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Regulation of GSK3 cellular location by FRAT modulates mTORC1-dependent cell growth and sensitivity to rapamycin.

Proceedings of the National Academy of Sciences of the United States of America (2019-09-08)
Long He, Dennis Liang Fei, Michal J Nagiec, Anders P Mutvei, Andreas Lamprakis, Bo Yeon Kim, John Blenis
RÉSUMÉ

The mTORC1 pathway regulates cell growth and proliferation by properly coupling critical processes such as gene expression, protein translation, and metabolism to the availability of growth factors and hormones, nutrients, cellular energetics, oxygen status, and cell stress. Although multiple cytoplasmic substrates of mTORC1 have been identified, how mTORC1 signals within the nucleus remains incompletely understood. Here, we report a mechanism by which mTORC1 modulates the phosphorylation of multiple nuclear events. We observed a significant nuclear enrichment of GSK3 when mTORC1 was suppressed, which promotes phosphorylation of several proteins such as GTF2F1 and FOXK1. Importantly, nuclear localization of GSK3 is sufficient to suppress cell proliferation. Additionally, expression of a nuclear exporter of GSK3, FRAT, restricts the nuclear localization of GSK3, represses nuclear protein phosphorylation, and prevents rapamycin-induced cytostasis. Finally, we observe a correlation between rapamycin resistance and FRAT expression in multiple-cancer cell lines. Resistance to Food and Drug Administration (FDA)-approved rapamycin analogs (rapalogs) is observed in many tumor settings, but the underling mechanisms remain incompletely understood. Given that FRAT expression levels are frequently elevated in various cancers, our observations provide a potential biomarker and strategy for overcoming rapamycin resistance.

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Leptomycin B solution from Streptomyces sp., ≥95% (HPLC), Supplied in methanol: water (7:3)