Abstract
The 14-3-3-related protein SMG7 plays critical roles in regulation of DNA damage response and nonsense-mediated mRNA decay (NMD). Like 14-3-3, SMG7 engages phosphoserine-dependent protein interactions; however, the precise role of phosphorylation-mediated SMG7 binding remains unknown. Here, we show that DNA damage-induced SMG7-p53 binding requires phosphorylated Ser15 on p53, and that substitution of the conserved lysine residue K66 in the SMG7 14-3-3-like domain with the glutamic acid (E) abolishes interactions with its client proteins p53 and UPF1. Unexpectedly, loss of phosphoserine-dependent SMG7 binding does not significantly affect p53 stabilization/activation, and p53-dependent cell growth arrest or apoptosis upon DNA damage. Also surprisingly, cells expressing the SMG7 K66E-knockin mutant retain fully functional UPF1-mediated NMD. These findings are highly unusual, given that phosphorylation-mediated 14-3-3 binding has essential roles in numerous cellular signaling pathways. Thus, our studies suggest that 14-3-3-like proteins such as SMG7 likely function using additional distinct regulatory mechanisms besides phosphoserine-mediated protein interactions.