Inhibiting glycogen synthesis prevents lafora disease in a mouse model

Bartholomew A. Pederson; Julie Turnbull; Jonathan R. Epp; Staci A. Weaver; Xiaochu Zhao; Nela Pencea; Peter J. Roach; Paul W. Frankland; Cameron A. Ackerley; Berge A. Minassian

doi:10.1002/ana.23899

Inhibiting glycogen synthesis prevents lafora disease in a mouse model

Bartholomew A. Pederson, Julie Turnbull, Jonathan R. Epp, Staci A. Weaver, Xiaochu Zhao, Nela Pencea, Peter J. Roach, Paul W. Frankland, Cameron A. Ackerley, Berge A. Minassian

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81 Scopus citations

Abstract

Lafora disease (LD) is a fatal progressive myoclonus epilepsy characterized neuropathologically by aggregates of abnormally structured glycogen and proteins (Lafora bodies [LBs]), and neurodegeneration. Whether LBs could be prevented by inhibiting glycogen synthesis and whether they are pathogenic remain uncertain. We genetically eliminated brain glycogen synthesis in LD mice. This resulted in long-term prevention of LB formation, neurodegeneration, and seizure susceptibility. This study establishes that glycogen synthesis is requisite for LB formation and that LBs are pathogenic. It opens a therapeutic window for potential treatments in LD with known and future small molecule inhibitors of glycogen synthesis.

Original language	English (US)
Pages (from-to)	297-300
Number of pages	4
Journal	Annals of Neurology
Volume	74
Issue number	2
DOIs	https://doi.org/10.1002/ana.23899
State	Published - Aug 2013

ASJC Scopus subject areas

Neurology
Clinical Neurology

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title = "Inhibiting glycogen synthesis prevents lafora disease in a mouse model",

abstract = "Lafora disease (LD) is a fatal progressive myoclonus epilepsy characterized neuropathologically by aggregates of abnormally structured glycogen and proteins (Lafora bodies [LBs]), and neurodegeneration. Whether LBs could be prevented by inhibiting glycogen synthesis and whether they are pathogenic remain uncertain. We genetically eliminated brain glycogen synthesis in LD mice. This resulted in long-term prevention of LB formation, neurodegeneration, and seizure susceptibility. This study establishes that glycogen synthesis is requisite for LB formation and that LBs are pathogenic. It opens a therapeutic window for potential treatments in LD with known and future small molecule inhibitors of glycogen synthesis.",

author = "Pederson, {Bartholomew A.} and Julie Turnbull and Epp, {Jonathan R.} and Weaver, {Staci A.} and Xiaochu Zhao and Nela Pencea and Roach, {Peter J.} and Frankland, {Paul W.} and Ackerley, {Cameron A.} and Minassian, {Berge A.}",

year = "2013",

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T1 - Inhibiting glycogen synthesis prevents lafora disease in a mouse model

AU - Pederson, Bartholomew A.

AU - Turnbull, Julie

AU - Epp, Jonathan R.

AU - Weaver, Staci A.

AU - Zhao, Xiaochu

AU - Pencea, Nela

AU - Roach, Peter J.

AU - Frankland, Paul W.

AU - Ackerley, Cameron A.

AU - Minassian, Berge A.

PY - 2013/8

Y1 - 2013/8

N2 - Lafora disease (LD) is a fatal progressive myoclonus epilepsy characterized neuropathologically by aggregates of abnormally structured glycogen and proteins (Lafora bodies [LBs]), and neurodegeneration. Whether LBs could be prevented by inhibiting glycogen synthesis and whether they are pathogenic remain uncertain. We genetically eliminated brain glycogen synthesis in LD mice. This resulted in long-term prevention of LB formation, neurodegeneration, and seizure susceptibility. This study establishes that glycogen synthesis is requisite for LB formation and that LBs are pathogenic. It opens a therapeutic window for potential treatments in LD with known and future small molecule inhibitors of glycogen synthesis.

AB - Lafora disease (LD) is a fatal progressive myoclonus epilepsy characterized neuropathologically by aggregates of abnormally structured glycogen and proteins (Lafora bodies [LBs]), and neurodegeneration. Whether LBs could be prevented by inhibiting glycogen synthesis and whether they are pathogenic remain uncertain. We genetically eliminated brain glycogen synthesis in LD mice. This resulted in long-term prevention of LB formation, neurodegeneration, and seizure susceptibility. This study establishes that glycogen synthesis is requisite for LB formation and that LBs are pathogenic. It opens a therapeutic window for potential treatments in LD with known and future small molecule inhibitors of glycogen synthesis.

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Inhibiting glycogen synthesis prevents lafora disease in a mouse model

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