Specificity Protein 2 (Sp2) Is Essential for Mouse Development and Autonomous Proliferation of Mouse Embryonic Fibroblasts

Frank Baur,Imme Krüger,Nynke Gillemans,Lena Allweiss,Marion Vollmer,Kerstin Nau,Ton De Wit,Dennis Sadic,Hans-Peter Elsässer,Sjaak Philipsen,Guntram Suske

doi:10.1371/journal.pone.0009587

Abstract

BackgroundThe zinc finger protein Sp2 (specificity protein 2) is a member of the glutamine-rich Sp family of transcription factors. Despite its close similarity to Sp1, Sp3 and Sp4, Sp2 does not bind to DNA or activate transcription when expressed in mammalian cell lines. The expression pattern and the biological relevance of Sp2 in the mouse are unknown.Methodology/Principal FindingsWhole-mount in situ hybridization of mouse embryos between E7.5 and E9.5 revealed abundant expression in most embryonic and extra-embryonic tissues. In order to unravel the biological relevance of Sp2, we have targeted the Sp2 gene by a tri-loxP strategy. Constitutive Sp2null and conditional Sp2cko knockout alleles were obtained by crossings with appropriate Cre recombinase expressing mice. Constitutive disruption of the mouse Sp2 gene (Sp2null) resulted in severe growth retardation and lethality before E9.5. Mouse embryonic fibroblasts (MEFs) derived from Sp2null embryos at E9.5 failed to grow. Cre-mediated ablation of Sp2 in Sp2cko/cko MEFs obtained from E13.5 strongly impaired cell proliferation.Conclusions/SignificanceOur results demonstrate that Sp2 is essential for early mouse development and autonomous proliferation of MEFs in culture. Comparison of the Sp2 knockout phenotype with the phenotypes of Sp1, Sp3 and Sp4 knockout strains shows that, despite their structural similarity and evolutionary relationship, all four glutamine-rich members of the Sp family of transcription factors have distinct non-redundant functions in vivo.

Highlights

Specificity proteins (Sps) are transcription factors that control the expression of a variety of different genes including house keeping, tissue-specific, development-specific and cell-cycle-regulated genes
Conclusions/Significance: Our results demonstrate that Specificity Protein 2 (Sp2) is essential for early mouse development and autonomous proliferation of Mouse embryonic fibroblasts (MEFs) in culture
At TS11 and TS12 Sp2 expression is markedly increased in the embryonic tissues especially in the headfold

Summary

Introduction

Specificity proteins (Sps) are transcription factors that control the expression of a variety of different genes including house keeping, tissue-specific, development-specific and cell-cycle-regulated genes (reviewed in [1,2,3,4]). Nine different Sp proteins, designated Sp1 to Sp9, have been identified in mammals [4]. They share a highly conserved zinc finger DNA-binding domain comprising three zinc fingers at the C-terminus (ZNF), the adjacent Buttonhead-box (Btd-box: CXCPXC), and the Nterminal Sp-box, a stretch of conserved amino acids (SPLALLAATCSK/RIG/E) of unknown function. The zinc finger protein Sp2 (specificity protein 2) is a member of the glutamine-rich Sp family of transcription factors. The expression pattern and the biological relevance of Sp2 in the mouse are unknown

Methods

Results

Conclusion