Human Synaptobrevin-like 1 Gene Basal Transcription Is Regulated through the Interaction of Selenocysteine tRNA Gene Transcription Activating Factor-Zinc Finger 143 Factors with Evolutionary Conserved Cis-elements

Francesca Di Leva,Maria Immacolata Ferrante,Francesca Demarchi,Antonella Caravelli,Maria Rosaria Matarazzo,Mauro Giacca,Michele D'Urso,Maurizio D'Esposito,Annamaria Franzé

doi:10.1074/jbc.m308140200

Abstract

The synaptobrevin-like 1 (SYBL1) gene is ubiquitously expressed and codes for an unusual member of the v-SNAREs molecules implicated in cellular exocytosis. This X-linked gene has the peculiarity of also being present on the Y chromosome in a transcriptional inactive status. Moreover, although ubiquitous, the function of SYBL1 is prominent in specific tissues, such as brain. As a first insight into the molecular mechanisms controlling SYBL1 expression, in this report we describe the extent and role of SYBL1 upstream regions and characterize the binding of trans-acting factors. In vivo foot-printing experiments identify three protected regions. Band shift and transient reporter gene assays indicate a strong role of two of these evolutionary conserved regions in regulating SYBL1 transcription. Because one site is the classical CAAT box, we characterized the binding to the other site of the mammalian homologues of the selenocysteine tRNA gene transcription activating factor (Staf) family, zinc-finger transcription factors, and their role in regulating SYBL1 expression. The results reported here clarify that a Staf-zinc finger family factor, together with the CAAT factor, is the major nuclear protein bound to the SYBL1 promoter region and is responsible for its regulation in HeLa cells, thus identifying the basic control of SYBL1 transcription. In vivo binding of Staf proteins to the SYBL1 promoter is confirmed by chromatin immunoprecipitation assays. Our results identify a fourth mRNA promoter stimulated by a member of the Staf-zinc finger family, the function of which on mRNA polymerase II promoters is still very poorly understood.

Highlights

Synaptobrevin-like 1 (SYBL1),1 a highly conserved gene [1], is ubiquitously expressed and codes for an unusual member of
selenocysteine tRNA gene transcription activating factor (Staf)-ZNF Binds to the SYBL1 Gene Promoter—To establish whether endogenous proteins from HeLa cells are able to bind to the Staf-ZNF site in the SYBL1 promoter, nuclear extracts were incubated in the presence of a labeled probe containing the Staf-ZNF sequence (Fig. 4)
By in vivo footprinting we have identified three cis-acting elements, a Staf-ZNF site, a canonical CAAT box, and a third unknown binding site that we named SYBL1-X (Figs. 1 and 2) because at the moment the data present in the international transcription factor databases do not suggest which element can bind to this site

Summary

Introduction

Synaptobrevin-like 1 (SYBL1),1 a highly conserved gene [1], is ubiquitously expressed and codes for an unusual member of. The results reported here clarify that a Staf-zinc finger family factor, together with the CAAT factor, is the major nuclear protein bound to the SYBL1 promoter region and is responsible for its regulation in HeLa cells, identifying the basic control of SYBL1 transcription.

Results

Conclusion