A molecular pathogenesis for transcription factor associated poly-alanine tract expansions

doi:10.1093/hmg/ddh277

Human Molecular Genetics Advance Access originally published online on August 27, 2004
Human Molecular Genetics 2004 13(20):2351-2359; doi:10.1093/hmg/ddh277

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A molecular pathogenesis for transcription factor associated poly-alanine tract expansions

Andrea N. Albrecht¹, Uwe Kornak¹, Annett Böddrich², Kathrin Süring¹, Peter N. Robinson¹, Asita C. Stiege¹, Rudi Lurz¹, Sigmar Stricker¹, Erich E. Wanker² and Stefan Mundlos¹^,*

¹Max-Planck Institute for Molecular Genetics and Institute for Medical Genetics, Charité, Berlin, Germany and ²Department of Neuroproteomics, Max-Delbrück Center, Berlin, Germany

Received July 3, 2004; Accepted August 20, 2004

Poly-alanine (Ala) tract expansions in transcription factorshave been shown to be associated with human birth defects suchas malformations of the brain, the digits, and other structures.Expansions of a poly-Ala tract from 15 to 22 (+7)–29 (+14)Ala in Hoxd13, for example, result in the limb malformationsynpolydactyly in humans and in mice [synpolydactyly homolog(spdh)]. Here, we show that an increase of the Ala repeat abovea certain length (22 Ala) is associated with a shift in thelocalization of Hoxd13 from nuclear to cytoplasmic, where itforms large amorphous aggregates. We observed similar aggregatesfor expansion mutations in SOX3, RUNX2 and HOXA13, pointingto a common mechanism. Cytoplasmic aggregation of mutant Hoxd13protein is influenced by the length of the repeat, the levelof expression and the efficacy of degradation by the proteasome.Heat shock proteins Hsp70 and Hsp40 co-localize with the aggregatesand activation of the chaperone system by geldanamycin leadsto a reduction of aggregate formation. Furthermore, recombinantmutant Hoxd13 protein forms aggregates in vitro demonstratingspontaneous misfolding of the protein. We analyzed the mousemutant spdh, which harbors a +7 Ala expansion in Hoxd13 similarto the human synpolydactyly mutations, as an in vivo model andwere able to show a reduction of mutant Hoxd13 and, in contrastto wt Hoxd13, a primarily cytoplasmic localization of the protein.Our results provide evidence that poly-Ala repeat expansionsin transcription factors result in misfolding, degradation andcytoplasmic aggregation of the mutant proteins.

^* To whom correspondence should be addressed at: Max-Planck-Institute for Molecular Genetics, FG Development and Disease, Ihnestrasse 73, 14195 Berlin, Germany. Tel: +49 84131263; Fax: +49 84131385; Email: mundlos{at}molgen.mpg.de

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