Hereditary Parkinsonism with Dementia is Caused by Mutations in ATP13A2, Encoding a Lysosomal Type 5 P-type ATPase

Overview

Journal Nat Genet

Specialty Genetics

Date 2006 Sep 12

PMID 16964263

Citations 487

Authors

Alfredo Ramirez

Andre Heimbach

Jan Grundemann

Barbara Stiller

Dan Hampshire

L Pablo Cid

Ingrid Goebel

Ammar F Mubaidin

Abdul-Latif Wriekat

Jochen Roeper

Amir Al-Din

Axel M Hillmer

Meliha Karsak

Birgit Liss

C Geoffrey Woods

Maria I Behrens

Christian Kubisch

Affiliations

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Abstract

Neurodegenerative disorders such as Parkinson and Alzheimer disease cause motor and cognitive dysfunction and belong to a heterogeneous group of common and disabling disorders. Although the complex molecular pathophysiology of neurodegeneration is largely unknown, major advances have been achieved by elucidating the genetic defects underlying mendelian forms of these diseases. This has led to the discovery of common pathophysiological pathways such as enhanced oxidative stress, protein misfolding and aggregation and dysfunction of the ubiquitin-proteasome system. Here, we describe loss-of-function mutations in a previously uncharacterized, predominantly neuronal P-type ATPase gene, ATP13A2, underlying an autosomal recessive form of early-onset parkinsonism with pyramidal degeneration and dementia (PARK9, Kufor-Rakeb syndrome). Whereas the wild-type protein was located in the lysosome of transiently transfected cells, the unstable truncated mutants were retained in the endoplasmic reticulum and degraded by the proteasome. Our findings link a class of proteins with unknown function and substrate specificity to the protein networks implicated in neurodegeneration and parkinsonism.

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