Your search keyword '"LMB"' showing total 2 results

1. Quantification of Nuclear Protein Transport using Induced Heterodimerization.

Author

Busch, Albert, Kiel, Tilman, and Hübner, Stefan

Subjects

*NUCLEAR proteins, *BIOLOGICAL transport, *CYTOPLASM, *EUKARYOTIC cells, *CELL nuclei

Abstract

Trafficking of proteins between the cytoplasm and nucleus occurs exclusively across the nuclear pore complex of eucaryotic cells. Fundamental aspects of this process affect temporal and spatial parameters, the latter carried out by specific import [nuclear localization sequence (NLS)] and export [nuclear export sequence (NES)] sequences. In this study, we focused on the adaptation of a protein heterodimerization assay to kinetically measure Crm1-mediated nuclear export in living cells using the rapalog AP21967, a heterodimerizing agent and NLS- and NES-containing fusion proteins equipped with distinct AP21967-specific binding motifs. In HeLa cells, we observed rapid nuclear export of the NLS-containing fusion protein in the presence of AP21967, with the extent of this process being a function of the number of AP21967-binding motifs. AP21967-induced nuclear export was specifically inhibited by the Crm1-binding molecule leptomycin B. Half maximal export was achieved after ∼ 10 min. We further applied protein heterodimerization in HeLa cells to study induced NLS-mediated nuclear import. Only in the presence of heterodimerizer AP21967 nuclear import of a cytoplasmically localizing fusion protein was observed. Induced protein heterodimerization is thus a valuable tool to quantitatively study nucleocytoplasmic protein trafficking in cultured cells, in a non-invasive, time-saving manner. [ABSTRACT FROM AUTHOR]

Published

2009

2. Nucleocytoplasmic Shuttling and the Biological Activity of Mouse Survivin are Regulated by an Active Nuclear Export Signal.

Author

Stauber, Roland H., Rabenhorst, Uta, Rekik, Alexander, Engels, Knut, Bier, Carolin, and Knauer, Shirley K.

Subjects

*CYTOLOGY, *MOLECULAR immunology, *APOPTOSIS, *PROTEIN-protein interactions, *BIOLOGICAL transport

Abstract

Survivin appears to function as a regulator of cell division and as an apoptosis inhibitor in many species. Here, we characterized the nucleocytoplasmic transport of mouse survivin140, and its splice variants survivin121 and survivin40. We show that the dynamic intracellular localization of survivin140 is mediated by a Crm1-dependent nuclear export signal (NES) present also in survivin121, but absent in survivin40. In contrast, neither survivin nor survivin splice variants contain an active nuclear import signal and seem to enter the nucleus by passive diffusion. The activity of the NES is required for survivin-mediated protection against cell death inducing stimuli and influences protein degradation. During mitosis, NES-deficient survivin variants fail to correctly localize to the mitotic machinery and promote proper cell division. In vivo and in vitro protein interaction assays show that survivin140 and survivin121 as well as their export-deficient mutants are able to form homo- as well as heterodimers. The trans-dominant negative phenotype observed upon expression of export-deficient survivin appears, therefore, to be mediated by the formation of inactive survivin heterodimers. The survivin–Crm1 axis is essential for the biological activities of murine survivin, and mouse models will allow investigating its functional implications during development and tumorigenesis. [ABSTRACT FROM AUTHOR]

Published

2006