DBC2 Significantly Influences Cell-cycle, Apoptosis, Cytoskeleton and Membrane-trafficking Pathways Original Research Article

The tumor suppressor DBC2 belongs to a previously uncharacterized gene family, RHOBTB (Bric-a-brac, Tramtrack, Broad-complex). The biological roles of RHOBTB proteins, including DBC2, remain unclear. To understand the physiological functions of DBC2, a global approach was applied. Expression of DBC2 was manipulated in HeLa cells and RNA profiling of the cells was performed by microarray analyses. DBC2 was introduced into HeLa cells by a mammalian expression vector with a constitutive promoter. DBC2 knockdown was achieved by RNA interference with small interfering RNA. RNA profiles of these samples were performed by microarray analysis using Affymetrix GeneChip HG-U133A 2.0. The microarray data were analyzed by Microarray Suite 5.0 (MAS 5.0) and Robust Multichip Average (RMA). A list of genes whose expression was significantly altered (p<0.001) was generated and overlaid onto a cellular pathway map in the Ingenuity Systemsʹ Pathway Knowledge Base (Winterʹ04 Release). Two networks were found to react substantially to DBC2 expression; namely, more than half of participating genes are affected. One of the networks regulates cell growth through cell-cycle control and apoptosis. The other network is related to cytoskeleton and membrane trafficking. Our findings suggest that the biological roles of DBC2 are related directly and/or indirectly to these cellular machineries.