Large Scale RNAi Screen Reveals That the Inhibitor of DNA Binding 2 (ID2) Protein Is Repressed by p53 Family Member p63 and Functions in Human Keratinocyte Differentiation

Ning Wu,David Castel,Marie-Anne Debily,Maria Alessandra Vigano,Olivier Alibert,Roberto Mantovani,Kristina Iljin,Paul-Henri Romeo,Xavier Gidrol

doi:10.1074/jbc.m110.169433

Abstract

The inhibitor of DNA binding 2, dominant negative helix-loop-helix protein, ID2, acts as an oncogene and elevated levels of ID2 have been reported in several malignancies. Whereas some inducers of the ID2 gene have been characterized, little is known regarding the proteins capable to repress its expression. We developed siRNA microarrays to perform a large scale loss-of-function screen in human adult keratinocytes engineered to express GFP under the control of the upstream region of ID2 gene. We screened the effect of siRNA-dependent inhibition of 220 cancer-associated genes on the expression of the ID2::GFP reporter construct. Three genes NBN, RAD21, and p63 lead to a repression of ID2 promoter activity. Strikingly NBN and RAD21 are playing on major role in cell cycle progression and mitosis arrest. These results underline the pregnant need to silence ID2 expression at transcript level to promote cell cycle exit. Central to this inhibitory mechanism we find p63, a key transcription factor in epithelial development and differentiation, which binds specific cis-acting sequence within the ID2 gene promoter both in vitro and in vivo. P63 would not suppress ID2 expression, but would rather prevent excessive expression of that protein to enable the onset of keratinocyte differentiation.

Highlights

Instance, ID proteins interact with the E transcription factors, including E12, E47, and E2-2 [4], as well as members of the Ets family [5]
Despite slight variations in cell number between spots, a significant decrease in the GFP-specific signal was observed within spots containing a GFP-targeted small interfering RNA (siRNA) compared with spots containing scrambled siRNA
The use of scrambled siRNA as a negative control showed that cell viability and GFP expression were not affected by reverse transfection of nonspecific siRNA, as indicated by the equal number of cells growing within spots and in the “transfection-free” area

Summary

Introduction

Instance, ID proteins interact with the E transcription factors, including E12, E47, and E2-2 [4], as well as members of the Ets family [5]. We developed siRNA microarrays to perform a large scale lossof-function screen in human adult keratinocytes engineered to express GFP under the control of the upstream region of ID2 gene. We monitored the effect of siRNA-dependent specific inhibition of 220 genes involved in cancer, in human keratinocytes stably expressing an ID2 promoter::GFP reporter construct.

Results

Conclusion