CNS

T2 - Therapeutic implications for Canavan disease

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AU - Jacobowitz, David M.

AU - Kallarakal, Abraham T.

AU - Namboodiri, M. A.A.

PY - 2002/11/15

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AB - Canavan disease is a devastating neurodegenerative childhood disease caused by mutations in aspartoacylase, an enzyme that deacetylates N-acetylaspartate to generate free acetate in the brain. Localization of aspartoacylase in different cell types in the rat brain was examined in an attempt to understand the pathogenesis of Canavan disease. In situ hybridization histochemistry with a riboprobe based on murine aspartoacylase cDNA was used in this study. The hybridization signal was detectable primarily in the myelin-synthesizing cells, namely oligodendroglia. These findings provide strong additional support for insufficient myelin synthesis as the pathogenic basis of Canavan disease and make a compelling case for acetate supplementation as a simple and noninvasive therapy for this fatal disease with no treatment.

KW - Acetate deficiency hypothesis

KW - Acetate supplementation therapy

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KW - N-Acetylaspartate

KW - Oligodendroglia

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Aspartoacylase is restricted primarily to myelin synthesizing cells in the CNS: Therapeutic implications for Canavan disease

Abstract

Keywords

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