Differential aggregation and functional impairment induced by polyalanine expansions in FOXL2, a transcription factor involved in cranio-facial and ovarian development

doi:10.1093/hmg/ddm373

Human Molecular Genetics Advance Access originally published online on December 24, 2007
Human Molecular Genetics 2008 17(7):1010-1019; doi:10.1093/hmg/ddm373

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Differential aggregation and functional impairment induced by polyalanine expansions in FOXL2, a transcription factor involved in cranio-facial and ovarian development

Lara Moumné¹^,2^,3, Aurélie Dipietromaria¹^,2^,3, Frank Batista¹^,2^,3, Ayhan Kocer⁴, Marc Fellous¹^,2^,3^,5, Eric Pailhoux⁴ and Reiner A. Veitia¹^,2^,3^,5^,*

¹ Department of Genetics and Development, INSERM U567, Team21 ‘Genomics and Epigenetics of Placental Diseases’, ² CNRS UMR8104 ³ Faculté de Médecine, Institut Cochin, Université Paris Descartes, Cochin-Port-Royal, 24 rue du Faubourg St-Jacques, Paris 75014, France ⁴ INRA-BDR, Jouy en Josas, France ⁵ Université Denis Diderot, Paris VII, Paris, France

^* To whom correspondence should be addressed. Email: veitia{at}cochin.inserm.fr

Received November 26, 2007; Accepted December 19, 2007

Polyalanine (polyAla) tract expansions have been associatedwith an increasing number of human diseases. Here, we have undertakena functional study of the effects of polyAla expansions in thecontext of the transcription factor FOXL2, involved in cranio-facialand ovarian development. Using two cellular models, we showthat FOXL2 polyAla expansions lead to protein mislocalizationand aggregation in a length-dependent manner. The fraction ofcells containing cytoplasmic staining displays a sigmoidal relationshipwith respect to the length of the polyAla tract, suggestingthe existence of a threshold length above which protein mislocalizationoccurs. The existence of such a threshold might be rationalizedif we consider that the longer the polyAla tract is, the higherits tendency to misfolding or to inducing spurious interactionswith cytoplasmic components. To study the intranuclear dynamicsof polyAla-expanded FOXL2, we performed fluorescence recoveryafter photobleaching experiments. The most unexpected resultconcerned the pathogenic protein containing 19 Ala residuesin the run, which was virtually immobile, although this variantdoes not present a classical aggregation pattern. Luciferaseassays and real time RT–PCR of many potential target genesshowed that polyAla expansions induce different losses of activityaccording to the target promoters tested. We provide molecularexplanations for these findings. Although our main focus isthe mechanisms of pathogenesis of polyAla-expanded proteins,we discuss the potential relevance of polyAla length variationin micro- and macroevolution because polyAla-containing proteinstend to be transcription factors.

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