Here, using H1299 lung cancer cells and diverse biochemical approaches, including colony formation, DNA fragmentation, GST pulldown, and apoptosis assays along with NMR spectroscopy, we show that p73 induces transcription-independent apoptosis via its transactivation domain (TAD) through a mitochondrial pathway and that this apoptosis is mediated by the interaction between p73-TAD and the anti-apoptotic protein B-cell lymphoma-extra large (Bcl-X<sub>L</sub> or BCL2L1).
Given that p73 is lost or silenced in human B-cell lymphomas, the Mdm2(Tg);p73(+/-) mouse serves as a model for human disease and may provide additional insight into the pathways that contribute to B-cell lymphomagenesis.
These data indicate that p73 is a modifier of Myc-driven lymphomas in mice, favoring tumor dissemination, and suggest that p73 could be a biomarker for human B cell lymphoma dissemination, a notion that can now be tested in clinicopathologic correlation studies.
To investigate the pattern of inactivation of this gene in human lymphomas, we studied 59 tumors to identify abnormal methylation in exon 1 and loss of heterozygosity (LOH) at this locus. p73 was methylated in 13/50 (26%) B cell lymphomas.