The role of Trp53 in the transcriptional response to ionizing radiation in the developing brain.

Brain formation results from a series of well-timed consecutive waves of cellular proliferation, migration and differentiation. Acute irradiation during pregnancy selectively interferes with these events to result in malformations such as microcephaly, reduced cortical thickness and mental retardation. In the present study we performed a straight-through cDNA-microarray analysis of the developing mouse brain at embryonic day E13, 3 h after in utero exposure to 50 cGy X-radiation. This dataset was used as an indication of genes involved in different pathways that are activated upon early radiation exposure, and for further evaluation using quantitative PCR (qPCR). Microarray and qPCR data revealed that the main activated pathways in irradiated wild-type embryos are involved in the regulation of a p53-mediated pathway that may lead to cell cycle delay/arrest and increased levels of apoptosis. To define whether the transcriptional radiation response was solely p53 mediated, we analysed the expression of cell cycle regulating genes in a Trp53 null mutant. The modulated expression of cell cycle regulating genes such as cyclins and Cdk genes indicated the induction of a cell cycle arrest, without evidence for the onset of apoptosis. Additional gene-expression studies have shown that various E2F transcription factors may be involved in this event. Together, these results provide a detailed view of the different p53-related mechanisms that are triggered in response to ionizing radiation in the developing brain.

Gene expression induced by X-ray irradiation in human blood cell lines.

The response to X-ray irradiation of three different human hematopoietic cell lines originating from T (Jurkat), B (Raji), and promyelocytic (HL60) leukemia was analyzed. The survival after irradiation differed among the three cell lines, with Jurkat cells being the most vulnerable and HL60 being the least sensitive. The profile of gene expression was studied with the microarray technique in both Jurkat and HL60 cell lines. Out of the 13,800 different genes spotted on microarrays, very few genes (<0.5%) appeared to be induced more than 2-fold or repressed more than 2.5-fold in both cell lines.