Poster abstracts
Poster number 114 submitted by Zhongxia Yi
Mammalian UPF3A and UPF3B activate NMD independently of their EJC binding
Zhongxia Yi (Center for RNA Biology, Department of Molecular Genetics, the Ohio State University), Rene M Arvola, Sean Myers, Corinne N Dilsavor, Rabab Abu Alhasan, Bayley N Carter, Robert D Patton, Ralf Bundschuh, Guramrit Singh
Abstract:
Nonsense-mediated mRNA decay (NMD) is governed by the three conserved factors - UPF1, UPF2 and UPF3. While all three are required for NMD in yeast, UPF3B is dispensable for NMD in mammals, with its paralog UPF3A suggested to only weakly activate or even repress NMD due to its weaker binding to the exon junction complex (EJC). Here we characterize the UPF3B-dependent and -independent NMD in human cell lines knocked-out of one or both UPF3 paralogs. We show that in human colorectal cancer HCT116 cells, EJC-mediated NMD can operate in UPF3B-dependent and -independent manner. While UPF3A is almost completely dispensable for NMD in wild-type cells, it strongly activates EJC-mediated NMD in cells lacking UPF3B. Surprisingly, this major NMD branch can operate in UPF3-independent manner questioning the idea that UPF3 is needed to bridge UPF proteins to the EJC during NMD. Complementation studies in UPF3 knockout cells further show that EJC-binding domain of UPF3 paralogs is not essential for NMD. Instead, the conserved mid domain of UPF3B, previously shown to engage with ribosome release factors, is required for its full NMD activity. Altogether, UPF3 plays a more active role in NMD than simply being a bridge between the EJC and the UPF complex.
Keywords: Nonsense-mediated mRNA decay, UPF3, Exon Junction Complex