Mutation in ATG5 reduces autophagy and leads to ataxia with developmental delay

Myungjin Kim; Erin Sandford; Damián Gatica; Yu Qiu; Xu Liu; Yumei Zheng; Brenda A. Schulman; Jishu Xu; Ian Semple; Seung‐Hyun Ro; Bo Young Kim; R. Nehir Mavioğlu; Aslıhan Tolun; András Jipa; Szabolcs Takáts; Manuéla Kárpáti; Jun Z. Li; Zühal Yapıcı; Gábor Juhász; Jun Hee Lee; Daniel J. Klionsky; Margit Burmeister

doi:10.7554/elife.12245

Mutation in ATG5 reduces autophagy and leads to ataxia with developmental delay

Myungjin Kim(University of Michigan), Erin Sandford(University of Michigan), Damián Gatica(University of Michigan), Yu Qiu(St. Jude Children's Research Hospital), Xu Liu(University of Michigan), Yumei Zheng(St. Jude Children's Research Hospital), Brenda A. Schulman(St. Jude Children's Research Hospital), Jishu Xu(University of Michigan), Ian Semple(University of Michigan), Seung‐Hyun Ro(University of Michigan), Bo Young Kim(University of Michigan), R. Nehir Mavioğlu(Boğaziçi University), Aslıhan Tolun(Boğaziçi University), András Jipa(Eötvös Loránd University), Szabolcs Takáts(Eötvös Loránd University), Manuéla Kárpáti(Eötvös Loránd University), Jun Z. Li(University of Michigan), Zühal Yapıcı(Istanbul University), Gábor Juhász(Eötvös Loránd University), Jun Hee Lee(University of Michigan), Daniel J. Klionsky(University of Michigan), Margit Burmeister(University of Michigan)

eLife

January 26, 2016

10.7554/elife.12245

Cited by 224Open Access

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Abstract

Autophagy is required for the homeostasis of cellular material and is proposed to be involved in many aspects of health. Defects in the autophagy pathway have been observed in neurodegenerative disorders; however, no genetically-inherited pathogenic mutations in any of the core autophagy-related (ATG) genes have been reported in human patients to date. We identified a homozygous missense mutation, changing a conserved amino acid, in ATG5 in two siblings with congenital ataxia, mental retardation, and developmental delay. The subjects' cells display a decrease in autophagy flux and defects in conjugation of ATG12 to ATG5. The homologous mutation in yeast demonstrates a 30-50% reduction of induced autophagy. Flies in which Atg5 is substituted with the mutant human ATG5 exhibit severe movement disorder, in contrast to flies expressing the wild-type human protein. Our results demonstrate the critical role of autophagy in preventing neurological diseases and maintaining neuronal health.

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