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Abstract
Nonsense-mediated mRNA decay (NMD), also called mRNA surveillance, is an important pathway used by all organisms that have been tested to degrade mRNAs that prematurely terminate translation and, as a consequence, eliminate the production of aberrant proteins that could be potentially harmful. In mammalian cells, NMD appears to involve splicing-dependent alterations to mRNA as well as ribosome-associated components of the translational apparatus. To date, human (h) Upf1 protein (p) (hUpf1p), a group 1 RNA helicase named after itsSaccharomyces cerevisiae orthologue that functions in both translation termination and NMD, has been the only factor shown to be required for NMD in mammalian cells. Here, we describe human orthologues to S. cerevisiae Upf2p and S. cerevisiae Upf3p (Caenorhabditis elegans SMG-4) based on limited amino acid similarities. The existence of these orthologues provides evidence for a higher degree of evolutionary conservation of NMD than previously appreciated. Interestingly, human orthologues toS. cerevisiae Upf3p (C. elegans SMG-4) derive from two genes, one of which is X-linked and both of which generate multiple isoforms due to alternative pre-mRNA splicing. We demonstrate using immunoprecipitations of epitope-tagged proteins transiently produced in HeLa cells that hUpf2p interacts with hUpf1p, hUpf3p-X, and hUpf3p, and we define the domains required for the interactions. Furthermore, we find by using indirect immunofluorescence that hUpf1p is detected only in the cytoplasm, hUpf2p is detected primarily in the cytoplasm, and hUpf3p-X localizes primarily to nuclei. The finding that hUpf3p-X is a shuttling protein provides additional indication that NMD has both nuclear and cytoplasmic components.
ACKNOWLEDGMENTS
We thank Xiaolei Sun and Mahadeb Pal for reagents, Xiaojie Li, Saikat Pal, and Deborah Ogden for technical assistance, Javier Cáceres for helpful advice regarding the heterokaryon assays, Javier Cáceres and Adrian Krainer for the T7-hnRNP A1 expression vector, and Nahum Sonenberg for helpful conversations.
This work was supported by Public Health Service Research grants DK 33933 and GM 59614 (L.E.M.), a fellowship from the Association pour la Recherche sur le Cancer (G.S.), and NCI core grant CA 16056 for support of the Roswell Park Cell Analysis Facility (J.B.).