The Central Role of Ribosomal Proteins in p53 Regulation.

The tumor suppressor protein p53 prevents the malignant transformation of cells by responding to DNA damage, oncogene activation, and abnormal growth signals including ribosome assembly defects. Under normal conditions, p53 activity is controlled by the regulatory proteins MDM2 and MDM4, which suppress its function through ubiquitin-mediated degradation and transcriptional inhibition. A subset of ribosomal proteins initiates the p53 response to impaired ribosome biogenesis. The ability of some ribosomal proteins to control MDM2 and MDM4 activities, and thereby p53, underscores an intriguing aspect of cell biology: proteins primarily known for their roles in ribosome function can exert extra-ribosomal functions. One notable example is the cellular RNA-protein complex involving RPL5, RPL11, and 5S rRNA (5S RNP) which inhibits MDM2 and stabilizes p53. Another RP, is frequently mutated in cancers with microsatellite instability and its paralog is often amplified. Recent studies have revealed that RPL22 directly modulates the alternative splicing of to promote p53 activation, suggesting that the ribosomal protein-p53 relationship is more complex than previously thought. Cellular responses to ribosome biogenesis inhibition extend beyond general alterations in transcription and translation to actively determine cancer cell fate by selectively engaging tumor-suppressor pathways. RPL22's effect on and other mRNA splicing events is a striking example. A better understanding of the mechanisms involved could guide the development of improved cancer treatments.