The International Journal of Developmental Biology

Int. J. Dev. Biol. 57: 741 - 751 (2013)

https://doi.org/10.1387/ijdb.130193jg

Vol 57, Issue 9-10

Pitx3 directly regulates Foxe3 during early lens development

Open Access | Original Article | Published: 7 October 2013

Nafees Ahmad1, Muhammad Aslam2, Doris Muenster1, Marion Horsch3, Muhammad A. Khan1, Peter Carlsson4, Johannes Beckers3,5 and Jochen Graw*,1

Helmholtz Center Munich, 1Institute of Developmental Genetics and 3Institute of Experimental Genetics, Neuherberg, Germany, 2German Center for Neurodegenerative Diseases, Bonn, Germany, 4Department of Chemistry and Molecular Biology, University of Gothenburg, Gothenburg, Sweden and 5Chair of Experimental Genetics, Technical University Munich, Freising-Weihenstephan, Germany.

Abstract

Pitx3 is a bicoid-related homeodomain transcription factor critical for the development of the ocular lens, mesencephalic dopaminergic neurons and skeletal muscle. In humans, mutations in PITX3 are responsible for cataracts and anterior segment abnormalities of varying degree; polymorphisms are associated with Parkinson’s disease. In aphakia (ak) mice, two deletions in the promoter region of Pitx3 cause abnormal lens development. Here, we investigated systematically the role of Pitx3 in lens development including its molecular targets responsible for the ak phenotype. We have shown that ak lenses exhibit reduced proliferation and aberrant fiber cell differentiation. This was associated with loss of Foxe3 expression, complete absence of Prox1 expression, reduced expression of epsilon-tubulin and earlier expression of gamma-crystallin during lens development. Using EMSA and ChIP assays, we demonstrated that Pitx3 binds to an evolutionary conserved bicoid-binding site on the 5’-upstream region of Foxe3. Finally, Pitx3 binding to 5’-upstream region of Foxe3 increased transcriptional activity significantly in a cell-based reporter assay. Identification of Foxe3 as a transcriptional target of Pitx3 explains at least in part some of the phenotypic similarities of the ak and dyl mice (dysgenic lens, a Foxe3 allele). These findings enhance our understanding of the molecular cascades which subserve lens development.

Keywords

Pitx3, aphakia, lens development, Prox1, Foxe3

Full text in web format is not available for this article. Please download the PDF version.