Laforin, a protein with many faces: glucan phosphatase, adapter protein, et alii

Lafora disease (LD) is a rare, fatal neurodegenerative disorder characterized by the accumulation of glycogen‐like inclusions in the cytoplasm of cells from most tissues of affected patients. One hundred years after the first description of these inclusions, the molecular bases underlying the proces...

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Bibliographic Details
Published in:The FEBS journal 2013-01, Vol.280 (2), p.525-537
Main Authors: Gentry, Matthew S, Romá‐Mateo, Carlos, Sanz, Pascual
Format: Article
Language:English
Subjects:
Adaptor Proteins, Signal Transducing - metabolism
Animals
autophagy
Biochemistry
Dual-Specificity Phosphatases - metabolism
endoplasmic reticulum stress
Enzymes
glucan phosphatase
Glucans - metabolism
glycogen
Glycogen - metabolism
Humans
Lafora bodies
Lafora disease
Lafora Disease - metabolism
laforin
malin
Models, Biological
Neurodegeneration
Pathogenesis
Phosphorylation
Protein Tyrosine Phosphatases, Non-Receptor - metabolism
Proteins
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Summary:Lafora disease (LD) is a rare, fatal neurodegenerative disorder characterized by the accumulation of glycogen‐like inclusions in the cytoplasm of cells from most tissues of affected patients. One hundred years after the first description of these inclusions, the molecular bases underlying the processes involved in LD physiopathology are finally being elucidated. The main cause of the disease is related to the activity of two proteins, the dual‐specificity phosphatase laforin and the E3‐ubiquitin ligase malin, which form a functional complex. Laforin is unique in humans, as it is composed of a carbohydrate‐binding module attached to a cysteine‐based catalytic dual‐specificity phosphatase domain. Laforin directly dephosphorylates glycogen, but other proteinaceous substrates, if they exist, have remained elusive. Recently, an emerging set of laforin‐binding partners apart from malin have been described, suggestive of laforin roles unrelated to its catalytic activity. Further investigations based on different transgenic mouse models have shown that the laforin–malin complex is also involved in other cellular processes, such as response to endoplasmic reticulum stress and misfolded protein clearance by the lysosomal pathway. However, controversial data and some missing links still make it difficult to assess the concrete relationship between glycogen deregulation and neuronal damage leading to the fatal symptoms observed in LD patients, such as myoclonic seizures and epilepsy. Consequently, clinical treatments are far from being achieved. In the present review, we focus on the knowledge of laforin biology, not only as a glucan phosphatase, but also as an adaptor protein involved in several physiological pathways. Laforin, a dual‐specificity protein phosphatase involved in Lafora disease (a fatal neurodegenerative disorder), directly dephosphorylates glycogen, but other proteinaceous substrates have remained elusive. Recently, an emerging set of laforin binding partners have been described, suggestive of laforin roles in other cellular processes such as response to ER stress and misfolded protein clearance by the lysosomal pathway.
ISSN:1742-464X
1742-4658
DOI:10.1111/j.1742-4658.2012.08549.x