Use of proteomics and functional genomics to unravel the molecular mechanisms of retinoic acid as an anti-tumor agent

Control of tumor cell proliferation is an objective that has been pursued for decades, with modest or no success in the majority of the cases. Among the several kinds of tumors that develop in humans, some gliomas are considered the most fatal, due to the lack of alternatives for effective treatment. Anti-tumor agents, such as glucocorticoids (GC) or all-trans retinoic acid (ATRA) are used in combination with other drugs in some glioma cases. However, besides being very known molecules, their anti-tumor mechanism is not completely understood. In order to address this problem, our laboratory decided to isolate and characterize genes regulated by these agents, using cellular models, such as the C6 and ST1 rat glioma cell lines and the T98G and A172 human glioma models. The C6 cell line is fully transformed and tumoral in culture and responds to GC or ATRA treatment, showing growth inhibition and cell flattening. The ST1 variant is hyper-responsive to the treatment with GC and, apparently, more responsive to the treatment with ATRA, when compared to C6. Upon treatment with these agents, it undergoes a complete tumoral to normal phenotypic reversion, characterized by an increase in doubling time, decrease of saturation density in culture, recovery of dependence of serum factors for proliferation and anchorage for colony formation, besides inhability to form tumors in nude mice and morphological changes. Here we present the efforts undertaken towards better understanding of the molecular changes induced by ATRA in ST1 cells. Aiming at the correlation of the data obtained from a rat model with human models, all the studies were performed in parallel with the T98G human glioma cell model. To this end, two study methodologies were applied: a) proteomic analysis through bidimensional electrophoresis coupled to MALDI-TOF identification, to generate protein expression profiles in the presence and absence of ATRA, allowing comparison and identification of proteins modulated in the process; b) construction of plasmid and retroviral vectors to overexpress or block the expression of a serine protease inhibitor (serpinb6), previously described in the laboratory as being potentially involved in the process of tumoral to normal phenotypic reversion promoted by ATRA in ST1. The proteomics approach allowed the identification of seven proteins potentially regulated by ATRA in ST1, such as the proteins involved in cell proliferation (c-Fos and SCGF), cytoskeleton organization (actin and tubulin), cellular stress (GRP78 and Hsc70) and the tumor related protein TCTP, classically repressed in tumoral to normal reversions, and related to the three groups of proteins mentioned above. By using plasmid and retroviral vectors it was possible to obtain recombinant cell populations over-expressing serpinb6. The phenotype analysis of these populations indicated that serpinb6 can also have cell protection effects in ST1, which would classify it together with GRP78 and Hsc70 as an anti-stress protein highlighting the importance of this protein class in the process studied. (AU)