Publication date: 14 March 2017
Source:Cell Reports, Volume 18, Issue 11
Author(s): Martin Kucej, Charles S. Fermaintt, Kun Yang, Ricardo A. Irizarry-Caro, Nan Yan
TREX1 mutations are associated with several autoimmune and inflammatory diseases. The N-terminal DNase domain of TREX1 is important for preventing self-DNA from activating the interferon response. The C terminus of TREX1 is required for ER localization and regulation of oligosacchariyltransferase (OST) activity. Here, we show that during mitosis TREX1 is predominately phosphorylated at the C-terminal Serine-261 by Cyclin B/CDK1. TREX1 is dephosphorylated quickly at mitotic exit, likely by PP1/PP2-type serine/threonine phosphatase. Mitotic phosphorylation does not affect TREX1 DNase activity. Phosphomimetic mutations of mitotic phosphorylation sites in TREX1 disrupted the interaction with the OST subunit RPN1. RNA-seq analysis of Trex1−/− mouse embryonic fibroblasts expressing TREX1 wild-type or phosphor-mutants revealed a glycol-gene signature that is elevated when TREX1 mitotic phosphorylation sites are disrupted. Thus, the cell-cycle-dependent post-translation modification of TREX1 regulates its interaction with OST, which may have important implications for immune disease associated with the DNase-independent function of TREX1.
Graphical abstract
Teaser
TREX1 has a DNase-independent function in the C terminus that regulates the ER oligosaccharyltransferase (OST) activity. Kucej et al. found that TREX1 is phosphorylated during mitosis at Serine-261 in the C terminus. Mitotic phosphorylation disrupts TREX1 interaction with the OST complex without affecting its DNase activity.http://ift.tt/2mZbB5E
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