Modulation of functional properties of laforin phosphatase by alternative splicing reveals a novel mechanism for the EPM2A gene in Lafora progressive myoclonus epilepsy

doi:10.1093/hmg/ddn199

Human Molecular Genetics Advance Access published online on July 10, 2008
Human Molecular Genetics, doi:10.1093/hmg/ddn199

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Modulation of functional properties of laforin phosphatase by alternative splicing reveals a novel mechanism for the EPM2A gene in Lafora progressive myoclonus epilepsy

Deepti Dubey and Subramaniam Ganesh^*

Department of Biological Sciences and Bioengineering, Indian Institute of Technology, Kanpur, India

^* Corresponding author: Subramaniam Ganesh, Ph.D. Department of Biological Sciences and Bioengineering, Indian Institute of Technology Kanpur 208016, India Tel: +91-512-259-4040 Fax: +91-512-259-4010 Email: sganesh{at}iitk.ac.in

Received June 3, 2008; Revised July 8, 2008; Accepted July 8, 2008

The EPM2A gene, encoding the dual-phosphatase laforin, is mutatedin a fatal form of progressive myoclonus epilepsy known as Laforadisease (LD). The EPM2A gene, by differential splicing of itstranscripts, is known to encode two laforin isoforms havingdistinct carboxyl termini; a major isoform localized in thecytoplasm (laf331), and a minor isoform that is targeted tothe nucleus as well (laf317). We show here that the two laforinisoforms interact with each other and form homo and heterodimers.The homodimer of laf331 display robust phosphatase activitywhereas the laf317 homodimer and the laf331-laf317 heterodimerlack phosphatase activity. Laf331 binds to glycogen only asa monomeric form. Laf317, on the other hand, was unable to bindto glycogen as a homodimer or as a heterodimer. Similar to laf331,laf317 interacts with and functions as a substrate for the malinubiquitin ligase – a product of another gene defectivein LD. Malin, however, shows higher affinity towards laf331as compared to laf317. We have also tested the effect of LD-associatedmutations, whose effects are restricted to the laf331 isoform,on laf331-laf317 interaction. Two such mutations are known andboth abolish the interactions between laf317 and laf331 andtheir heterodimerization, but not homodimerization of laf331.Thus, laf317 could function as a dominant-negative regulatorof laf331, and laf331-specific mutations might affect laf317functions as well. Thus, our findings reveal a novel mechanismfor the EPM2A gene function, regulated by alternative splicing,in normal as well as disease conditions.

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