Cellular and molecular characterization of the effects of retinoic acid on ST1 rat glioma cells

Gliomas are the most fatal central nervous system tumors, for which efficient treatment is still not available. To analyze the cellular and molecular bases for the action of the differentiating and anti-tumor agent retinoic acid (ATRA) in gliomas, the rat glioma STl cell line was used as a model. We proposed: a) to analyze the effects of ATRA in STl cells morphology, growth and apoptosis; b) to isolate, identify and characterize the ATRA-induced genes in STl cells. We demonstrated that ATRA promotes cellular flattening and inhibition of DNA synthesis and growth in agarose suspension, characterizing a complete tumoral to normal phenotypic reversion, which is not accompanied by apoptosis. Subtracted cDNA libraries were generated, using 2 different methodologies: RDA (Representational Difference Analysis) and SSH (Suppressive Subtractive Hybridization) followed by macroarray screening. This allowed identification of 10 ATRA induced genes which are up regulated by ATRA during STl cells phenotypic reversion, namely: p450rai2, spi3, vegf, cdv-3a, okl38, eya2, gem, retSDR1, aldose redutase-like and a new gene with 61 % identity with chicken phosphatase. This study characterized the cellular and molecular effects of ATRA upon STl cells and allowed identification of new targets for future development of new drugs and gene therapy. (AU)