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You are here: Home / Teams / Posttranscriptional Regulation in Infection and Oncogenesis - Jalinot/Mocquet / Publications / INT6 interacts with MIF4GD/SLIP1 and is necessary for efficient histone mRNA translation.

INT6 interacts with MIF4GD/SLIP1 and is necessary for efficient histone mRNA translation.

Julia Neusiedler, Vincent Mocquet, Taran Limousin, Theophile Ohlmann, Christelle Morris, and Pierre Jalinot (2012)

RNA, 18(6):1163-77.

The INT6/EIF3E protein has been implicated in mouse and human breast carcinogenesis. This subunit of the eIF3 translation initiation factor that includes a PCI domain exhibits specific features such as presence in the nucleusand ability to interact with other important cellular protein complexes like the26S proteasome and the COP9 signalosome. It has been previously shown that INT6 was not essential for bulk translation, and this protein is considered to regulate expression of specific mRNAs. Based on the results of a two-hybrid screen performed with INT6 as bait, we characterize in this article the MIF4GD/SLIP1 protein as an interactor of this eIF3 subunit. MIF4GD was previously shown to associate with SLBP, which binds the stem-loop located at the 3' end ofthe histone mRNAs, and to be necessary for efficient translation of these cell cycle-regulated mRNAs that lack a poly(A) tail. In line with the interaction of both proteins, we show using the RNA interference approach that INT6 is also essential to S-phase histone mRNA translation. This was observed by analyzing expression of endogenous histones and by testing heterologous constructs placingthe luciferase reporter gene under the control of the stem-loop element of various histone genes. With such a reporter plasmid, silencing and overexpression of INT6 exerted opposite effects. In agreement with these results, INT6 and MIF4GD were observed to colocalize in cytoplasmic foci. We conclude from these data that INT6, by establishing interactions with MIF4GD and SLBP, plays an important role in translation of poly(A) minus histone mRNAs.

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