TP53copy number expansion is associated with the evolution of increased body size and an enhanced DNA damage response in elephants

Abstract

SUMMARYA major constraint on the evolution of large body sizes in animals is an increased risk of developing cancer. There is no correlation, however, between body size and cancer risk. This lack of correlation is often referred to as ‘Peto’s Paradox’. Here we show that the elephant genome encodes 20 copies of the tumor suppressor geneTP53and that the increase inTP53copy number occurred coincident with the evolution of large body sizes, the evolution of extreme sensitivity to genotoxic stress, and a hyperactive TP53 signaling pathway in the elephant (Proboscidean) lineage. Furthermore we show that several of theTP53retrogenes (TP53RTGs) are transcribed and likely translated. WhileTP53RTGsdo not appear to directly function as transcription factors, they do contribute to the enhanced sensitivity of elephant cells to DNA damage and the induction of apoptosis by regulating activity of the TP53 signaling pathway. These results suggest that an increase in the copy number ofTP53may have played a direct role in the evolution of very large body sizes and the resolution of Peto’s paradox in Proboscideans.