The rate of nuclear cytoplasmic protein transport is determined by the casein kinase II site flanking the nuclear localization sequence of the SV40 T‐antigen

We have previously demonstrated [Rihs, H.‐P. and Peters, R. (1989) EMBO J., 8, 1479–1484] that the nuclear transport of recombinant proteins in which short fragments of the SV40 T‐antigen are fused to the amino terminus of Escherichia coli beta‐galactosidase is dependent on both the nuclear localiza...

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Bibliographic Details
Published in:The EMBO journal 1991-03, Vol.10 (3), p.633-639
Main Authors: Rihs, H. P., Jans, D. A., Fan, H., Peters, R.
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Animals
Antigens, Polyomavirus Transforming - genetics
beta-Galactosidase - genetics
casein kinase II
Casein Kinases
Cell Nucleus - metabolism
Cell Transformation, Viral
Cytoplasm - metabolism
Humans
Kinetics
Molecular Sequence Data
Phosphorylation
Plasmids
Protein Kinases - genetics
proteins
Recombinant Fusion Proteins - analysis
Restriction Mapping
Sequence Homology, Nucleic Acid
Simian virus 40 - enzymology
Simian virus 40 - genetics
Simian virus 40 - immunology
Vero Cells
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Summary:We have previously demonstrated [Rihs, H.‐P. and Peters, R. (1989) EMBO J., 8, 1479–1484] that the nuclear transport of recombinant proteins in which short fragments of the SV40 T‐antigen are fused to the amino terminus of Escherichia coli beta‐galactosidase is dependent on both the nuclear localization sequence (NLS, T‐antigen residues 126–132) and a phosphorylation‐site‐containing sequence (T‐antigen residues 111–125). While the NLS determines the specificity, the rate of transport is controlled by the phosphorylation‐site‐containing sequence. The present study furthers this observation and examines the role of the various phosphorylation sites. Purified, fluorescently labeled recombinant proteins were injected into the cytoplasm of Vero or hepatoma (HTC) cells and the kinetics of nuclear transport measured by laser microfluorimetry. By replacing serine and threonine residues known to be phosphorylated in vivo, we identified the casein kinase II (CK‐II) site S111/S112 to be the determining factor in the enhancement of the transport. Either of the residues 111 or 112 was sufficient to elicit the maximum transport enhancement. The other phosphorylation sites (S120, S123, T124) had no influence on the transport rate. Examination of the literature suggested that many proteins harboring a nuclear localization sequence also contain putative CK‐II sites at a distance of approximately 10–30 amino acid residues from the NLS. CK‐II has been previously implicated in the transmission of growth signals to the nucleus. Our results suggest that CK‐II may exert this role by controlling the rate of nuclear protein transport.
ISSN:0261-4189
1460-2075
DOI:10.1002/j.1460-2075.1991.tb07991.x