Sorab N. Dalal scite author profile

14-3-3 proteins regulate the cell cycle and prevent apoptosis by controlling the nuclear and cytoplasmic distribution of signaling molecules with which they interact. Although the majority of 14-3-3 molecules are present in the cytoplasm, we show here that in the absence of bound ligands 14-3-3 homes to the nucleus. We demonstrate that phosphorylation of one important 14-3-3 binding molecule, the transcription factor FKHRL1, at the 14-3-3 binding site occurs within the nucleus immediately before FKHRL1 relocalization to the cytoplasm. We show that the leucine-rich region within the COOH-terminal α-helix of 14-3-3, which had been proposed to function as a nuclear export signal (NES), instead functions globally in ligand binding and does not directly mediate nuclear transport. Efficient nuclear export of FKHRL1 requires both intrinsic NES sequences within FKHRL1 and phosphorylation/14-3-3 binding. Finally, we present evidence that phosphorylation/14-3-3 binding may also prevent FKHRL1 nuclear reimport. These results indicate that 14-3-3 can mediate the relocalization of nuclear ligands by several mechanisms that ensure complete sequestration of the bound 14-3-3 complex in the cytoplasm.

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Cytoplasmic Localization of Human cdc25C during Interphase Requires an Intact 14-3-3 Binding Site

Dalal

Schweitzer

Gan

et al. 1999

Molecular and Cellular Biology

261

241

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cdc25C induces mitosis by activating the cdc2-cyclin B complex. The intracellular localization of cyclin B1 is regulated in a cell cycle-specific manner, and its entry into the nucleus may be required for the initiation of mitosis. To determine the cellular localization of cdc25C, monoclonal antibodies specific for cdc25C were developed and used to demonstrate that in human cells, cdc25C is retained in the cytoplasm during interphase. A deletion analysis identified a 58-amino-acid region (amino acids 201 to 258) in cdc25C that was required for the cytoplasmic localization of cdc25C. This region contained a specific binding site for 14-3-3 proteins, and mutations in cdc25C that disrupted 14-3-3 binding also disrupted the cytoplasmic localization of cdc25C during interphase. cdc25C proteins that do not contain a binding site for 14-3-3 proteins showed a pancellular localization and an increased ability to induce premature chromosome condensation. The cytoplasmic localization of cdc25C was not altered by ␥ irradiation or treatment with the nuclear export inhibitor leptomycin B. These results suggest that 14-3-3 proteins may negatively regulate cdc25C function by sequestering cdc25C in the cytoplasm.In eukaryotic cells, an active cyclin-dependent kinase complex, cdc2-cyclin B1, promotes entry into mitosis. Prior to mitosis, kinase activity is inhibited by phosphorylation of the cdc2 catalytic subunit on two residues, threonine 14 (T14) and tyrosine 15 (Y15) (reviewed in reference 46). Several kinases, including wee1 (3, 21, 48), mik1 (32), and myt1 (36, 42), phosphorylate cdc2 at residues T14 and Y15 and inhibit mitotic progression. Entry into mitosis is dependent on dephosphorylation of the T14 and Y15 residues, resulting in the formation of an active cdc2-cyclin B complex (reviewed in reference 46). Inhibition of cdc2 dephosphorylation is a target of the DNA replication and DNA damage checkpoints in both yeast and mammalian cells (reviewed in references 45 and 46

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Novel function of keratins 5 and 14 in proliferation and differentiation of stratified epithelial cells

Alam

Sehgal

Kundu

et al. 2011

MBoC

257

209

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Sorab N. Dalal

14-3-3 transits to the nucleus and participates in dynamic nucleocytoplasmic transport

Cytoplasmic Localization of Human cdc25C during Interphase Requires an Intact 14-3-3 Binding Site

Novel function of keratins 5 and 14 in proliferation and differentiation of stratified epithelial cells

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